--- a/otu.py	Wed Aug 21 13:13:39 2024 +0000
+++ b/otu.py	Sun Sep 08 14:09:19 2024 +0000
@@ -186,6 +186,8 @@
             os.mkdir(cdd_output)
         if os.path.exists(cdd_output + "/seq_to_align.fasta"):
             os.remove(cdd_output + "/seq_to_align.fasta")
+        if os.path.exists(cdd_output + "/seq_nucc.fasta"):
+            os.remove(cdd_output + "/seq_nucc.fasta")
         file_seq_to_align = cdd_output + "/seq_to_align.fasta"
         file_color_config = cdd_output + "/color_config.txt"
         f = open(file_seq_to_align, "a")
@@ -298,6 +300,7 @@
         cdd_output = options.output + "/" + hits_collection[cdd_id]["short_description"].replace(" ", "_")
         worksheet = workbook.add_worksheet(hits_collection[cdd_id]["short_description"])  # add a worksheet
         file_cluster = cdd_output + '/otu_cluster.csv'
+        file_fasta_nucc = cdd_output + '/representative_nucc.fasta'
         with open(file_cluster, 'r') as clust:
             otu_reader = csv.reader(clust, delimiter=',')
             samples_list = []
@@ -342,6 +345,8 @@
                 if sample not in ['contigs_list', 'global_taxonomy']:
                     total_nb_read = 0
                     for contig in otu_collection[otu][sample]:
+                        if otu_collection[otu][sample][contig]['nb'] == '':
+                            otu_collection[otu][sample][contig]['nb'] = 0
                         total_nb_read += int(otu_collection[otu][sample][contig]['nb'])
                     otu_collection[otu][sample]['total_nb_read'] = total_nb_read
         row = 0
@@ -355,26 +360,30 @@
         worksheet.write(row, column + 2, 'contigs_list')
         row = 1
         # column = 0
-        for otu in otu_collection:
-            if isinstance(otu_collection[otu], dict):
-                column = 0
-                worksheet.write(row, column, otu)
-                # prepare table with 0 in each cells
-                for sample in otu_collection[otu]:
-                    column = 1
-                    for samp in samples_list:
-                        worksheet.write(row, column, 0)
-                        column += 1
-                # fill in table with nb of read for each sample and each OTU
-                for sample in otu_collection[otu]:
-                    column = 1
-                    for samp in samples_list:
-                        if samp == sample:
-                            worksheet.write(row, column, otu_collection[otu][sample]['total_nb_read'])
-                        column += 1
-                worksheet.write(row, len(samples_list) + 1, otu_collection[otu]['global_taxonomy'].replace(';', ' '))
-                worksheet.write(row, len(samples_list) + 2, ",".join(otu_collection[otu]['contigs_list']))
-                row += 1
+        with open(file_fasta_nucc, "w+") as f_nucc:
+            for otu in otu_collection:
+                log.info(otu)
+                if isinstance(otu_collection[otu], dict):
+                    column = 0
+                    worksheet.write(row, column, otu)
+                    # prepare table with 0 in each cells
+                    for sample in otu_collection[otu]:
+                        column = 1
+                        for samp in samples_list:
+                            worksheet.write(row, column, 0)
+                            column += 1
+                    # fill in table with nb of read for each sample and each OTU
+                    for sample in otu_collection[otu]:
+                        column = 1
+                        for samp in samples_list:
+                            if samp == sample:
+                                worksheet.write(row, column, otu_collection[otu][sample]['total_nb_read'])
+                            column += 1
+                    worksheet.write(row, len(samples_list) + 1, otu_collection[otu]['global_taxonomy'].replace(';', ' '))
+                    worksheet.write(row, len(samples_list) + 2, ",".join(otu_collection[otu]['contigs_list']))
+                    row += 1
+                    f_nucc.write(">" + cdd_id + "_" + otu + "_" + otu_collection[otu]['contigs_list'][0] + "\n")
+                    f_nucc.write(str(hits_collection[cdd_id][otu_collection[otu]['contigs_list'][0]]['nuccleotide']) + "\n")
     workbook.close()
     read_file = pd.ExcelFile(file_xlsx)
     for sheet in read_file.sheet_names:
@@ -392,21 +401,20 @@
     if os.path.exists(map_file_path):
         os.remove(map_file_path)
 
-    map_file = open(map_file_path, "w+")
-    headers = ['#cdd_id', 'align_files', 'tree_files', 'cluster_files', 'cluster_nb_reads_files', 'pairwise_files', 'description', 'full_description\n']
-    map_file.write("\t".join(headers))
-    for cdd_id in hits_collection:
-        cdd_output = hits_collection[cdd_id]["short_description"].replace(" ", "_")
-        short_description = cdd_output
-        file_seq_aligned = cdd_output + '/seq_aligned.final_tree.fa'
-        tree_file = cdd_output + '/tree.dnd.png'
-        file_cluster = cdd_output + '/otu_cluster.csv'
-        file_matrix = cdd_output + "/identity_matrix.csv"
-        cluster_nb_reads_files = cdd_output + "/cluster_nb_reads_files.tab"
-        map_file.write(cdd_id + "\t" + file_seq_aligned + "\t" + tree_file + "\t")
-        map_file.write(file_cluster + "\t" + cluster_nb_reads_files + "\t" + file_matrix + "\t")
-        map_file.write(short_description + "\t" + hits_collection[cdd_id]["full_description"] + "\n")
-    map_file.close()
+    with open(map_file_path, "w+") as map_file:
+        headers = ['#cdd_id', 'align_files', 'tree_files', 'cluster_files', 'cluster_nb_reads_files', 'pairwise_files', 'description', 'full_description\n']
+        map_file.write("\t".join(headers))
+        for cdd_id in hits_collection:
+            cdd_output = hits_collection[cdd_id]["short_description"].replace(" ", "_")
+            short_description = cdd_output
+            file_seq_aligned = cdd_output + '/seq_aligned.final_tree.fa'
+            tree_file = cdd_output + '/tree.dnd.png'
+            file_cluster = cdd_output + '/otu_cluster.csv'
+            file_matrix = cdd_output + "/identity_matrix.csv"
+            cluster_nb_reads_files = cdd_output + "/cluster_nb_reads_files.tab"
+            map_file.write(cdd_id + "\t" + file_seq_aligned + "\t" + tree_file + "\t")
+            map_file.write(file_cluster + "\t" + cluster_nb_reads_files + "\t" + file_matrix + "\t")
+            map_file.write(short_description + "\t" + hits_collection[cdd_id]["full_description"] + "\n")
     log.info("Writing HTML report")
     html_cmd = os.path.join(options.tool_path, 'rps2tree_html.py') + ' -m ' + map_file_path + ' -o ' + options.output
     log.debug(html_cmd)

--- a/rps2tsv.py	Wed Aug 21 13:13:39 2024 +0000
+++ b/rps2tsv.py	Sun Sep 08 14:09:19 2024 +0000
@@ -48,7 +48,7 @@
             hsp["evalue"] = hit_evalue
             hsp["startQ"] = hit_startQ
             hsp["endQ"] = hit_endQ
-            hsp["query_id"] = blast_record.query_id
+            hsp["query_id"] = blast_record.query
             hsp["cdd_id"] = aln.hit_def.split(",")[0]
             hsp["hit_id"] = aln.hit_id
             hsp["query_length"] = blast_record.query_length  # length of the query

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input_otu_blast_s1.tab	Sun Sep 08 14:09:19 2024 +0000
@@ -0,0 +1,139 @@
+#algo	query_id	nb_reads	query_length	accession	description	organism	percentIdentity	nb_hsps	queryOverlap	hitOverlap	evalue	score	tax_id	taxonomy	sequence
+TBLASTX	ds2020-267_5		2029	XM_017248196	PREDICTED: Drosophila bipectinata mucin-2-like (LOC108129900), mRNA	Drosophila bipectinata	22.6	2	100	33.0	0.000934457	77.73910000000001	42026	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Brachycera;Muscomorpha;Eremoneura;Cyclorrhapha;Schizophora;Acalyptratae;Ephydroidea;Drosophilidae;Drosophilinae;Drosophilini;Drosophila;Sophophora;melanogaster group;ananassae subgroup;bipectinata species complex;Drosophila bipectinata	ATCGCACATGATAAAGCCCGATATCTAAGGAGCAGCACGTCCGCAACCCTCTGCCTCCAACAATAAAGCAGATTTCTTTGCTCTTCTAACAGCTATTACTTACCACAATGGACCACCTCACTTCCCTTTTCGAGCTTTTTGCTATCACACCGAAAACACAAAACAATCTACAGTTTGTTGGGATCTACCACAGACCTCCACACTCCGTTCGAGCAAACCTCCGCAACGTTGAAAAACACAAAATCACAGTCGCTCACGCCATGCACAAGTACCTTTACCCGCATGAAATCGACTTTGTTATCAACCAAATGCGACGCTCAGACGTCACTGAAGATGCCATACTTGCTGACTTTTTCGACAACAACGTCGAACCACTTGAACCTGTTCTTGACGAACACTTCGAACGTGGACTCTCCGCAATGCTGGACGCTTTTCGCCCTCCGCAGAAATGCCTACCTGCCCACATCTATGATGTGCAGCACCACTACCCATATAAATGGCAAGTGAACGCTGAAGCCCCCTTCTCCACCGATTCCTATTTCTTAGCGAATCGACCAACCTTCCGCGCAGTGTTTGAACGACTCGAATCGCTCTACACACACCTCGCAACCGATTGGCACCGCCGATACGGAAACAAAACCGACAATGATGATTTTATGAATGATCATGTCCCTGCGAAATTTGGCCCTATGAAAGAAACAGTCTTCTCATGGACTCACCGATGGCACCACGTCATCAAATCCAACTTCACCGACACAGCTGGATTGTCTAAAGACTATTACTTCAAAAACCGATACATCTTCCCAATGCTACTTCACACGAAGACAGCGATTGTCAAGAAAGACGACCCGAATAAGATGCGAACCATCTGGGGCTGTTCAAAGCCTTGGATCATCGCAGACACCATGCTATGGTGGGAATACGTCGCGTACGCTAAGTTACAACCTGGAGCCACACCAATGCTCTGGAGTTACGAAACCTTCACAGGTGGCTGGCTTAGACTCAACCACGCACTTTTCTCTTCATACATACGGCACTCGTACATCACACTCGACTGGAAACGCTTCGACAAGAAAGCGTATTTCTGCATCATCGACAAAATTTTCGATGGCGTTGAAACATTCCTCGACTTTGACAACGGCTATTTGCCTACGAAAGATTATCCCGATACCAAATCGACTTGGACACAAGAACGTTCCACCCGCCTCAAACGCCTGTTTGACTGGACAAAAGAGAACTTCTACCATGCACCAATTGTCCTACCCAATGGGCACATGTACGTCCGAAAATTCGCTGGAATACCCTCTGGCCTATTTATCACTCAACTGATCGATTCCTGGTACAACTACACCATGCTCGCAACCATCCTATCCGCGATGGGCTTCGACCCTCGGTCCTGTATTATTAAAGTCCAAGGTGATGACTCAATCATCCGCCTCAGTGCACTCATCCCTCCGGATGCTCACGATTCTTTTTTAACTAAGGTCCAAGAACTCGCCGACTACTACTTTCAATCAGTAGTCTCCGTGAACAAGTCTGAAGTACGCAACGAGCTCAACGGATGCGAAGTTTTATCGTACCGACACAGACACGGTTTACCATACCGCGATGAACTAGCTATGCTAGCTCAACTGTATCACACGAAAGCACGCAACCCAAGTCCCGAAATCACAATGGCACAATCCATCGGCTTCGCCTACGCTTCCTTCGGAAATCATGAAAGAGTACGTCTCGTACTACATGATATCTACGAATATTACAAGCATCAAGGCTACACACCCAACCGAGCCGGACTCAGCCTCGTCTTCGGAAACTCTCCTGACCTCATGATCCCGCACTACACACTTGATCACTTTCCCTCAATCAGGGAAATAAAAATGTTCCTGACTAATGCAAAATATGCCAATGAAGAAACCAACTCACGAACGTGGCCTTTAACCCACTTTCTCCATCTTCCTTGTCATCGCACTTAGTATTTGAGCAATTGCAATTACAACATAATTACAAAAAAAGGATTGCGGACGTGCTG
+TBLASTX	ds2020-267_7		1772	XR_002501664	PREDICTED: Aedes aegypti uncharacterized LOC110678502 (LOC110678502), ncRNA	Aedes aegypti	28.0	1	100	14.0	0.00030013	55.5941	7159	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Nematocera;Culicomorpha;Culicoidea;Culicidae;Culicinae;Aedini;Aedes;Stegomyia;Aedes aegypti	CAGCACGTCCGCAAAGTTCGCTCTCTTCATTGAGCTAATTGGTTAAAAGTCTACTTGTTAAGTAGCATTCACATCAAGGAAAGAATTTCGTCAAAATGGCATACCAAAAGCCCGACAAATCGACCGTCTCCGGCACGACTCTTACGCCAGATGACTCAGCCTCACAAGCTGGTCCACAAAATGATACCCCCAATCCTGCGAAGTCCGGACGCCCAAAGCGTTCATCAAAGATTTCAAAGGGCAAAGATCTACCTCCGGGTGCGATCAAGGTACCAAAAGGTGGCGCCAACATGACGGGGAAAGCATCTCCCGTACAGTCTGCAACCATTCCATTTCGGGATGGGGAGAAATAGACCTCAACTCTCATAGAAATGAGATTGAGCCGGTCTTCACAGTCGACGCTCAGCCGTATGACGACCTTGTCAACGTGGTGTACTCATCACTTCAGTCGCGATACTCAAATGCGGCGAAGCACATCCCGTTTGGCCTCTTCCGCTACTACTGCATGCAATTGTGGTGGTATCGGGTTCTTTTTCTGCATCGCACGAACGGCAATGCTCTCACATCTGACGAACGTCAGTTCATGAGCATCATGGAGACTGGACAAGAGTTCCAAATCCCCTCCCAAATAGCACAGTATCTTGCCAACCTTGGCAATTTCATGCAAGGAGGAGAGAACTTCTTTTTCCGCCTGCCCCCACACGCCTTCGCCGAAGCAACAGGCACTATCCACTCAGGATGGTTTGCCTCTGGTCTTCCCACCGCCAAGGTGGACACAACTTCCTTCTGGAAGTACGCTCAACTTCCGAGTCCGGGCGTTTTCGTGTCCTATATGTGCAACGAAGCACATTACAACACCCCTGGCCACCAGCCCAATCGTCTCTTCGATCTCTCAGAGATCGCCCCCACCATTTCCGACGACAGTTATTCAGTTCCGACTGATAACATCGTTGGTTGGAGTAACGGCATTTACACTGCCACGCACGCCTCCTGGCGTTCGACATACTCCAATCTTGGCTGGTCAATCGACGGTTGTGCCCTTGACTCTCAGACAACATTCATGCTCTCGACATCGACCATGCGTGCCGTGTCTGACCGTATTGCGTCCGTCACCGGACTCAAAGTGAACACGTCAACACAGTTGACACTCTCTGTGCAAGGCAATCCCCTGGATTGCTACTACCTTGCAACTGTGGACTACGCCTCCAACCGCTCTCAGTGGCCAAAGGCACCTGGTCCTCATCAACAACAGAAAGTGAACGGCTGTTTGCACACAGAACTCGCCCTCCACTCCCGCTACGCCATGGACTCAAAAGTCCTATCACCCGCGTTCTCGTTCGGATATCGCCTAGAGCGATCGCTCATCTGGAACGGTACATACGATACCGACAGACGTCCGGTCCACGCTCAGGCCAGCAACTATCAGCCCTGGCTGATACAGTCTGAAGCCGACGACAAATACCGCGATCCTGGCCCCGCATGGATGGCCCATATGAACGATTCGTTCAATTTTGGTTCTTCATTGAACTTGAATTTACGACGATTTTCGACTCATGGCCTCATTCGTTCTGTCGCGCTTGACGCGTCCGTTGTCCTCAGTGACACCAAGTAGAAACTTCTTCTTCTACTACAGCAACTCTCTCTCTTGGTAAAGCTCACTGGTAACCGGTCCAAAACGAAACTCTTAAAACAGTGGATACCCTCCGGGGCGCACGTCCGCAAGGGTCCGGCAGTTGCGGACGTGCTACCCAAAGACCTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_8		1703	XM_014613274	PREDICTED: Dinoponera quadriceps uncharacterized LOC106741364 (LOC106741364), transcript variant X1, mRNA	Dinoponera quadriceps	38.0	4	100	11.0	5.83139e-07	130.2767	609295	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Hymenoptera;Apocrita;Aculeata;Formicoidea;Formicidae;Ponerinae;Ponerini;Dinoponera;Dinoponera quadriceps	CAGCACGTCCGCAAACTGGGGTGTCTGGTATGGTAACTTCTGTTTTTTGTTACTGATATGTCAATCAGTAAAGAACGCTTCCTCGAGGTGGAGTTCCGAATAGAGGGGCCGTGTTTCTTGATATTTTTCGAAATCAGAAAAAGAACGTTGGCGTAGTGCTCTGTTGGAATAAGCCTCGGGTATGAACGCGTACTCGGGTAGGTTTCTATCTCTTCTTGAGATGAATTTCCGTGGCGAGGGTTGAGGTAGTAGCGCAGGGAAGAAAAATCCGCCGAAAGGATCGGTTTGTCGGATGGGAAGTGTGATTTCCTTCATCTCGAGACCGAGAGTGGAGAGATATTTGAATGCCTTTGAAGGCTTCTCTGCCACGTAGGCGTTGAGGGTTTTCTCTTGTATGCCGTTGGTGCTCATGATGTGTTTGATCGCATCATAGAATACATTGCATAGTTTTGGATCCATGCAGGAGTAGAGCTGTCCAAGTAGGCGTGCGCATGACTCGAGTGGTGAGTCAACTGGGCGTTCCGGGTAGATGGTGGAAGCGAAGATGAAGTCGTATGACCTTCGCGGTCCGGTAACTCGGTGGAAGTATCCGAGCCAGTGTATATTCTCAGGGTTATTACTGAGAATCGTCTTGTCCAGGTTAAGAATGCCATTGAAAACATCCTTTAAAACAACACCAAGTTCGACGAGATCAATCGGTCTATCTAGAAAGATGGACGAATCATCTCCGTAGTAGTAGTCCTTAACGGGTAAGGCTCCAGTGACTCGGTAGATGGCAGTACGCATTTGCACTGCGTTGACGATTGTGTCGAGAAGGTTGGTCCACATTGAACCAGATGGGATGCCAGTGCTCTTTTGTACTCGGAGACCGCGGGGTGTGCGTATCTTCGTGTTGATGAAGTAAGAGACCATGGCTTTCCATCGTCGTGCTGTTTGGTCTGAACGGACGTTCCATACTATCCCTTCAGAATCTCTGACTTTTGAAAAGTCAAACCAATCAGAAATGAACGAGAATGTGTCTCGTATTATCCAATGGGTAACATTGGCGTCGAAGCGTGAAAAGTCGGTGGTGAGGGAAACGATATTGTCGATCATGCTCCTCGCAAGATGCGAGTGGCCTGACTTCATTGTTTCCATTCCGATGCCGTAGCACGCGTCCTCTCTGTTGCAGAGTTCCTTCAATTCTGAGAAAAGAGGAATGAAGAAGCGGGCCTCTTCAAGGATGACATCAGTTGGGTAACCCCAAACTGGACGTACTTTGACATTCGGTTGCTCACTTGCGACAACCCTGTTGAAAGCAAGGCAGTCGGGCAGCGACCATGGGATTCCTCTTCCGATACTATCCCAAGCCCGATGTATCTTTCCGGTGGCAACTGGGTCTGCGAAGACCTCAGCTTTTGTCTTGTATCCTTGGTTGACCCAAGGGAAGCCGGGAGATGTCGTGGTGGGCATTGCGGAGTGCTTGGCAGCAGCTCCGAGGGTTAGCGGTATGATACGGTTAGCGGGGCGAAGTTCATCGAGTGTTTTCTTGATAATCGCAAGATAGTCACCATCAACACACCGGGTGGTGGGTCGTTGGTCGTAATCCATGAGATTATCTTCGAGAACCGACTGGTCCGCGGACGGACGGTGCCATGTCGATGAGATGTTGCTAATGAAGTCACAGAGATCCGGAGAACCTGTCAATAGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_10		1619	NM_148731	Arabidopsis thaliana iaa-leucine resistant 2 (ILR2), partial mRNA	Arabidopsis thaliana	32.4	1	100	18.0	0.000702637	54.2195	3702	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Brassicaceae;Camelineae;Arabidopsis;Arabidopsis thaliana	CAGCACGTCCGCAATTTGGGTGGTCTGTTGAGACCATTAGATTGTTTCATTGCGTGTTGAACGCATTGCGACAGAAACAGTTGAGTGGGGCTTAAAGTAGAAAAAAAGCAAACAACAATGGAAGGTCGTTCAGTAAAAAGAAATTAGAAAACAGAAAAAGAGAAAAACTCGGGGGTGTCGCGAGAATTTGCGCTTCTCTATTCAAATCTGAGTGCGGAGGGGGTGTGGTAGTAGCCGGAAATCAACGGTGCAATGGTGTTGCTGACGTTGTATTGCGAAGTTCGACGACTATCGGGAATACTGAAGATTGGTCCGACGTGGGTTGACTTAAAGTCAGGGCCAGAAGTGTCGGTGACATCTTTGTTGATGTCAGTCCAATCGGAGTTGAGCTGAGTGAGGATGCCGGCCTGTTCAGTGACTAGGTCGAGAAACTCTTCAGAGTGGAGGTGGATCGTAGTGATTCCAGTAAATTCTGGAATATCATACCGGAGCGTGGAACCGGTCTGATAACGGACTTTGCGCGTGGTAACGGCATGAACAAGAATGTTCTTGTTTTGCCTAGTAGCCACGTACTTTGTACGTACATAGGAGATCCCAGTGCCAGTAGTGGTCACGGAGCCAAGGGAAACAGTGTCCTTGAAGAAATCACTGTAAGGCTGCATGACGCGGATGACTTGAGCAAACCAACCGTAAGGTCGGTCAGCATGATTGCCGATGCCGCGAAAACCGAAGACCTGGTCGAGGTCGAGGGTATCGTCGTCGTCGGAGATGACATATTGACTGTCACCGTCATTGGCGAAGGGGAGGGTGTTGCGCCACACGTTGGATGAGGTGGCGAGGCCGTTGAGGAGACCAACAGTGGTCTGGAAGTCGGACCGAGCACTAGGCGTAAGCATAGCAAAACGGGTCGCTTCGTCCTTGGAGGCGGGGGCGCCGAAGATCGTCGTATAGACGGTATCCGTGTGGGAAGCATTGGCTTGGACTGGGCCAGAGTTGACAGGCGAGATCAGGGAGATCAATCGCATGAACTGATCAAGAATGAAGATCACATTCGGGAGAATGGTGTGAACTTTGTCTTGCCAGAGGAAACTGGTGCAGTTGATGTCATGGGCATTGGGTATGCCAAAGACAAGATTGCCAAAATTTTCGTTGGGGCCAGCGTTGGCGGCGAGAGACTGGAAGAAGATGGCGACAGGGCCAGGGATCTTCAAGTGTTCGGCCTTGAATTGGCTGTCGAGAAACTCGACAAACAAACGTTGATCGTTGGTGATCATACCACCGTGAGATTGGTTCTTGAGAACCTGGTAGTAGAACAACACAGCGATGTAAAGCTGGGAGACGAAAGGGTGCCAGTCAGGGTTGGCGTCGGTGAAACGCTTGGTTCTGACCATCTGCGTGTCCATGATAGACAGGACGTAGAAGAGCTGAGTGGTGTCAGGCACGACATAGGATATGTCATTGTGCTTGATGCCGAAGAAGGGGAGGTCGGAGACGCCTGATAGCATCATTGAGAGACCCGGGTTCTTGGGGCCAGCGGAGCTTGCAGTGGGTTCGCGAGGGGCGAAACTCTTCTGCTTCTTGGCAGGAACCGAGTATTGCGGACGTGCTGCTCCTTAGAT
+TBLASTX	ds2020-267_12		1539	NR_103132	Erythrobacter litoralis strain HTCC2594 23S ribosomal RNA gene, complete sequence	Erythrobacter litoralis	63.9	32	100	100	8.880403125000002e-64	1494.9235999999999	39960	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Sphingomonadales;Erythrobacteraceae;Erythrobacter/Porphyrobacter group;Erythrobacter;Erythrobacter litoralis	AACGATTGCGGACGTGCTGCTCCTAGATAATCTAAGGAGCAGCACGTCCGCAAGCACCGCCCGGTGGGACAAGTGACTAAGTGCACATGGTGGATGCCTTGGCGATATCAGGCGATGAAGGACGTAGTAGCTTGCGATAAGCTGCGGGGAGTGAGCAAACACACATTGATCCGCAGATTTCCGAATGGGGAAACCCGGCCGAAAGGTCATCGTATTCTGAATACATAGGGATACGAAGCGAACGTGGCGAACTGAAACATCTAAGTAGCTACAGGAAAAGAAATCAACCGAGATTCCCAAAGTAGTGGCGAGCGAAATGGGAAGAGCCTGCATGATTTAGCATCTTTGATAATAGAACGGAATGGAAAGTCCGGCCATAGAGGGTGATAGCCCCGTATATAAAATCATCGGTGTGGAACTAAGTATGCGACAAGTAGGGCGGGACACGTGAAATCCTGTCTGAACATGGGGGGACCATCCTCCAAGGCTAAATACTCGATATCGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGAAGGGGAGTGAAATAGAACCTGAAACCGTGTGCATACAAACAGTAGGAGCAGACTTGTTCTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTACATTCAGTGGCAAGCTTAACCGCATAGGGAAGGCGCAGAGAAATCGAGTCCGAATAGGGCGAAATCAGTCGCTGGGTGTAGACCCGAAACCAAGTGATCTACCCATGGCCAGGTTGAAGGTGCGGTAACACGCACTGGAGGACCGAACCCACTAATGTTGAAAAATTAGGGGATGAGCTGTGGGTAGGGGTGAAAGGCTAAACAAACTTGGAAATAGCTGGTTCTCTCCGAAAACTATTTAGGTAGTGCCTCTTGTATCACCGTCGGGGGTAGAGGCTCTATTGCGGACGTACTAAGGGGGAAAATTTGCGGACGTGCTGNNNNNNNNNNCAGCACGTCCGCAACTCCCGACCCATTGCAAACTCCGAATACCGACGAGTGCGAGCAAGGGAGACAGACATCGGGTGCTAACGTCCGGTGTCAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTACAGCTAAGTGGAAAACGAAGTGGGAAGGCTAAAACAGTCAGGAGGTTGGCTTAGAAGCAGCCACCCTTTAAAGAAAGCGTAATAGCTCACTGATCGAGTCGTCCTGCGCGGAAGATGTAACGGGGCTAAGCTGTACACCGAAGCTGCGGATATCCTTTTAGGATATGGTAGGAGAGCGTTCTGTAAGCCTGCGAAGGTGACTTGTAAAGGTTGCTGGAGGTATCAGAAGTGCGAATGCTGACATGAGTAGCGATAATGGGGGTGAAAAGCCCCCACGCCGTAAGCCCAAGGTTTCCTGTTCAACGTTCATCGGAGCAGGGTGAGTCGGCCCCTAAGGCGAGGCAGAGATGCGTAGCTGATGGGAAGCAGGTTAATATTCCTGCACCGTCGTATGATGCGATGGGGGGACGATTGCGGACGTGCTG
+TBLASTX	ds2020-267_75		425	XM_018173284	PREDICTED: Hyalella azteca uncharacterized ABC transporter ATP-binding protein HI_0658-like (LOC108683972), mRNA	Hyalella azteca	34.6	1	100	15.0	0.000583584	51.9285	294128	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Crustacea;Multicrustacea;Malacostraca;Eumalacostraca;Peracarida;Amphipoda;Senticaudata;Talitrida;Talitroidea;Hyalellidae;Hyalella;Hyalella azteca	CAGCACGTCCGCAACGGTTTGGGGGTATGGATGGGGTATGGCCGTTTGCACGTGCGAGTGTTACTCCTTTGCGGACGTGCTCGCTTAAGGCGACGCACTGACCGTGTGCTTCCCCGTCCTGCCATAACGATATCGCTGACTTTGCCCGAGGTTTCTGGAATGTCTTGCTCAAGCATGGCAATTTTCAGATTGCCACTGATTTGGAATTCGCCACTGTCAGCCTTGACTTGACCGCTAATGACTTTAAACAAAGTTGATTTGCCTTCACCATTGCTAAGACGGTCAGTGCGTCGCCTTAAGCAATCTAAGGAGCAGCACGTCCGCAAAGGCCAACTGGTCACACGTCCCAACTGGATCTTCTTGCGGACGTGCTGAGGGCTAATGCTTGCGGACGTGCTGAGGCTGATGGGCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_76		423	XM_011661535	PREDICTED: Cucumis sativus subtilisin-like protease SBT1.1 (LOC101222234), transcript variant X3, mRNA	Cucumis sativus	53.3	1	100	5.0	2.22196e-08	66.5912	3659	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Benincaseae;Cucumis;Cucumis sativus	CAGCACGTCCGCAATAGAACTGGGGTTAGTTTGGGACGTGCTGACCCCCTCGGTTTGCGGACGTGCTGAGTCGTGGCATCTTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTGGGGTTCCGGGTTGGAGGCAACACACTAGGAACGGGAGCAGGACAAATAAACCCGAAAAAGGCAGCGCATCCCGGGCTCATCTATGACATCACAGTGGATGACTATATCAGCTTCTTGTGCAAGCAAGGCTACAACAGCACCAACATTGGCATACTTGTTGGAGGCAAAAAGAACATCTGACGGTCAGTGCGTCGCCTTAAGCGAAGCACGTCCGCAAGACTCAACATTTTCGGACGTGCTGAACGGAATCCGCTTGCGGACGTGCTGAGCCTCTGGTTATTGCGGACGTGCTG
+TBLASTX	ds2020-267_79		421	XM_011461448	PREDICTED: Fragaria vesca subsp. vesca sperm protein associated with the nucleus on the X chromosome N2-like (LOC105350076), mRNA	Fragaria vesca subsp. vesca	62.1	1	100	11.0	0.000791726	51.4703	101020	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Rosoideae;Potentilleae;Fragariinae;Fragaria;Fragaria vesca;Fragaria vesca subsp. vesca	CAGCACGTCCGCAATTTAGGCCAATTACGTTGCGGACGTGCTGGACTGGTAAATTTGCGGACGTGCTGCTCCTTAGATACGCTTAGGCGACGCACTGACCGTGGGTGAGTTGAGTTTTGTGCTCAATTCACAACAAGTGGTATCAGAGCTGTGTTGGAGCAGCAAGTTGCTAGAGTGTTGAAGATGGCAGGTGACAAGGAAGCTGAAGGTGAAAGTAGCTCTATGCTGCAGAGGCTGCCACAATCTGTCAACATGAAGGTGGAGTTAAAGCCCTTCACAGGGAAGGAGAACTTCACGCTTTGGCAAAGGAGGATGAAGTCAGCCCTTACACAACAACATCTCCATGTTGTGTTGGTGGGCAAGGAAAAGAAGCCAACAGGTATGTACACGGTCAGTGCGTCGCCTTAAGCGGGACGTGCTG
+TBLASTX	ds2020-267_80		417	
+TBLASTX	ds2020-267_81		415	XR_001974586	Schistosoma mansoni ribosomal RNA rRNA	Schistosoma mansoni	78.8	4	100	29.0	2.4292238144000003e-19	347.0096	6183	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Spiralia;Lophotrochozoa;Platyhelminthes;Trematoda;Digenea;Strigeidida;Schistosomatoidea;Schistosomatidae;Schistosoma;Schistosoma mansoni	CAGCACGTCCGCAAATTAGAACCCGTTCCAGAGCTAATACATGCAAACAACATGACACCGCCGGCTCGCCGGAGGCACATGTGCTTTTATTAGATTAAAACCATACCGCTCTTGGGCGGTTCACTTTAGACGAATCTGGATAATTTTGGCTGATCGTATGGTCTCGTACCGACGACACATCATTCAAATGTCTGCCCTATCAACTATTGATGGTAGTATAGAGGACTACCATGGTTGCAACGGGTAACGGGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCTAAGGAAGGCAGCAGGCGCGTAAATTACCCAATCCCGGCACGGGGAGGTAGTGACGAAAAATAACAATACAGGACTGGTGTTGCGGACGTGCTGCTCCTTAGATAGATCGGAAG
+TBLASTX	ds2020-267_82		414	NR_149706	Eremothecium gossypii ATCC 10895 25S ribosomal RNA copy 39 (AGOS_RDNA25_39), rRNA	Eremothecium gossypii ATCC 10895	84.4	4	100	19.0	4.998950000000001e-16	410.2414	284811	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Saccharomycotina;Saccharomycetes;Saccharomycetales;Saccharomycetaceae;Eremothecium;Eremothecium gossypii;Eremothecium gossypii ATCC 10895	GCAGCACGTCCGCAATTTCCACCCCATTAGTGTTACTACATTGAGCTCGGTTACGGCCTTAGAGGCGTTCAGGCATAATCCAACAGACGTAGCTTCATACCACTGTTCGATCGAACAAGTATTGTACCAGAGGTCTGTACCAGCGGTTCCTCTCGTACAACGCTAGTATGCTCTTGTAATAACGGTTCATCAGTAGGGTAAAACTAACCTGTCTCACGACGGTCTAATCCCAGCTCACGTTCCCTATTGGTGGGTGAACAATCCAACACTTGGTGAATTCTGCTTCACAATGATAGGAAGAGCCGACATCGAAGGATCAAAAAGCAACGTCGCTATGAACGCTTGGCTGCCACAAGCCAGTTATCCCTGTGGTAACTTTTCTGACACCTCTAGCTTCAAATTCCGAAGGTCTAA
+TBLASTX	ds2020-267_86		408	XM_004243603	PREDICTED: Solanum lycopersicum UDP-glucose flavonoid 3-O-glucosyltransferase 6-like (LOC101258571), mRNA	Solanum lycopersicum	45.6	1	100	10.0	6.41048e-10	71.6314	4081	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Solanoideae;Solaneae;Solanum;Solanum subgen. Lycopersicon;Solanum lycopersicum	CAGCACGTCCGCAACTTCATACACGTCCTCATAATGAAGCTACCCTTCAACTCCAAGGGCACAGAGGCCTACATAGCCTCCCTCGAAGCCTCTCCCGTATTGCCACGTGTCAACTTCATCACCCTCCCAAAAGTCCCAGACCTAGACAAGCACCTCAGCTCCCACTCCTTCCGCAACCAGTTCGTCGAAAGCCACAAAACCCACGTCAAAAACGCGGTCGCCGAACTCACCGAGTCAAAGTCCGAGTCAAGGCCTCGGCTTGCTGGGTTCGTCATCGACATGTTTTGCACAACAATGATCGATGTGGCGGATGATTTTGGGGTTCCTACGTACATGTTCTTCACTTCACCTGCTGGGTTTCTCGGGCTGCTGTTTAACCTACAAAGGGCCAAAATTGCGGACGTGCTG
+TBLASTX	ds2020-267_87		403	XM_004239991	PREDICTED: Solanum lycopersicum pre-mRNA-splicing factor ISY1 homolog (LOC101262521), mRNA	Solanum lycopersicum	73.0	2	100	9.0	0.00044358	70.4077	4081	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Solanoideae;Solaneae;Solanum;Solanum subgen. Lycopersicon;Solanum lycopersicum	GCAGCACGTCCGCAATAATGCGCCGCTCAGCACGTCCGCAATTGCAACCCGATAAGACTGGGGAACACCGATTGCGGAGATAAGGAAAGAGGCAAGGAGGGCGGTGAAGAGTGGGGAGGTGGTGTCGGTGGCGAAGGCGAATGAGGTTTTGTTTGAAGAGGATGAGGTGGTTGAGGAGGAGAGGCAGAGAGAAAGGGAATTGCAAGAGAGGAGTGAGAGGGAGAAAGAGTTTGTGGTGCACGTGCCGTTGCCGGACGATAAGGAGATTGAGAAGAGGGTGCACGAGAAGCCCGAACGTCCTTACTTCCAGGCACGTCCGCAAACTACTCTGGCTCGCACTCCGCAAGTAATACCCCATACAGATTGCGGACGTGCTGAGGGCCCACATCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_88		400	XM_017755192	PREDICTED: Gossypium arboreum uncharacterized LOC108456628 (LOC108456628), mRNA	Gossypium arboreum	85.9	6	100	96.0	6.686966678329637e-42	659.8089999999999	29729	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Malvoideae;Gossypium;Gossypium arboreum	CAGCACGTCCGCAATTTTGGCCCCCTATGTCTTTTCACAATGTCAAACTAGAGTCAAGCTCAACAGGGTCTTCTTTCCCCGCTGATTTTGCGAAGCCCGTTCCCTTCGCTGTGGTTTCGCTAGATAGTAGATAGGGACAGTGGGAATCTCGTTAATCCATTCATGCGCGTCACTAATTAGATGACGAGGCATTTGGCTACCTTAAGAGAGTCATAGTTACTCCCGCCGTTTACCCGCGCTTGGTTGAATTTCTTCACTTTGACATTCAGAGCACTGGGCAGAAATCACATTGCGTCAACACCATTTTCTGGCCATCGCAATGCTATGTTTTAATTAGACAGTCAGATTCCCCTTGTCCGTACCAGTTCTAAGTTGGGTGTTAAGCCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_89		399	XR_001974586	Schistosoma mansoni ribosomal RNA rRNA	Schistosoma mansoni	79.0	6	100	32.0	7.613382094599998e-14	406.87839999999994	6183	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Spiralia;Lophotrochozoa;Platyhelminthes;Trematoda;Digenea;Strigeidida;Schistosomatoidea;Schistosomatidae;Schistosoma;Schistosoma mansoni	AGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTACCCAATCCTGACACGGGGAGGTAGTGACAATAAATAACAATACCGGGCTCATAGAGTCTGGTAATTGGAATGAGTACAATCTAAATCCCTTAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATATTAAAGTTGTTGCAGTTAAAAAGCTCGTAGTCGGACAATAACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAACGATTCTCCCTCACACGTCCGCAATTTTACCCTCCTGATATTGGACGTGCTGACCGGTTGCACATTGCGGACGTGCTG
+TBLASTX	ds2020-267_90		396	XM_016895811	PREDICTED: Gossypium hirsutum uncharacterized LOC107959693 (LOC107959693), mRNA	Gossypium hirsutum	65.0	4	100	100	1.03567391275e-21	370.3771	3635	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Malvoideae;Gossypium;Gossypium hirsutum	CAGCACGTCCGCAAAGGGAAACCGGTTAATATTCCGGTACCTCGATGTGGATTATCCGCGGCAACGCAACTGAAGGTGGAGACGTCGGCGGGGGCCCCGGGAAGAGTTCTCTTTTCTTCTTAACTGTCTATCACCCTGAAATCGGTTTGTCCGGAGCTAGGGTTTAATGGCAGGTAGAGCAGCACACCTTTGTGCTGTCCGGTGCGCTCTCGACGACCCTTGAAAATCCGCCGGAAGGAATGATTTTCACGCGAGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAGGGGTTGGGCATTGCGGACGTGCTG
+TBLASTX	ds2020-267_95		382	XR_002747725	PREDICTED: Amphiprion ocellaris Eukaryotic 18S ribosomal RNA (LOC111584573), rRNA	Amphiprion ocellaris	62.9	5	100	45.0	1.99894536292564e-17	362.2813	80972	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Actinopterygii;Actinopteri;Neopterygii;Teleostei;Osteoglossocephalai;Clupeocephala;Euteleosteomorpha;Neoteleostei;Eurypterygia;Ctenosquamata;Acanthomorphata;Euacanthomorphacea;Percomorphaceae;Ovalentaria;Ovalentaria incertae sedis;Pomacentridae;Amphiprion;Amphiprion ocellaris	GGACGTTCGGGCTTGGGTGGAGTGATTTGTCTGCTTAATTGCGATAACGAACGAGACCTTAACCTGCTAAATAGCCAGGCCCGCTTTGGCGGGTCGCCGGCTTCTTAGAGGGACTATCGGCTCAAGCCGATGGAAGTTTGAGGCAATAACAGGTCTGTGATGCCCTTAGATGTTCTGGGCCGCACGCGCGCTACACTGACAGGGCCAGCGAGTTTATCACCTTGGCCGGAAGGTCTGGGTAATCTTGTGAAACCCTGTCGTGCTGGGGATAGAGCATTGCAATTATTGCTCTTCAACGAGGAATTCCTAGTAAGCGCATGTCATCAGCATGCGTTGATTACGTCCCTGCCCTTTGTACACACCGAGGAAAGCCCGAACGTCC
+TBLASTX	ds2020-267_96		382	NR_103156	Helicobacter hepaticus strain ATCC 51449 23S ribosomal RNA gene, complete sequence	Helicobacter hepaticus	61.4	4	100	36.0	4.644960165000021e-21	399.70329999999996	32025	cellular organisms;Bacteria;Campylobacterota;Epsilonproteobacteria;Campylobacterales;Helicobacteraceae;Helicobacter;Helicobacter hepaticus	CAGCACGTCCGCAATCAGCCTGTTATCCCCAGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATACAGAACCACCGGATCACTAAGACCTACTTTCGTACCTGCTCGACTTGTGGGTCTCGCAGTTAAGCGCGCTTTTGCCTTTATACTCTACGCGTGATTTCCGACCACGCTGAGCGCACCTTCGTACTCCTCCGTTACTCTTTAGGAGGAGACCGCCCCAGTCAAACTACCCACCAGACACGGTCCTCGTCCCGGATAACGGGACAGAGTTAGAACCTCAACATTACCAGGGTGGTATTTCAAGGACGGCTCCATTGGAACTAGCGTTCCAACTTCAAAGCCTCCCACCTATCCTACACCCGTTGCGGACGTGCTGG
+TBLASTX	ds2020-267_97		380	XM_017189296	PREDICTED: Drosophila ficusphila NADH-quinone oxidoreductase subunit G-like (LOC108090553), partial mRNA	Drosophila ficusphila	45.8	1	100	25.0	4.45135e-11	75.2971	30025	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Brachycera;Muscomorpha;Eremoneura;Cyclorrhapha;Schizophora;Acalyptratae;Ephydroidea;Drosophilidae;Drosophilinae;Drosophilini;Drosophila;Sophophora;melanogaster group;ficusphila subgroup;Drosophila ficusphila	CAGGTATGTTTTCGGACGTGCTGACAATCAGGTCCTTGCGGACGTGCTGACCCCATACTAATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTCCTGGTCTCCCTCCATAGCCGAAATGACCATGGTCACACAGGAAGTAAGCCTTGACTTCCCCATTAAAACGGTTTTCGATACGGCGCAATTCACCATAGCGCTCACCCGCTGAGATATTACAACCTGTCGAACAGCCATGACAAATGCTTGGTGCATATTGCATGTCCCAATCCACGGTCAGTGCGTCGCCTTTAGCGTATCTAAGGAGCAGCACGTCCGCAAACGAGATTTTGTGGACGTGCTGCCGGATGAGCCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_98		379	XM_008574350	PREDICTED: Galeopterus variegatus excision repair cross-complementation group 3 (ERCC3), transcript variant X2, mRNA	Galeopterus variegatus	76.1	1	100	6.0	7.75893e-14	84.4613	482537	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Euarchontoglires;Dermoptera;Cynocephalidae;Galeopterus;Galeopterus variegatus	CAGCACGTCCGCAACGTCCTTACACTCAGCACGTCCGCAAGACTATCAGCCTCAGCACGTCCCAACCGAGTCTCTTTTGCGGACGTGCTGCTCCTTAGAAAGGACGTTCGGGCTTTCCTGCTGCCATCCGATCCTGAAGTTTACCCTTTGCCCTTAGAATACGACCAAGGCGCTGCGCTTCTTGACGCCTTGAACCAGCATGTGACGATATCTGAATTATCACATTTGCCTCCAGAATGTCTATGGAATTATCACCTACCTTAGACAAAAATGCCATGTTAAGCCCGAACGTCCTTACTTCCAGTATCTAAGGAGCAGCACGTCCGCAATATTCACACTCTCAGCACGTCCGCAAAGGGAATGGGATTGCGACGTGCTG
+TBLASTX	ds2020-267_99		378	
+TBLASTX	ds2020-267_100		376	XM_017238874	PREDICTED: Drosophila bipectinata mreB-like protein (LOC108123622), mRNA	Drosophila bipectinata	38.9	1	100	14.0	0.000467507	51.9285	42026	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Brachycera;Muscomorpha;Eremoneura;Cyclorrhapha;Schizophora;Acalyptratae;Ephydroidea;Drosophilidae;Drosophilinae;Drosophilini;Drosophila;Sophophora;melanogaster group;ananassae subgroup;bipectinata species complex;Drosophila bipectinata	TCAATCGGCAGGAACAAAATTAGGTGTATAAACTTATTTTGCTTATTCGGACGGACCAACTAGACTAGTTACGACATCACATTGATAGCCTCTACTCGTGTCCTAGCTCGTCTGAGAGCTAAATTTGCCTCAATTGTTTGTCTCTTGCCTTCAGCTTTCCTCAAGTTAGCTTCCGCTATTTCAAGAGTTTGTTGCGCTTCTTGTGGATCAATGTCACTACCCTTCTCTGCATCATTTACTAAAACCGTGATCTCATTATTGCCTATTCTAGCAAAACCACCCATCAGAGCCATCGTTAACCATTGGTCGTTAAGGCGTATTCTCAAAATACCGATATCTACAGCTGTGGCAGGGCGTGAACCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_102		375	
+TBLASTX	ds2020-267_104		371	XR_001951261	PREDICTED: Pyrus x bretschneideri uncharacterized LOC103968130 (LOC103968130), transcript variant X2, misc_RNA	Pyrus x bretschneideri	87.5	1	100	5.0	0.000243826	52.8449	225117	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Pyrus;Pyrus x bretschneideri	CAGCACGTCCGCAACCTCTAGGCCCTCCTTGGGAACCATCACAAGTACGGCCGGCCTATATTTAAACGAGAATGCCGTGTCGTCCAGCGGAGCCTAGAAGAAGGTGACTCGCGCAGACAGCGGACTCCTTTTCAATAGAAAGGAATAGCCAAACCAACCCAGCTGGCTGGTCAATCTCAGAGATCTTATCGGCCGGCAAACCGGAGACGGACGACCACGGTCCCGACCTTACCAGCACCGGAGGTGTACTAATCAATGAACCCCCGAAACCTACTTTCTTTTCTGACAAAATCAACCAAAGTACTCTTGCGGACGTGTGAGGTCTCTGAACTTGCGGACGTGCTGAGGGGGGCTATGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_109		357	XM_008190202	PREDICTED: Acyrthosiphon pisum nitrite reductase [NAD(P)H]-like (LOC103310826), mRNA	Acyrthosiphon pisum	54.5	2	100	12.0	0.000352239	70.40780000000001	7029	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Paraneoptera;Hemiptera;Sternorrhyncha;Aphidomorpha;Aphidoidea;Aphididae;Aphidinae;Macrosiphini;Acyrthosiphon;Acyrthosiphon pisum	CAGCACGTCCGCAAACATAGGGAGCCAATTGCGGACGTGCTGTCTGGAAGTAAGGACGTTCGGGCTTGTTCATACTACTCCCCATAGCGACACCATGTGCTACCGACGCAAGATTTGACGGTACGCAAAGACTTGCCATAGGCATGCCCTGTTTCAAAACCTGCGTTGATTAAGCGTTCCCAAATATCGGGCAATTGGTCAATACGTGCACCAAATAAATCCACACGTTACCCACCAGTAAAAGCCCGAACGTCCTTTATCTAAGGAGCAGCACGTCCGCAACATAGCGCCCCTCAGCACGTCCCAAGTAGTGTGCCCTCAGCACGTCCACAATGTAGGTCTATTGCGGACGTGCTG
+TBLASTX	ds2020-267_114		347	XM_011403143	Auxenochlorella protothecoides ABC transporter G family member 36 partial mRNA	Auxenochlorella protothecoides	55.1	2	100	15.0	0.000456461	69.9495	3075	cellular organisms;Eukaryota;Viridiplantae;Chlorophyta;core chlorophytes;Trebouxiophyceae;Chlorellales;Chlorellaceae;Auxenochlorella;Auxenochlorella protothecoides	GACGCACTGACCGTGATCGGCTTTCTATTTTTTTTGTGTCCTTTATTCTTCCTTGCTTCGGATCGGAAAATTAAAGAATTGAGTGAATCATAAACCAAAGGAGGTTCATGGCCAAGGGTAAAGATGTCCGAGTAACAGTTATTTTGGAATGTACCAGTTGTCTTCGAAATCGTGTTAATAAGGAATCAACGGGCATTTCCAGATATATTACTCAAAAGAATCGACACAATACGCCTGGTCGATTGAAATTGAGAAAATTCTGTCCCTGTTGTTACAAACATACGATTCATGGGGAGATAAAGACATAGATCGACCCGACCGCAGCGCGCGATAGTGCGGACGTGCTG
+TBLASTX	ds2020-267_116		345	XR_002431959	Naumovozyma castellii CBS 4309 18S ribosomal RNA (Ncas_RDN18-1), rRNA	Naumovozyma castellii	78.9	6	100	25.0	1.745399533333333e-11	293.7007	27288	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Saccharomycotina;Saccharomycetes;Saccharomycetales;Saccharomycetaceae;Naumovozyma;Naumovozyma castellii	CAGCACGTCCGCAGCGACGAGTTCATTGTAGCGCGCGTGCAGCCCAGGACATCTAAGGGCATCACAGACCTGTTATTGCTCAATCTCGTTATTGCTAGACGCAATTTGTCCATTTAAGAAGCAAAGTGTCCTCTTAAGACAAACCAAACAGGTATGACTCCATCGCACGTGCCGAAGCACATGAAACTTCAACGCCATAGTCCTGCAGGCATCTATTTAAAAAAGTTTGAGTCTCGTTCGTTATCGGAATTAACCAGACAAATCACTCCACGAACTAAGAACGGCCATACACCACCACCCATAGATTCGAGAAAGAGCTATGGGTTGCTAGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_117		344	XM_011393541	Ustilago maydis 521 hypothetical protein partial mRNA	Ustilago maydis 521	36.7	1	100	21.0	0.000744511	51.0121	237631	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Basidiomycota;Ustilaginomycotina;Ustilaginomycetes;Ustilaginales;Ustilaginaceae;Ustilago;Ustilago maydis;Ustilago maydis 521	ATCTAAGGAGCAGCACGTCCGCAACGCAAATGGCCTCAGCACGTCCGCAATTACCAACCCCCATTTGCGGACGTGCCTGGAAATAAGGACGTTCGGGCTTATTCCTCGTGCTATGAGCCGAAGAAATAGTAAGATATGGGTAAGAGTTCTCGCTGATCTCCCTATTACCCGGAAACCTACAGAAGTAAGAATGGGAAGAGGAAAAGGAAATCCTACGGGTTGGATCGCTCGTGTGTCCACGGGACAAATCCCATTTGAAATGGATGGTGTGAGTTTGTCAAATGCTCGACAAGCCGCTGTCAAAGTGTGGATTTCATTTTGTAAAAAATAAGGGGGACGTGCTG
+TBLASTX	ds2020-267_118		343	XM_003590310	Medicago truncatula DNA-directed RNA polymerase subunit beta partial mRNA	Medicago truncatula	78.4	2	100	19.0	6.38972e-05	71.7824	3880	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;NPAAA clade;Hologalegina;IRL clade;Trifolieae;Medicago;Medicago truncatula	CAGCACGTCCGCAAGGGTGCCCCACCCACACGTCCGCAATGAATCGTTTGTGGTTTGCGGACGTGCTGCTCCTTAGATACGCACTGACCGTTGCGCCGCCATAGAACTCGACAGTTACACCTACTTGTTCGACACTATATTTTGATTCTGCCCTTCTAAAAGGAACATCGGCTCTAACAATTCCGTCTCCGTCTACCAAAACAACCGGAAACGTTTCAAAAAAGGTAGGCATACGACGTACAAAAAGTTCGCGCCCCTCTTTATCTCTAAAGATAGGATGTCCTAACCACCCAACAGCTATTCCATCCCCGTTGTCCATTGAGCCACGAACGGTCAGTGCGTC
+TBLASTX	ds2020-267_120		339	
+TBLASTX	ds2020-267_121		339	NR_026519	Agrobacterium larrymoorei strain AF3.10 16S ribosomal RNA gene, partial sequence	Agrobacterium larrymoorei	69.0	7	100	38.0	0.00012208323028571543	285.6039	160699	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Hyphomicrobiales;Rhizobiaceae;Rhizobium/Agrobacterium group;Agrobacterium;Agrobacterium larrymoorei	GCAGCAGTGGGGACTCTTGGACAATGGGCGAAAGCCCGATCCAGCACTATCGCGTGAGTGAAGAAGGGCAACGCCGCTTGTAAAGCTCTTTCGTCGAGTGCGCGATCATGACAGGACTCGAGGAAGAAGCCCCGGCTAACTCCGTGCCAGCAGCTGCGGTAAGACGGGGGGGGCAAGTGTTCTTCGGAATGACTAGGCGTAAAGGGCACGTAGGCGGTGAATCGGGTTGAAAGCGAAAGTCGCCAAAAACTGGTGGAATGCTCTCGAAACCAATTCACTTGAGTGAGACAGAGGAGAGTGGAATTTCGTGTGTAGGGGTTACAGGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_122		338	XM_012209289	PREDICTED: Jatropha curcas superoxide dismutase [Cu-Zn], chloroplastic (LOC105628003), transcript variant X1, mRNA	Jatropha curcas	65.8	1	100	9.0	1.15434e-05	56.9688	180498	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Malpighiales;Euphorbiaceae;Crotonoideae;Jatropheae;Jatropha;Jatropha curcas	ATCTAAGGAGCAGCACGTCCGCAATAAACTCCCGGTAGAAAGAGATTTCACTAATGAAAAAGCTTTCAATGCTGCCCGATATCCCTTCCTTTTCCAAATATTTTTACGAATCCGTTTTTTTGAAATAGAGGTGCGTTTTTTTGGAACTGCCATTAAAAAATTATATTATAATAGGTTCTTCGGTTGGATGTGAAAGACATCTATTGTTCAACTCTTCTCTATCTATTTATTCTCTAAATCATACTCCCTTCATAAAAAAGGGGGGGGGGGTTGCGGACGTGCTGCTCCTTAGCTACGTTCGGGCTTGTTATAGGGGTTGGTTGAAAGCCCGAACGTCC
+TBLASTX	ds2020-267_123		338	XM_020691931	PREDICTED: Sesamum indicum uncharacterized LOC110011577 (LOC110011577), mRNA	Sesamum indicum	100.0	1	100	7.0	0.000276488	52.3867	4182	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Pedaliaceae;Sesamum;Sesamum indicum	GACGCACTGACCGTCGCCCCCCGTGCTTCTGGCATGTTACATTCCTCTTCGTGCTGAGCCCCCCTTTCTCGTCGGTCCGCAGAGACAAAATGTAGGACTGGTGCCAACAGTTCATCACGGAAGAAAGGACTCGCTGAGCCGAGATCACTAACTAATACTAATCTAATACTAATGAAAATGCTAATATAATAGAAAAGAACTGTCTTTTCTGTATACTTTCCCCGGTTCCGTTGCTACCGCGGGCTTTACGCAATCGATCGGATCATATAGATATCCCTTCAACACAACCTAGTTCACTGCCAGGATCTCGGAGACACGCCACCAAGCCCGCACGTCCC
+TBLASTX	ds2020-267_126		335	
+TBLASTX	ds2020-267_127		334	NR_076443	Rhodococcus jostii strain RHA1 23S ribosomal RNA gene, complete sequence	Rhodococcus jostii	68.0	8	100	23.0	2.0940329004750674e-09	355.8608	132919	cellular organisms;Bacteria;Terrabacteria group;Actinomycetota;Actinomycetes;Mycobacteriales;Nocardiaceae;Rhodococcus;Rhodococcus jostii	CAGCACGTCCGCAATTTTCGCTACCTTAGGACAGTTAGAGTTACTGCCGCCGTTTACCGGGGCTTCCATTCAAAGCTTATAACACTTCTCCTTCCGACCTTCCAGCACCGGGCAGGTGTCAGACTCTATACATCGTGTTACCACTTAGCAGAGTCCTGTGTTTTTAATAAACAGTCGCTACCCCCTGGTATGTGCCGCTTTCCTAATCAAAAGATAGGAGAGCACCCCTTCTCCCGAAGTTACGGGGTCATTTTGCCGAGTTCCTTCGACATGGTTCTCTCAAGCGCCCTAGTATACTCTACTTGTTCACCCGTGTCAGTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_131		329	NR_076980	Desulfosporosinus acidiphilus strain SJ4 23S ribosomal RNA gene, complete sequence	Desulfosporosinus acidiphilus	69.8	5	100	19.0	1.404536565284e-12	299.96490000000006	885581	cellular organisms;Bacteria;Terrabacteria group;Bacillota;Clostridia;Eubacteriales;Desulfitobacteriaceae;Desulfosporosinus;Desulfosporosinus acidiphilus	CAGCACGTCCGCAATCCACGACCGCTAGCGAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGTGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATATGAACAATGTTGCGGACGTGCTGCTCCTTAGATA
+TBLASTX	ds2020-267_136		322	NR_076977	Advenella kashmirensis strain WT001 23S ribosomal RNA gene, complete sequence	Advenella kashmirensis	82.9	5	100	16.0	7.8709244e-18	332.4976	310575	cellular organisms;Bacteria;Pseudomonadota;Betaproteobacteria;Burkholderiales;Alcaligenaceae;Advenella;Advenella kashmirensis	CAGCACGTCCGCAAGTATGCCTGGTTTCAGGATCTATTTCACTCCCCTCACAGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTATTTAGCCTTGGAGGATGGTCCCCCCATATTCAGACAGGATACGACGTGTCCCGCCCTACTCATCGAGCTCACAGCATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAGACGCTTCCACTAACACACACACTGATTCAGGCTCTGGGCTCCTCCCCGTTCGCTCGCCGCTACTGGGGAAATCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_138		322	XM_009430439	PREDICTED: Pan troglodytes threonyl-tRNA synthetase 2, mitochondrial (putative) (TARS2), transcript variant X2, mRNA	Pan troglodytes	78.5	2	100	9.0	1.90052004925765e-05	135.4733	9598	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Euarchontoglires;Primates;Haplorrhini;Simiiformes;Catarrhini;Hominoidea;Hominidae;Homininae;Pan;Pan troglodytes	CAGCACGTCCGCAACCGCGTTCATCTCAGCACGTCCGCAAGCGACCTCACGTCAGCACGTCCGCAATGGCCATATCGTTGCGACGTGCTGCTCCTTAGATATAGGCGACGCACTGACCGTATCGTCGCCCCTGGTGGCATGGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGTCAGGAGAATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCAGACTGAGGTGTTCGCTCTTGGGACGTGCTGAGAGGAAGATGTTTGCGGACGTGCTGAGCCTTATCCTATTGCGGACGTGCTG
+TBLASTX	ds2020-267_139		320	
+TBLASTX	ds2020-267_140		319	NR_076486	Shewanella loihica strain PV-4 23S ribosomal RNA gene, complete sequence	Shewanella loihica	53.6	2	100	6.0	0.000948917	68.5749	359303	cellular organisms;Bacteria;Pseudomonadota;Gammaproteobacteria;Alteromonadales;Shewanellaceae;Shewanella;Shewanella loihica	CAGCACGTCCGCAATGAGTTTGGGCGCTTAAGGCGACGCACTGACCGTCAAAGCAGCCATCCTTAAAAGAGTGCGTAATAGCTCACTGGTCAAGCGTTCCTGCGCCGAAAATGAATGGGACTAAGCATTGCACCGAAGCTGTGGGTTTGTCTTTAATTAGACAAGCGGTAGAGGATGCTAAACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAATGCATGTGGGGTCAGCCGTCCGCAATAAATCACCCCTGAGCCATGCACGTGCTGAGGAAGAGCGCGTTGCGGACGTGCTGCTCCTTAGA
+TBLASTX	ds2020-267_311		252	XM_021907774	PREDICTED: Chenopodium quinoa pentatricopeptide repeat-containing protein At3g46790, chloroplastic-like (LOC110728129), transcript variant X1, mRNA	Chenopodium quinoa	37.3	1	100	6.0	2.83245e-05	54.6777	63459	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;Caryophyllales;Chenopodiaceae;Chenopodioideae;Atripliceae;Chenopodium;Chenopodium quinoa	TATCTAAGGAGCAGCACGTCCGCAAATGTGTCCCGGTTGTTGTTCGATCAAATGCCAAGCCCGGATTTTTATTCGTGGAAGGTGATGCTGAGGTGGTACTTTATGCACAACTTGTATGCAGAGGTTATGGGGTTCTATACCCGTATGAGAATATGCGTCAGAGAACATGACAACGTTGTTTTCTCGATTGTTCTGAAGGCTTGTAGTGAATTGCGGGACTTCAATGAGGGGAGAACTATTGCGGACGTGCTG
+TBLASTX	ds2020-267_312		252	XM_005978318	PREDICTED: Pantholops hodgsonii threonine dehydratase, mitochondrial-like (LOC102332927), mRNA	Pantholops hodgsonii	70.4	1	100	5.0	0.000133291	52.3867	59538	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Artiodactyla;Ruminantia;Pecora;Bovidae;Antilopinae;Pantholops;Pantholops hodgsonii	GACGCACTGACCGTGGCGGTAGCCCTCCATTCCTGAGCGCACAGGCGCTTTCTTGGATTTTTGCCGCTCGCTCAAAGGCCGCAACATCACCGTATTTAACTACCGCATCAACACCAACCCCAAATACGACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAAACCACTTCACTTGGGACGTGCTGAGGTGTGCAGCGTTGCGACGTGCTGAGCCCTAGTCGATTGCGGACGTGCTG
+TBLASTX	ds2020-267_313		252	XM_004988000	Salpingoeca rosetta hypothetical protein partial mRNA	Salpingoeca rosetta	75.9	1	100	17.0	0.000896207	49.6374	946362	cellular organisms;Eukaryota;Opisthokonta;Choanoflagellata;Craspedida;Salpingoecidae;Salpingoeca;Salpingoeca rosetta	CAGCACGTCCGCAAGGACACACTCTCAGCACGTCCGCAAGATTTATCTCCTCACACGTCCGCAACAAGGGCCGATTATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTTCCTTTGATCCTTCTGCAGGTTCACCTACAGAAACCTTGTTACGACTTTTACTTCCTCTAAGTGACCAAGTTTGCCTAAGTTTTCAGCGGCCTGCTACCGTTGCCGGTACAAGCTGCCAATCCCAA
+TBLASTX	ds2020-267_318		251	XM_016752404	Spizellomyces punctatus DAOM BR117 ribosomal protein L16 (SPPG_04156), mRNA	Spizellomyces punctatus DAOM BR117	35.1	1	100	15.0	0.000896207	49.6374	645134	cellular organisms;Eukaryota;Opisthokonta;Fungi;Fungi incertae sedis;Chytridiomycota;Chytridiomycota incertae sedis;Chytridiomycetes;Spizellomycetales;Spizellomycetaceae;Spizellomyces;Spizellomyces punctatus;Spizellomyces punctatus DAOM BR117	CAGCACGTCCGCAATCTGGACCCCTTTCCTTTGTTTCTACATCCCTATCCCAAAAGACTGAATTGAGTTCGTATAGGCATTTTGGATGCCTCTATTGAAATTGCCCTTCTGGCTATATTTTCTGCTACTCCGCTCATTGCAGAAAGTATTCTACAGGGTTTAACAACAGCTACCCAATATTCGGGAGATCCTTTACCCGAACCCATAAGTGTATCTGTAGTGCTGAGTGTAACGTGTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_320		250	XM_016091946	PREDICTED: Arachis duranensis group II intron-encoded protein LtrA-like (LOC107472415), partial mRNA	Arachis duranensis	92.3	2	100	7.0	0.000771429	66.7421	130453	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;dalbergioids sensu lato;Dalbergieae;Pterocarpus clade;Arachis;Arachis duranensis	GGAGGCAACTTTCCCGTATGAGCATTCGGTACATGTATCAGTCCGTGGAAGAGTGAAAGGGTCACCACTACTGAGGATCTCCCCCCTAATCTTAGATAGGTCGTCTGAGGGTTCGCCGCGGTTCATTGCTGTGCTTACACACTAGGCTACCCTTCTCCGAAAGCTCCGCGGGACCACCTACCACTAGTCTTCGGCCGGAGGGGTTTATTGCACAAAAACGCCAGTCCGCAAGCCCGAACGTCCTTAATCT
+TBLASTX	ds2020-267_322		250	NR_076529	Campylobacter concisus strain 13826 23S ribosomal RNA gene, complete sequence	Campylobacter concisus	59.1	2	100	5.0	0.000990948	67.6015	199	cellular organisms;Bacteria;Campylobacterota;Epsilonproteobacteria;Campylobacterales;Campylobacteraceae;Campylobacter;Campylobacter concisus	GGACGTTCGGGCTTAACATTGACTCTGGGTAACTGATGTGTAGGATAGGTGGGAGCCTGTGATCCGGCGTCGCTAGGCGTCGGTTAGGCAACGTTGAAATACCACCCTTCAGTTGCTTGGAGCCTAATCCCCGAGGGGGAGACATTGTTTGGTGGGTAGTTTGACTGGGGTGGTATCTAAGGAGCAGCACGTCCGCAACAGCGCCAGAGTGATTGGGACGTGCTGCCCGTGTCATATTGCGGACGTGCTG
+TBLASTX	ds2020-267_323		250	XM_003080518	Ostreococcus tauri Proteasome, subunit alpha/beta (OT_ostta07g04690), partial mRNA	Ostreococcus tauri	48.7	1	100	16.0	0.000652339	50.0956	70448	cellular organisms;Eukaryota;Viridiplantae;Chlorophyta;Mamiellophyceae;Mamiellales;Bathycoccaceae;Ostreococcus;Ostreococcus tauri	CAGCACGTCCGCAAAGCCCGCGATGACTTTGTCGTTGTACAGACGGCGGACCTTTTTCACGTTGCCTTTCATTACGGTATTGCCCAACGTGGCCTGACCATCACCAGCGATGACCACATGGCCGTTACGGCGTACGCTTACTATAGTTGTCACGAGCTGACCCCTTGGTTACGAATACAGAGTACAAACCCCGTACAAAAGTACGGGGCATAATGCAATTATAGATGGCTGAGGTGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_324		250	XM_001193453	PREDICTED: Strongylocentrotus purpuratus quinone oxidoreductase-like (LOC756093), mRNA	Strongylocentrotus purpuratus	85.7	3	100	23.0	3.5011077524567667e-06	215.3526	7668	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Echinodermata;Eleutherozoa;Echinozoa;Echinoidea;Euechinoidea;Echinacea;Camarodonta;Echinidea;Strongylocentrotidae;Strongylocentrotus;Strongylocentrotus purpuratus	TTTCGATCTAGCTAAGGAGGAGCAAGTCGGCAATGAAGCCGCTTTGTATGAGGCGCTTGTTTCACGTTTGGGTGGAGAATATCTTGATGTCGCCTTCGATGCTGTAGGAGGGCCACATATTGAACAGATTGCAAAAGCGATGTCTGTGGGAGGACCCGAATGCAACCGGTCAGTGCGTCGCCTTAAGCGATCCGCAAGTAGGTAGGTATAGTTGCGGACGTGCTGAGTACAGGTCACTTGCGGCGTGCTG
+TBLASTX	ds2020-267_327		249	
+TBLASTX	ds2020-267_332		248	XM_017339971	PREDICTED: Oryctolagus cuniculus translation initiation factor IF-2-like (LOC108176098), partial mRNA	Oryctolagus cuniculus	76.2	3	100	28.0	3.1082051233333333e-09	221.30920000000003	9986	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Euarchontoglires;Glires;Lagomorpha;Leporidae;Oryctolagus;Oryctolagus cuniculus	CAGCACGTCCGCAAATTTCTCTCTTTCCAAAGTTCTTTTCATCTTTCCCTCACGGTACTTGTTCGCTATCGGTCTCTCGCCTATATTTAGCTTTAGATGGAATTTACCACCCATTTTGAGCTGCATTCCCAAACAACTCGACTCTTCGAGAGCACACCACAATGCATCGGTAGTCCGTGTCATATACGGGATTCTCACCCTCTACGACGCTCCGTTCCAGGAGGGGGGTATGCGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_333		248	XM_004297768	PREDICTED: Fragaria vesca subsp. vesca WAT1-related protein At4g08300-like (LOC101291425), mRNA	Fragaria vesca subsp. vesca	68.2	2	100	7.0	3.17657e-05	72.6988	101020	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Rosoideae;Potentilleae;Fragariinae;Fragaria;Fragaria vesca;Fragaria vesca subsp. vesca	CAGCACGTCCGCAAGAGCCCCGTCTTCCTTCTCCTATTTCAATTCTTGACAAAGCTGGACGAGCACATCATGCAAGTGTTCATATAGAGGATGGTGGAATAGTTTGAGTCTTGGCTCTTGTTTCATGTTGACAGTATCAGGTTCTTGATTAAGTTCCTCTGATGTGCTAACAATTTCCTGACTTCATTTTATATAATAGATAGTGGAATAGTAGAAGATACCATGCATGGCCTATTGCGGACGTGCTG
+TBLASTX	ds2020-267_336		248	XM_020580639	Polysphondylium pallidum PN500 phosphopyruvate hydratase (enoA), partial mRNA	Heterostelium album PN500	52.9	1	100	8.0	0.000860358	49.6374	670386	cellular organisms;Eukaryota;Amoebozoa;Evosea;Eumycetozoa;Dictyostelia;Acytosteliales;Acytosteliaceae;Heterostelium;Heterostelium album;Heterostelium album PN500	GGACGTTCGGGCTTGGCTTCTAGGGTTTCTGTCAGGGTGCCGATCTGGTTGAACTTGATCAGGATCGAGTTGGCGATCTTTTTGTCGATGCCTTCTTTCAGGATCTTGGTGTTGGAGGATTCCCTGAAAGCCCGAACGTCCTTAATCTAAGGAGCAGCACGTCCGCAACCCTTACCCAGTGACACTTGCGGACGTGTGAGGATCCGGCCATTGCGACGTGCTGACCCAAACTCTGTTGCGGACGGCTG
+TBLASTX	ds2020-267_337		247	
+TBLASTX	ds2020-267_338		247	XM_016792486	PREDICTED: Prunus mume PHD finger protein MALE MEIOCYTE DEATH 1-like (LOC103319824), transcript variant X1, mRNA	Prunus mume	77.7	11	100	42.0	1.4993152880690922e-12	692.6384999999999	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	CAGCACGTCCGCAAGCTTTTTGGGGTGTCGAGAGATACCTACACGTCCGCTATTGAGTCCCTTGGGTCTTTTTCGTTGACTGAGGTTGAAGAAATTGTAGAAAAATACAAGAAGATGTGTCTTACTCCCCTCGAGTGCATGAGGAATTTATTATCTTTCATGTTGCAGATGAGGTGTGGTGCGAGAGGCCAAAAAAGAATGGATCCAAATAAAGATTTGTAGCGGCATCATGGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_339		247	XM_001787030	Physcomitrella patens subsp. patens predicted protein (PHYPADRAFT_104295) mRNA, partial cds	Physcomitrium patens	43.6	1	100	17.0	1.46776e-08	65.4765	3218	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Bryophyta;Bryophytina;Bryopsida;Funariidae;Funariales;Funariaceae;Physcomitrium;Physcomitrium patens	CAGCACGTCCGCAATACGAGACCGCTCCCAATAGATATTTGAGCATATATTCATGCCCTTTACCTGATGAACCAAGCAAGTTTGAACGCCAAATAAACAGATTGCGTGGGAAGTTGGCAGGGTTATCTGGGCTTTCACAGGCAAAACTTAATGAGCCATTTTGTAGGCTTTCGACCACATAATCTTCCACTTTCATGCCTTTTGCTTTGGCTTCATTGGCAAAGGAGAGTGAGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_343		246	XR_002106455	PREDICTED: Lupinus angustifolius uncharacterized LOC109337469 (LOC109337469), ncRNA	Lupinus angustifolius	53.8	2	100	10.0	0.000936696	67.6585	3871	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;genistoids sensu lato;core genistoids;Genisteae;Lupinus;Lupinus angustifolius	CAGCACGTCCGCAAAGGACTAACCTTCAGCACGTCCGCAAGTCAATACCTCTAGTTTGCGGACGTGCTGGGGAATTCCGGGTTCATGTGAACAGTTACAGTCCACAATCCCAACCAAGAAGGTGGTTCAATGTTTACCCAGACCTCTCGGCCAAGGATAAAACACACTGATACCTTCATTGTAGCGCGCGTGCAGCCCAGGACATCTAAGGGCATCACAGAGAGGACACATTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_348		245	XM_008220515	PREDICTED: Prunus mume uncharacterized LOC103319023 (LOC103319023), mRNA	Prunus mume	84.4	5	100	42.0	9.147448841200001e-08	305.18149999999997	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	TCTGGAAGTAAGGACGTTCGGGCTTTTCGTAGTGGCTCGTTGGGAGAGGGTGGGTTGTCGTAGCTGAGGGCTTTTCAGGGTGTCAGGTTCCGATTCGGAGCTGGTGGTGGAGGTTGGTGGGTTGGTAGTAACGGAAACTGCATCTGATATCGATGGTTGCTTGGTAGGTGTTGGTCTTGGTCTAAGAGACATGTTGGACTGTGGCAGCGGAGGTGGCGGAGGCCGTGACTGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_349		245	XM_004978904	PREDICTED: Setaria italica pectinesterase (LOC101762120), mRNA	Setaria italica	84.6	4	100	8.0	2.7930725000000002e-05	154.1035	4555	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Liliopsida;Petrosaviidae;commelinids;Poales;Poaceae;PACMAD clade;Panicoideae;Panicodae;Paniceae;Cenchrinae;Setaria;Setaria italica	CAGCACGTCCGCAATACTAACGCTGTCCCCCCTCAGCTCACCCTAGCCCCGGGCCTTTTGCTCTTCTAACGTAAGCTCCAAGGCTTCACACCAAGTCTTCACTGACATAATATGCATGCTTAAGTAGGGTCAGGCAGAACCGTTGTTGCCTGATGGGAACTTCCCCCATATTGCTATCAATGTCTTCATGTCGCACGACCTCTTAACATTACACCACTGAAACCAAATCCTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_354		245	XR_002067743	PREDICTED: Nicotiana attenuata uncharacterized LOC109224633 (LOC109224633), ncRNA	Nicotiana attenuata	79.4	2	100	9.0	9.03401e-05	70.8659	49451	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana attenuata	GGACGTTCGGGCTTTGGATTTTTGGTTTTTTCCTCTTTCTCTATCCCTATCCCGTAGGTACAGCGTTTGAATCAATAGAGAACCTTTTTTTCTGTATCTGTATAAATGTATCTAATCGATATTATTACATTCCAATTCCTTCCCGATACCTCCCAAGGAAAATTCCGAATTGTATCTCAAATTGCGGACGTGTGAGCGAAAGCCTTTTGCGGACGTGCTGGGCCCATGTATTTGCGGACGTGCTG
+TBLASTX	ds2020-267_356		244	NR_149678	Eremothecium gossypii ATCC 10895 25S ribosomal RNA copy 13 (AGOS_RDNA25_13), rRNA	Eremothecium gossypii ATCC 10895	84.9	4	100	8.0	1.12439885e-12	201.75719999999998	284811	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Saccharomycotina;Saccharomycetes;Saccharomycetales;Saccharomycetaceae;Eremothecium;Eremothecium gossypii;Eremothecium gossypii ATCC 10895	TATCTAAGGAGCAGCACGTCCGCAAGGGGTGCGTCGCTGGCGCGCGGATTAACAACGACCATCAACAAACAATCGATTCAGAACTGGCACGGACCAGGGAAATCCGACTGTCTAATTAAAACAAAGCATTGTGATGGCCCCAACGGGTGTTGACACAATGTGATTTCTGCCCAGTGCTCTGAATGTCAATGTGAAGAAATTCAAGAAAGCGCGGGTAAACGGCGGATCCATTGCGGACGTGCTG
+TBLASTX	ds2020-267_357		244	XM_001621762	Nematostella vectensis predicted protein (NEMVEDRAFT_v1g221545) partial mRNA	Nematostella vectensis	61.0	1	100	19.0	8.91973e-17	92.709	45351	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Cnidaria;Anthozoa;Hexacorallia;Actiniaria;Edwardsiidae;Nematostella;Nematostella vectensis	ACAGCACGTCCGCAAAGGTCGCCAGAAAAGTCAGCATAATCAGCCTCCGAAATCATCAAGCATGATGTTCTCATCTTCCACGCCAAGATATTTTAGCATCTTAATCACGGCGGCGTTCATCATTGGTGGACCACACATATAGAACTCGCAGTCTTCCGGTGCCGGGTGCTGTTTGAGGTAATTTTCATACAGCACGTTGTGGATGAAGCCCGTATAGCAGGGGAGTTTCCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_358		244	XM_018645852	PREDICTED: Pyrus x bretschneideri pre-mRNA-splicing factor 38B-like (LOC103940658), transcript variant X1, mRNA	Pyrus x bretschneideri	63.0	1	100	5.0	0.000600152	50.0956	225117	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Pyrus;Pyrus x bretschneideri	CAGCACGTCCGCAAAGCTCACTTCGTTGCTCTGTCTCTGTCTCGATCCCGCTCCCGTTCCTTGTATCTTTCTCGATCCCGATCACTATCCCTTTCTCTTTCTCTTTCTCTTTCTCGATTCCGATCCCGGTCCCTTCCTCTGTCCCTGTCCCTGTCCCTGTCCGAATATTCTCTGTCAGAATACTCACGGCTCTGGCTGCGATGGGTCCGTAGATCATCACTGCTGGCTGCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_359		244	XM_005704975	Galdieria sulphuraria [pt] photosystem I assembly related protein (Gasu_40570) mRNA, complete cds	Galdieria sulphuraria	68.6	1	100	19.0	3.56454e-06	57.427	130081	cellular organisms;Eukaryota;Rhodophyta;Bangiophyceae;Galdieriales;Galdieriaceae;Galdieria;Galdieria sulphuraria	AGATACGCTTAAGGCGACGCACTGACCGTGGAGTCTCCCCTGGGGAACATACGAAAGCTTTGGAATATTATTTTCGGGCCCTAGAGCGAAACCCATTCTTACCACAAGCTTTTAATAATATGGCCGTGATCTGTCATTACGTGCGACTATCTCCACTATAGAAATAAAAAAAGGAAATAAAGAAAAAATCCGTTAACGTTAGTAAATACTAGAAACAAAGTGTAGGCTTAACGGTCAGTGCGTC
+TBLASTX	ds2020-267_360		244	NM_114840	Arabidopsis thaliana BSD domain-containing protein mRNA	Arabidopsis thaliana	40.0	1	100	9.0	0.000779942	49.5844	3702	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Brassicaceae;Camelineae;Arabidopsis;Arabidopsis thaliana	CGCACGTCCGCAACTTTGGAGGAAGAATTAGAAAGTGGCTGTTGAAAGTTGGTCTCTTTCAATGGTCCTGCCTCAATAACAGGCTTGTCAATAATTTGGATCTCACTACTCTGAACTGTGTGCTTCTCAGTCTCAAGATCAACTGCCGCTGGTTGAGGAGCTGATCTGATGGTAGATGCATGGGGAGGCACTAGGTCAGATTGAACTCTAGGCGGCACAGAAAGATGCTGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_361		243	XM_019218223	PREDICTED: Vitis vinifera NADH dehydrogenase [ubiquinone] iron-sulfur protein 2-like (LOC109122063), mRNA	Vitis vinifera	92.5	3	100	46.0	9.037567108802173e-15	315.70029999999997	29760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;rosids incertae sedis;Vitales;Vitaceae;Viteae;Vitis;Vitis vinifera	CAGCACGTCCGCAATTCGACCCGCTTTTGGATAACAAGAAGGCGAGCTGATCTGCTTTGATCAAGGAAAAAGCCCAGTCAGCCACCAACTCGGTGCAGGTCACGTGACCTGCAGCTCGGCCTTCGCTTTTTGAGGCTTCCTCTACCCACATCTCTATGTGCCCGCAGCACTTCCATATGGAGAAAGATAGGCTTACCATGTTCCATCAATAGCACCTAACTAATGGAACTTGCGGACGTGCTG
+TBLASTX	ds2020-267_362		243	XR_002606678	PREDICTED: Nilaparvata lugens uncharacterized LOC111060346 (LOC111060346), ncRNA	Nilaparvata lugens	61.9	6	100	14.0	1.988427174e-10	293.7008	108931	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Paraneoptera;Hemiptera;Auchenorrhyncha;Fulgoromorpha;Fulgoroidea;Delphacidae;Delphacinae;Nilaparvata;Nilaparvata lugens	CAGCACGTCCGCAACCACCCCCCACTTTCGTTCTTGATTAATGAAAACATCCTTGGCAAATGCTTTCGCAGTTGTTCGTCTTTCATAAATCCAAGAATTTCACCTCTGACTATGAAATACGAATGCCCCCGACTGTCCCTGTTAATCATTACTCCGATCCCGAAGGCCAACAGAATAGGACCGAAATCCTATGATGTTATCCCATGCTAATGTATCCAGAGCGTAGGCCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_363		243	XM_010110206	Morus notabilis Adipocyte plasma membrane-associated protein partial mRNA	Morus notabilis	92.9	2	100	9.0	0.00032372185	103.8569	981085	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Moraceae;Moreae;Morus;Morus notabilis	CAGCACGTCCGCAAAATGTCCCCACTGATACCTAATCGATAACGAACCTGAATGGCTTTTTTAGGTCCAATTCCATCAATTTTTGTTGAGGCAATTCTTACTTGTTCATCGGCAACTGATCTAGCTCCTGAAATATATGACATTCTTGATCCTTTCCTTTACTAGTCTTCTCGGCTGGAATCAAAAATGGGCTGTCTCCTCTCTGATGATCTTTTCTATAGGTAGAACATTGCGGACGTGCTG
+TBLASTX	ds2020-267_364		243	XM_005965237	PREDICTED: Pantholops hodgsonii uncharacterized LOC102325698 (LOC102325698), mRNA	Pantholops hodgsonii	51.4	1	100	15.0	0.000417851	50.5539	59538	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Artiodactyla;Ruminantia;Pecora;Bovidae;Antilopinae;Pantholops;Pantholops hodgsonii	CAGCACGTCCGCAACGGTCAAGGGGCAGCACGTCCGCAAGGTATCCGGGCCATCATTTTTCCTTATTTCACTTACAAAATAGGCGTATCACCAACGCAATACGCCTTTGTATAGGTTGATTGATAGGTTAGTTCACTGCATCTTTTAACGCTTTACCTGCCTTGAAAATTGGGGCTTTTTTGGCAGGTATTTGGATGGCTTCGCCTGTAGCAGGGTTACGCCTTTTTCTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_365		243	
+TBLASTX	ds2020-267_366		243	XR_002071906	PREDICTED: Panthera pardus uncharacterized LOC109248015 (LOC109248015), transcript variant X3, ncRNA	Panthera pardus	56.6	2	100	7.0	1.15275e-05	74.07339999999999	9691	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Carnivora;Feliformia;Felidae;Pantherinae;Panthera;Panthera pardus	CAGCACGTCCGCAAGTGGTAATTCCTCCCTGCTTAAGAGCCACAGCATGTACAACAAAGTTTGAACTTCTCAGCAAGATCTAGAAAGCCTGTCCCAACCCGGCTGCAGCCTCCTCTTGGCAGCCTCACCTTCAGGCCTTTGCTCCTACAGTTCTCTCTGCTTTGCATGCCTCTCCCATCCGCTTGTCCAACTTTTGCTCAACCTTGAACTTTTGCCCATCATAACTCAATTGCGGACGTGCTG
+TBLASTX	ds2020-267_370		242	XM_020006039	PREDICTED: Amphimedon queenslandica NADH-quinone oxidoreductase subunit H 2-like (LOC109590099), mRNA	Amphimedon queenslandica	59.4	1	100	9.0	0.000788662	49.6374	400682	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Porifera;Demospongiae;Heteroscleromorpha;Haplosclerida;Niphatidae;Amphimedon;Amphimedon queenslandica	TCAGCACGTCCGCAATCTTCGGTCCGTGCAGCATTTCCACGATATCGTTATGATCAATTAATGGGACTTGGCCGGAAAGTGTTCTTGCCTCTATCATTAGCTCGGGTAGTCCCCGTTTCTGGTGTTTCAGTCACCTTTCAATGGCTCCCTTAATTATGCGCGAGGAATTTTCCTCTGGAAGCGGGCTAGTCCCCGAAAATGCTCGTTAAAGTTGGGGGGGCAGTTTGTTTGCGGCCGTGCTG
+TBLASTX	ds2020-267_372		242	NR_074812	Hahella chejuensis strain KCTC 2396 16S ribosomal RNA, complete sequence	Hahella chejuensis KCTC 2396	86.4	3	100	30.0	1.013596666667404e-08	287.2911	349521	cellular organisms;Bacteria;Pseudomonadota;Gammaproteobacteria;Oceanospirillales;Hahellaceae;Hahella;Hahella chejuensis;Hahella chejuensis KCTC 2396	CAGCACGTCCGCAACCGCATGCGATCTACGGGTGAAAGGGGGCGCAAGCTCTTGCTATTAGATGAGCCTAAATCAGATTAGCTAGTTGGTGGGGTAAAGGCCCACCAAGGCGACGATCTGTAACTGGTCTGAGAGGATGATCAGTCACACCGGAACTGAGACACGGTCCGGACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGGGGCAGTTTGCGGACGTGCTGCTCCTAGATA
+TBLASTX	ds2020-267_373		242	
+TBLASTX	ds2020-267_374		242	XM_016592525	PREDICTED: Nicotiana tabacum pentatricopeptide repeat-containing protein At5g11310, mitochondrial-like (LOC107773078), partial mRNA	Nicotiana tabacum	92.9	2	100	5.0	0.000136339	70.4077	4097	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana tabacum	CAGCACGTCCGCAATGACTCTCTGTTCAATTGCGACCTTATAATGCAATTGCATTCTCCGGTCCAATTGCTGTTTTTGTTTCTGTATTCCTAATTTATCCGCTAGGTCAGTCTGGTTGGTTTTTTTGCGCCCAGTTTTGGTGTAGCAGCTATTTCGATTCATCCTCTTTTTCCAAGGGTTTCATAATTGGACATTGAACCCATTTCATATGATGGGAGGTGCTGTGTGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_380		242	XM_002505344	Micromonas commoda major facilitator superfamily partial mRNA	Micromonas commoda	40.0	1	100	9.0	8.53786e-05	52.8449	296587	cellular organisms;Eukaryota;Viridiplantae;Chlorophyta;Mamiellophyceae;Mamiellales;Mamiellaceae;Micromonas;Micromonas commoda	GACGCACTGACCGTGGCATTTCCGATGTTGATTAAACAATCATTCCCAGATGTGAATCCGCTTAAAGTGGCGTTTTTAGGACCTTTGGTTGGTGCGTTATTCCGTCCGTTCGGTGGCTGGCTTGCTGACAAATTGGGCGGTGCAAAAGTCACCTTAATCAACTATGGCGTGATGGCTATTGGGACGTGCTGAGGTGGTGGATATTGCGGACGTGCTAAGTGGCTGGGCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_385		241	XM_007013557	PREDICTED: Theobroma cacao triphosphate tunel metalloenzyme 3 (LOC18588863), transcript variant X1, mRNA	Theobroma cacao	68.8	1	100	9.0	0.000789738	49.6374	3641	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Byttnerioideae;Theobroma;Theobroma cacao	CAGCACGTCCGCAAATCCAGGGTGGTGACTTGGCGATGGGCGGCGGCGTCTGGGAGCCTAAGCTTGACCTCAACCTCCATTAGAGGTTTGAGAATGTGAGACATAATACGGCGAGTTATATTTTGGTGTTTGGGGTGCATAACTTTCAATTAGAAGGGACGGGCCTTTGCGGACGTGCTGAGCCTTAAATAATTGCGACGTGCTGAGTGCAATGAATTTGCGGACGTGCTGCTCCTTAGAT
+TBLASTX	ds2020-267_386		241	XM_008373040	PREDICTED: Malus x domestica classical arabinogalactan protein 1-like (LOC103434692), mRNA	Malus domestica	60.4	2	100	37.0	0.000393361	65.8256	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	CAGCACGTCCGCAAGCAGTCGCACCTTCTCCTTTGAGCACTCCACCCGCCGCCGCTCCTTCTCCTTTGAGCACTCCACCCGCTGCTTCACCTTCTCCTTTGAGTACCTCACCTTCTCCTTCGGGCACTCCACCCTCGGCTGCTCCTTCTACATCTCCGGTCGCAGACTCTCCACCTTCTCCCCCATCGTCTTCTCCTGAATCTCCAGCCAATTCCCCTTGCGGACGTGCTGCTCCTTAGAT
+TBLASTX	ds2020-267_395		240	XM_572238	Cryptococcus neoformans var. neoformans JEC21 hypothetical protein (CNH00460), partial mRNA >gi|134117585|ref|XM_767471.1| Cryptococcus neoformans var. neoformans B-3501A hypothetical protein (CNBL0440) partial mRNA	Cryptococcus neoformans var. neoformans JEC21	44.4	3	100	26.0	0.000509633	81.0974	214684	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Basidiomycota;Agaricomycotina;Tremellomycetes;Tremellales;Cryptococcaceae;Cryptococcus;Cryptococcus neoformans species complex;Cryptococcus neoformans;Cryptococcus neoformans var. neoformans;Cryptococcus neoformans var. neoformans JEC21	GACGCACTGACCGTTGGACCCCACCTAGTCCAACCGAACCGGATAAATCGGTGACACGGGATGCTGAGCTATTAATGGTAGGCAAACACATCAACGCCAACGACTTGACGGTGATTGTTGCAGGTGATTTTAACGATGAGGCGACGGTCAGTGCGTCGCCTATCTAAGGAGCAGCACGTCCGCAAAGGTACCCCTCTTGGATTGCGACGTGCTGACGAACAGTATCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_403		239	
+TBLASTX	ds2020-267_404		239	XR_002702868	PREDICTED: Olea europaea var. sylvestris uncharacterized LOC111395791 (LOC111395791), ncRNA	Olea europaea var. sylvestris	61.3	1	100	5.0	6.73698e-06	56.5106	158386	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Oleaceae;Oleeae;Olea;Olea europaea;Olea europaea subsp. europaea;Olea europaea var. sylvestris	GCACGTACGGTAACGAGGGGGGTTCGCGTCTATACGTGTAGTGTGGTGGTTGGGCCTACCCACCCTATTTGTTCCATGATCTATGGGTCTACTGGAGCTACCCACTTCGATCAATTAGCCAAAATTTTGACTGGATATGAAATCACTGGTGCTCGATCTAGTGGTATTTTTATGGGGATTCTATCTATCGCTGTAGGATTCCTATTCAAGATCACTGCAGATCTTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_405		239	NR_076404	Novosphingobium aromaticivorans strain F199 23S ribosomal RNA gene, complete sequence	Novosphingobium aromaticivorans	58.0	6	100	25.0	5.8272183173303346e-09	289.1186	48935	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Sphingomonadales;Sphingomonadaceae;Novosphingobium;Novosphingobium aromaticivorans	GACGCACTGACCGTTATTTCCGACCTGCACGAATGGAGTAACGATTTCCCTACTGTCTCCACCATGAACTCGGTGAAATTGCATTACGAGTAAAGATGCTCGTTACGCGCAGCAGGACGGAAAGACCCCGTGACCTTTACTACAGCTTGGTATTGGTGTTCGGTGTGGCTTGTGTAGGATAGGTGGGAGACTGTGAAGCTCAGACGCTAGTTCGGGTGGAGTCATTGTTGAAATACCAC
+TBLASTX	ds2020-267_406		239	
+TBLASTX	ds2020-267_407		239	XM_006747119	PREDICTED: Leptonychotes weddellii 28S ribosomal protein S7, mitochondrial-like (LOC102744993), mRNA	Leptonychotes weddellii	41.7	1	100	24.0	0.000789738	49.6374	9713	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Carnivora;Caniformia;Pinnipedia;Phocidae;Leptonychotes;Leptonychotes weddellii	GGACGTTCGGGCTTCAGGATATGCTTAGAGAAATGTTTATTTGCTGAGATACTGGATGCTTACCGAAAGAGGGGAATTGCACGTAAGAAAAGAGAGAATCTTCATAGACTGGCTTCCACCAATCGAAGTTTCGCGCATTTCAGATGGTGGTAAAGTGAGACACATAAAGAGCTCTTCCTCATTCAGTCTGATTATTCAGTAAGAGATGGTTTGACCCTTTTTCTTTTTGCGGCGTGCTG
+TBLASTX	ds2020-267_409		238	XM_018391935	Fusarium oxysporum f. sp. lycopersici 4287 hypothetical protein partial mRNA	Fusarium oxysporum f. sp. lycopersici 4287	40.4	1	100	12.0	0.000583762	50.0734	426428	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Pezizomycotina;leotiomyceta;sordariomyceta;Sordariomycetes;Hypocreomycetidae;Hypocreales;Nectriaceae;Fusarium;Fusarium oxysporum species complex;Fusarium oxysporum;Fusarium oxysporum f. sp. lycopersici;Fusarium oxysporum f. sp. lycopersici 4287	CAGCACGTCCGCAAGAGTTCCGCCCTCATCATCATCATCGAAGTCCTCAAACTCCATGTCAAACTGCTCTGCCAAAACCCTCCACAAGTGCTTCCACTTATACAAATCCCCATTGCTGCAATTGAAAGCCTCATTCTTGGCATAAGGATCAACTGCTGCCCATATCTCATGCTCAGCAATCAGATCAGCATCTGAGGCATCCCAGTACCCGTACCAAAATCCCGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_410		238	XR_002660687	PREDICTED: Brassica napus uncharacterized LOC111208790 (LOC111208790), ncRNA	Brassica napus	85.2	1	100	6.0	1.37655e-06	58.8016	3708	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Brassicaceae;Brassiceae;Brassica;Brassica napus	CAGCACGTCCGCAAGCACAAGATCCTCGGCGCGGAATATAATCCCAAAGTACTCCAAAGACTCAATTATAGTAAATCAAGAAGGTGGTAAGACCCTTGCAGAGTTCCCCAACAGCATAGAGCTGGGGAAGCTCGGACCCGGTCAAGATCCGAACAACAAGGAGCACTCAACTACTAGTCTAGTCTAGTAGTTGTTTTTTTCTATTAGTTGCGACGCGAACCCAATTGCGGACGTGCTG
+TBLASTX	ds2020-267_412		238	
+TBLASTX	ds2020-267_415		237	XM_001371929	PREDICTED: Monodelphis domestica NADH:ubiquinone oxidoreductase core subunit S2 (NDUFS2), mRNA	Monodelphis domestica	59.4	1	100	6.0	0.000161366	51.9285	13616	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Metatheria;Didelphimorphia;Didelphidae;Didelphinae;Monodelphis;Monodelphis domestica	CAGCACGTCCGCAAAAGTCTTCTCATGCGGGCGAAGGAGATGCATTTCTGGTACTGGTAGTACTGGACAAGCTCTCAGGGAATAATCTCTTTCTTATTTCTGCCTTTCTTTCCCATGACGACTAGGAACGGGCAAATCAAAAATTTCACTTTGAATTCCGGACCTCAACATCCTGCTGCTCATGGTGTTTCACGATCAGTATTGGAAATGAACGGAGAAGCTCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_417		237	XM_018715362	PREDICTED: Anoplophora glabripennis vegetative cell wall protein gp1-like (LOC108910671), mRNA	Anoplophora glabripennis	44.4	2	100	12.0	0.000865338	65.8256	217634	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Coleoptera;Polyphaga;Cucujiformia;Chrysomeloidea;Cerambycidae;Lamiinae;Lamiini;Anoplophora;Anoplophora glabripennis	TATCTAAGGAGCAGCACGTCCGCAACATTCATGCCCTCAGCACGTCGCAATATCGGCCCGGTCAGCACGTCCCAACTCTCCCACCACCACCAGTACCTTACCATGCTTCCCCACCTGATCACTCTAAACATGATCTAGTGCCGCCATTACCTCCAAATCATTACTCGTATGCTTCACCAACAAGAGAACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAT
+TBLASTX	ds2020-267_418		237	XM_021348273	PREDICTED: Bombyx mori heterogeneous nuclear ribonucleoprotein H (LOC101744365), mRNA	Bombyx mori	42.6	2	100	7.0	0.000591039	69.0331	7091	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Amphiesmenoptera;Lepidoptera;Glossata;Neolepidoptera;Heteroneura;Ditrysia;Obtectomera;Bombycoidea;Bombycidae;Bombycinae;Bombyx;Bombyx mori	CAGCAGTCCGCAAGTATTACTCAGTGTACTCCATTTGGTCCTTGTCGCTGAACCTCTTTGATTTAGATGGAGGGGGACTTCCTTGATAGTCATTATCATAAATACCTTCATAGTTTACCTCCGCTGCAACAGCATTGTAGTAGTCCTGCCTCTTGCACCGGAAAACTTCTACATACCTCCGCCCCATGTTCTGACGATCTCTATGAAGAGCAAACTCAACCTGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_420		236	
+TBLASTX	ds2020-267_422		236	XR_002273042	PREDICTED: Prunus persica uncharacterized LOC109950743 (LOC109950743), ncRNA	Prunus persica	79.6	2	100	16.0	0.00015681485	105.68979999999999	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	CAGCACGTCCGCAACACACCCATCGTGTAACGCTCTCTCTCTCCGACGCAGTCATCTTCCTCCCTCAGCCATCCAAGCTTAATCCCACAGTTCACATCCACGAGGTACTGTTCACGTTCCTTTTCTTAGAAATTTGGGGTTTTTGTGTATTTGGTTTATGGTGTATGGATTTGTATTAAATTGGTTGAGGGGTTTCTTCCAAATTGGTTTAGGGTTTGCGGGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_423		236	XM_018161474	PREDICTED: Hyalella azteca histidine transport system permease protein HisM-like (LOC108673588), mRNA	Hyalella azteca	53.3	1	100	20.0	1.21376e-05	55.5941	294128	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Crustacea;Multicrustacea;Malacostraca;Eumalacostraca;Peracarida;Amphipoda;Senticaudata;Talitrida;Talitroidea;Hyalellidae;Hyalella;Hyalella azteca	GGACGTTCGGGCTTTTCGTCGTGCCTTTGGTATCATGCTACCGGCGTATGGCAATGAAGTGATTTTTATGCTCAAAGGCAGTGCGCTGGCATCGACCATCACTTTGATGGATATCACCGGTGAGGCAAAGACTGAAGCCCGAACGTCCTTACTTCCAGTATCTAAGGAGCAGCACGTCGCAAAAAGGCCCCACGTTTCTTGCGGACGTGCTGGGGTATGTCCCTTGCGGACGTGCG
+TBLASTX	ds2020-267_424		236	XM_008868178	Aphanomyces invadans hypothetical protein partial mRNA	Aphanomyces invadans	43.9	1	100	5.0	0.000753841	49.6374	157072	cellular organisms;Eukaryota;Sar;Stramenopiles;Oomycota;Saprolegniales;Saprolegniaceae;Aphanomyces;Aphanomyces invadans	GGACGTTCGGGCTTGGTGTAGGCTGTGGTCGGCTTTGTTCTACTTGTCGTTGCTTTTCGACTTCCAATTGTGCATGTTGCTCTGCAAAGCTTTTTCCGCTTTCCATTGCTCGTACTTACTCATGGCGGAACCCCTACTAGAAGCCCGAACGTCCTTACTTCCAGAATCTAAGGAGCAGCACGTCCGCAATTCATTGAAGATTGGGACGTGAGTACGTACACTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_427		235	
+TBLASTX	ds2020-267_428		235	XM_011308607	PREDICTED: Fopius arisanus 40S ribosomal protein S12, mitochondrial (LOC105268783), mRNA	Fopius arisanus	62.9	1	100	30.0	3.24266e-18	97.2911	64838	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Hymenoptera;Apocrita;Ichneumonoidea;Braconidae;Opiinae;Fopius;Fopius arisanus	CGAAAAAACCAAATTCAGCTCTACGTAAGATGGCCAAAGTACGTTTGAGCAATCAACATGATACATTTGCTTACATTCCAGGCGAAGGTCATAATTTGCAGGAACATTCTATGGTGTTAATAAGAGGAGGTAGAGTGAAAGATTTGCCAGGTGTGAAATTCCATTGTATTCGAGGAGTCAAGGATTTGCTGGGAATTCCGGATCGAAGAAGAGGGGCTACAACGGTCAGTGCGTC
+TBLASTX	ds2020-267_430		235	NR_076927	Paenibacillus terrae strain HPL-003 23S ribosomal RNA gene, complete sequence	Paenibacillus terrae	61.3	2	100	8.0	8.590870499999999e-06	115.3121	159743	cellular organisms;Bacteria;Terrabacteria group;Bacillota;Bacilli;Bacillales;Paenibacillaceae;Paenibacillus;Paenibacillus terrae	CAGCACGTCCGCAAACGCTCACGCTTCAGCACGTCGCAATGTTCGTCCGGTCAGCACGTCCACAAACCCTGAATTGCGGACGTGGCGCTTAAGGCGACGCACTGACCGTGCAGCCCCTGTTATATTGTCGGTGCAGGGCTACTTGACCAGTGAGCTATTACGCTTTCTTTAAAGGATTGCTGCTTCTAAGCAAACCTCCTGGCTGTCAGTGCTTCCCCACTTCCTTTTCCACTTA
+TBLASTX	ds2020-267_434		234	XM_017755524	PREDICTED: Gossypium arboreum uncharacterized LOC108456828 (LOC108456828), transcript variant X1, mRNA	Gossypium arboreum	67.7	1	100	6.0	0.000717944	49.6374	29729	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Malvoideae;Gossypium;Gossypium arboreum	CTATCTAAGGAGCAGCACGTCCGCAACAATAATTCCTTATTGAAAAATTCGCTCACAGGGCTTCTGCAACTGGGTAATGCATGCTTGTGAGCGAATTTTTCAATAAGGAGCTCCCACAATAAGAATGTGGGTCTGGGCTGCCAACCACAAGGTCACCAAAATCATTGTTTGTGTCAACCAATGTTTCACGGGAATCCAGATATCTGTGAGACCAATTCGAAAGCCCGAACGTCC
+TBLASTX	ds2020-267_436		234	XM_005704111	Galdieria sulphuraria tyrosine aminotransferase (Gasu_47920) mRNA, complete cds	Galdieria sulphuraria	37.1	1	100	12.0	2.99741e-05	54.2195	130081	cellular organisms;Eukaryota;Rhodophyta;Bangiophyceae;Galdieriales;Galdieriaceae;Galdieria;Galdieria sulphuraria	GACGCACTGACCGTACCTGTAACCATCAATACTTTTTCTTGCAGTAATAATTCCATCATAAACTGCATATCATCTTCGATTGGATAAATGTCACGGTCAATTTTTGGGAAACAATAAAACGCCCCTTGTGGCATGGTGCACGAGATACCTTTAATGGCGTTTAGACGCTCGATAGCGATGTTGCGCTGCTGATACAGGAGCCAATACGGAACGGTCAGTGCGTCGCCTTAAGCG
+TBLASTX	ds2020-267_438		234	
+TBLASTX	ds2020-267_445		233	
+TBLASTX	ds2020-267_450		233	XM_001628339	Nematostella vectensis predicted protein (NEMVEDRAFT_v1g120104) partial mRNA	Nematostella vectensis	26.1	1	100	23.0	0.000992709	49.014	45351	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Cnidaria;Anthozoa;Hexacorallia;Actiniaria;Edwardsiidae;Nematostella;Nematostella vectensis	CAGAACGTCAGCAATCGGCGTACCCTAGCGCGTCCGCAAGGAACAATCCTTCAGCACGTCCCAACTATCGTGCAGCACGTCCGCAAGAGTCGTACCCCAGCACGTCCGCAAGTAACAATCCTTCAGCACGTCCCAACTATCGTGCAGCACGTCCGCAAGCGCCGTACCCCAGCACGTCCGCAAGTAACAATCCTTCAGCACGTCCCAACTATCGGGGCATTGCGGACGTGCTG
+TBLASTX	ds2020-267_451		232	XM_009380502	PREDICTED: Pyrus x bretschneideri probable protein phosphatase 2C 51 (LOC103967224), mRNA	Pyrus x bretschneideri	60.2	4	100	26.0	4.53969292655e-05	160.8078	225117	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Pyrus;Pyrus x bretschneideri	CAGCACGTCCGCAAACCCAAAGCTCTCACTGCATCTTCCATCTCCTTCCTCCTCCCCTGCACCGAAACGACGCCGTACGTACCCCTTCCCAACATTTCCAAACTCTCACGACCACTCGTTTTCCGTCTCTCGTCTGATCCGGAACCGGAACTACTCGACAATACGATGTCGTTTTCTGTAGACGAAAATGACACAGATAAAACCTTAGCCGGAACACATTGCGGACGTGCTG
+TBLASTX	ds2020-267_456		232	
+TBLASTX	ds2020-267_457		231	XM_020316325	PREDICTED: Aegilops tauschii subsp. tauschii probable protein phosphatase 2C 6 (LOC109757502), mRNA	Aegilops tauschii subsp. strangulata	56.5	2	100	6.0	2.82206e-07	79.4454	200361	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Liliopsida;Petrosaviidae;commelinids;Poales;Poaceae;BOP clade;Pooideae;Triticodae;Triticeae;Triticinae;Aegilops;Aegilops tauschii;Aegilops tauschii subsp. strangulata	CAGCACGTCCGCAAGGCCTTTGGGGTGTATGACGGGCACGGTGGGGCTGAGGTGGCGAGGGCTTGCAGAGATAGGATGCATGAGTTGGTGGCGGAGGCAGTGGAACTGGAAAGGATTAATAATAGTAATAATAAGAAGAAGAAAGATCCGGTGGATTGGGATTGGGAGAGGGTGATGGAGGGGTGTTTTGGTAAAATGGATGAGGAGGTGAGCGGGATTGCGGACGTGCTG
+TBLASTX	ds2020-267_463		231	
+TBLASTX	ds2020-267_464		231	XM_017185230	PREDICTED: Drosophila ficusphila ketol-acid reductoisomerase-like (LOC108087709), mRNA	Drosophila ficusphila	56.6	1	100	9.0	2.36139e-10	71.1732	30025	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Brachycera;Muscomorpha;Eremoneura;Cyclorrhapha;Schizophora;Acalyptratae;Ephydroidea;Drosophilidae;Drosophilinae;Drosophilini;Drosophila;Sophophora;melanogaster group;ficusphila subgroup;Drosophila ficusphila	CAGCACGTCCGCAAGCCGATACTTTTATAGCACCTTTAGCTGACTGGCTGTCACACTTTTTGCCACTCGGCCAATCGTTAGACCTTGAATTAAAATGGAAAATACCACAATCGCATAAGTCAACGTTAATAACAAATCTCGCTCGGCCCCGGCAGGTAATTGTAATACTAATGCCACTGAAATACCGCCTCGCAGTCCACCCACCAATCATGCTTTGCGGCCGTGCTGCTC
+TBLASTX	ds2020-267_466		230	XM_012666111	PREDICTED: Monomorium pharaonis probable transcriptional regulator ycf29 (LOC105827908), mRNA	Monomorium pharaonis	46.5	1	100	20.0	0.000361364	50.5539	307658	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Hymenoptera;Apocrita;Aculeata;Formicoidea;Formicidae;Myrmicinae;Solenopsidini;Monomorium;Monomorium pharaonis	CAGCACGTCCGCAAAATATGCGCGGTGGAGATAAGAAATGATGATTAGAGTATTGGTCGTTGACGATCATGATTTAGTCCGAATGGGCATCGTACGGATGCTGTCAGATAGCCCTGACATCGATATGATTGGTGAAGCTACTGATGGTGAAACCGCGATTATCAAAACCAAACAATTAAACCCTGATGTGGTGTTACTTGATGTACGGAATGTACATTGCGGACGTGCTG
+TBLASTX	ds2020-267_467		230	XM_006410044	Eutrema salsugineum hypothetical protein (EUTSA_v10017742mg) mRNA, partial cds	Eutrema salsugineum	71.0	2	100	17.0	9.25259e-05	68.1167	72664	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Brassicaceae;Eutremeae;Eutrema;Eutrema salsugineum	TTAGATTCGCTTAAGGCGACGCACTGACCGTTGTTATGCTGGTATACTATGTGTATATGTTTAATAGAACTACTTCTAACAACCTATGCATTCGGTTATCGTTTCCAATTGGATGATCCATTAATGCAACTGACAGAGGATTATAAATGGATCAATTTTTTTGATTTTTACTGGAGATTGGGAATAGATGGAATTTCTATAGGAAGCCCTCAGCTTACGGTCAGTGCGTC
+TBLASTX	ds2020-267_468		230	XM_016558248	PREDICTED: Sinocyclocheilus rhinocerous lysosome-associated membrane glycoprotein 2-like (LOC107744542), transcript variant X1, mRNA	Sinocyclocheilus rhinocerous	35.1	2	100	9.0	0.000834488	68.1167	307959	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Actinopterygii;Actinopteri;Neopterygii;Teleostei;Osteoglossocephalai;Clupeocephala;Otomorpha;Ostariophysi;Otophysi;Cypriniphysae;Cypriniformes;Cyprinoidei;Cyprinidae;Cyprininae;Sinocyclocheilus;Sinocyclocheilus rhinocerous	TAGCACGTCCGCAACATGCCGCCCATGATAAAGCACTGATACTAACCACCGCGGATGCATTGGTGGTCTTCTTTGAAGTCTGGTGGTGTTGATGTCGTGGGGCCTGATGTGTGGTTCAAGTGATGGGGTGACGCAGTGAGGTAGCCGCGCCACTTAGTGGATTGGTGGTGTAAGCGTGTAGGCCGTGTGGTAGGTAAATCCGCCGCACTTTATGGTTGTGGCGTGGTGCG
+TBLASTX	ds2020-267_469		230	XM_007208904	PREDICTED: Prunus persica protein FAR1-RELATED SEQUENCE 5 (LOC18775844), mRNA	Prunus persica	67.9	3	100	6.0	0.000312340330914	137.9153	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	CAGCACGTACGCAAGAAGCATGGGGTATTGAAACTTGGCAGGGGGGTGTGGAGCTTGAAGAAGTGATGCGGCCGGTACCTAAGGATGCGGCGGCTGGGTTACGTGGTTAGGAGGATGGGCCGGGCTGCGTTCGAGCTTGGTTTGAGAAGTGCGACTGGATTATGCCCGACCGGGTTTTTCAAATATAGCTTGGGCACGGCCAGGATACGGAGGTTTTTGCGGACGTGCTG
+TBLASTX	ds2020-267_470		230	XM_009336251	PREDICTED: Pyrus x bretschneideri 3-isopropylmalate dehydratase small subunit 3-like (LOC103927335), mRNA	Pyrus x bretschneideri	64.9	1	100	12.0	4.23508e-06	56.9688	225117	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Pyrus;Pyrus x bretschneideri	GGACGTTCGGGCTTCACTCCAATCCTAGCTTCACAACCACCACCACCCACAAGCCCTCCCACTCCCTCTCTACCCCCACTTTTCTCAAATTCCCAACCGAATCCCCAAATCCAAGCCCGAACGTCCTTACTTCCAGTATCTAAGGAGCAGCACGTCCGCAATACACATGGGGTGCCCCGCAAAACCACATCGCTCACACGTCCGAAATGTATTCACTTGCGGACGTGCTG
+TBLASTX	ds2020-267_471		230	XM_021979860	PREDICTED: Spinacia oleracea 7-deoxyloganetin glucosyltransferase-like (LOC110775230), mRNA	Spinacia oleracea	53.7	1	100	7.0	2.84687e-09	67.5076	3562	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;Caryophyllales;Chenopodiaceae;Chenopodioideae;Anserineae;Spinacia;Spinacia oleracea	GGACGTTCGGGCTTAGCGCACACCCTCTCAATCAGATTCCAGAAGATTCTTTGAGCTCTGACTGCAGGAGTGCCTATGATCTGCTCGCCATTCTTTGCTGACCAGAGAACCAATTGTTATTATACTTGCAATGAATGGGGCAGTGGCATGGAGATTGATAACACTTTCGGACGGGCTGACAGTATGCAAAGTGCGGAAGTGCTGACAGCATAGTTATTGCGGACGTGCTG
+TBLASTX	ds2020-267_472		229	NR_117686	Klebsiella pneumoniae strain DSM 30104 16S ribosomal RNA gene, partial sequence	Klebsiella pneumoniae	82.1	3	100	26.0	2.2356093333333335e-14	259.79879999999997	573	cellular organisms;Bacteria;Pseudomonadota;Gammaproteobacteria;Enterobacterales;Enterobacteriaceae;Klebsiella/Raoultella group;Klebsiella;Klebsiella pneumoniae	CAGCACATACGCAATTGTCATCCCCTCAACACGTCCGCAACCTATACCCCCTTGACTTTGCGGACGTGCGCTTAGGCGACGCACTGACCGTGTATACCCCCCTCTGACACACTCTAGCCTTGCAGTCTCCAATGCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCAGACTTACAAAACCGCCTGCGCACGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCT
+TBLASTX	ds2020-267_474		229	
+TBLASTX	ds2020-267_475		229	XM_017326141	PREDICTED: Malus x domestica uncharacterized LOC108170766 (LOC108170766), transcript variant X2, mRNA	Malus domestica	86.4	1	100	10.0	6.99506e-05	52.8449	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	CAGCACGTCCGCAATTCTGGGTCCTTGTACTGTAGCTTGACTTAAGCAAGCTATTTACTTAAAAAAAAACCGTCTTGATCTACGGCCATAACATCTAAAATCTTTTGTAATCGAGACCGATACCGATACGCGCGAACTGGTTCTCGCCGTTCGGAAGGCATCGGTGGAGTCTATTCATTACTTGTTTAAGCACCTCAATAACGACTAGGGCGGATTTGCGGACGTGCTG
+TBLASTX	ds2020-267_476		229	XR_001974159	Toxoplasma gondii ME49 28S ribosomal RNA rRNA	Toxoplasma gondii ME49	72.2	3	100	37.0	1.2326591876666668e-11	238.2717	508771	cellular organisms;Eukaryota;Sar;Alveolata;Apicomplexa;Conoidasida;Coccidia;Eucoccidiorida;Eimeriorina;Sarcocystidae;Toxoplasma;Toxoplasma gondii;Toxoplasma gondii ME49	CAGCACGTCCGCAATCTATAGGCCCTATACCCAAGTCAGACGAACGATTTGCACGTCAGTATCGCTGCGGGCCTCCACCAGAGTTTCCTCTGGCTTCGCCCCGCTCAGGCATAGTTCACCATCTTTCGGGTCCCGACAGGCATGCTCTCACTCGAACCCTTCTCAGAAGATCAAGGTCGGTCGGCGGTGCAACCCTCAAGAGGCATCATTAGTTGCGGACGTGCTGCTC
+TBLASTX	ds2020-267_477		229	XR_653020	PREDICTED: Pongo abelii uncharacterized LOC103888580 (LOC103888580), ncRNA	Pongo abelii	67.7	11	100	36.0	6.263882618183286e-06	496.06719999999996	9601	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Euarchontoglires;Primates;Haplorrhini;Simiiformes;Catarrhini;Hominoidea;Hominidae;Ponginae;Pongo;Pongo abelii	CAGCACGTCCGCAAACCAATATCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGCAGGCAGATCACTTGAGGTAAGATGTTCGAGACCAGTCTGACCAACATAGAGAAACCCCATCTCTACTAAAAACACAAAAAGCTTGGCATAGTGGCTCGCGCCTGTAATCCCAGTTACTCTGGAGGCTGATGCAGGAGAAGCCTATAGAATTGCGGACGTGCTG
+TBLASTX	ds2020-267_478		229	
+TBLASTX	ds2020-267_481		228	XR_001390761	PREDICTED: Ceratotherium simum simum uncharacterized LOC106801414 (LOC106801414), ncRNA	Ceratotherium simum simum	62.0	3	100	42.0	1.8508736666666667e-06	177.77949999999998	73337	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Perissodactyla;Rhinocerotidae;Ceratotherium;Ceratotherium simum;Ceratotherium simum simum	CAGCACGTCCGCAATCGTACTTTCGTTCTTGATTAATGAAAACATCCTTGGCAAATGCTTTCGCTTAAGTTAGTCTTACGAGGGTCTACGAATTTCACCTCTCGCCTCGTAATACTAATGCCCCCAACTGCTTCTATTAATCATTACCTCTTGGTCTAAAAACCAATGAAAGTAGAACAGAGGTCCTGATTACTAGCAAGCTATTGCGGACGTGCTGCTCCTTAGATA
+TBLASTX	ds2020-267_483		228	XM_010273265	PREDICTED: Nelumbo nucifera eukaryotic translation initiation factor 4B3-like (LOC104607597), mRNA	Nelumbo nucifera	47.3	2	100	10.0	0.000940988	67.2003	4432	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Proteales;Nelumbonaceae;Nelumbo;Nelumbo nucifera	TAAGGACGTTCGGGCTTAGAGATGCGGGTGCTGATTCTGATAATTGGGGGAGGAAGAAGGAGGAGAGTAATGGTGGGTCTGGTTTTGATCGAGAAAGAAGAGTTGGGTTCGTGTCCAATGGTGGTGGTGCGGATTCTGAGGTTTGGGGGAAGAAGAAGGAGGAGAGTAATGGTGGTCCTCGGGGTTGTTTGCGGACGTGCTGAGGCGACTATAGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_486		228	XM_020732044	PREDICTED: Phalaenopsis equestris transcription factor GTE4-like (LOC110029651), transcript variant X3, mRNA	Phalaenopsis equestris	54.2	1	100	7.0	1.91714e-08	64.6781	78828	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Liliopsida;Petrosaviidae;Asparagales;Orchidaceae;Epidendroideae;Vandeae;Aeridinae;Phalaenopsis;Phalaenopsis equestris	CAGCACGTCCGCAATCGGAACCGGTTCGGAAGAATTCACAGGTAAGGGGCCCAGGTGTGAAGCCGTTGAAGCAACCGAAACCCAAGGCTAAGGACCCAAATAAGAGGGAGATGAGTATGGAGGAGAAGCACAAGTTGGGAGTTGGGTTGCAGAGTTTGCCGAAGGACAAGATGGAGCAGGTGGTGTAGATGATAAAGAAGAGGGGCGGAGTGCGGACGTGCTCTCCTT
+TBLASTX	ds2020-267_487		228	NR_119100	Azospirillum brasilense strain Sp 7 16S ribosomal RNA, partial sequence	Azospirillum brasilense	74.1	1	100	6.0	0.000887703	49.1792	192	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Rhodospirillales;Azospirillaceae;Azospirillum;Azospirillum brasilense	GGACGTTCGGGCTTCTAAGGGAGTGTAGGTGGCTCATTAAGTCACATGTGAAATCCCCGGGCTTAACCTGGGAACTGCATGTGATACTGGAGAGATACAGCCAAGCCCGAACGTCCTTACTTCCAGAGCAGCACGTCCGCAATCAGCCCGCCCTCAGCACGTCCGCAAGCCGTATTTCCTCAGCACGTCCACAATCCCCGCATTTGCGGACGTGCTGCTCCTTAGATA
+TBLASTX	ds2020-267_488		228	NR_118204	Nocardia neocaledoniensis strain DSM 44717 16S ribosomal RNA gene, partial sequence	Nocardia neocaledoniensis	80.7	3	100	43.0	3.0789681052393333e-24	376.18399999999997	236511	cellular organisms;Bacteria;Terrabacteria group;Actinomycetota;Actinomycetes;Mycobacteriales;Nocardiaceae;Nocardia;Nocardia neocaledoniensis	GGACGTTCGGGCTTCCATGCTGCAATGGCTGGTACAGAGAGTGGCGAGCCTGTGAGGGTGAGCGAATCTCGGAAAGCCAGTCTCAGTTCGGATTGGGGTCTGCAACTCGACCCCATGAAGTCGGAGTCGCTAGTAATCGCAGATCAGCAACGCTGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCAAGTCATGAAAATAGGTAACAAGCCCGAACGTCC
+TBLASTX	ds2020-267_490		228	XM_015474678	PREDICTED: Bos taurus coatomer protein complex subunit beta 1 (COPB1), transcript variant X1, mRNA	Bos taurus	48.1	1	100	5.0	6.16421e-07	59.7492	9913	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Artiodactyla;Ruminantia;Pecora;Bovidae;Bovinae;Bos;Bos taurus	GGACGTTCGGGCTTTACCCCCCCACTCAATAATCCTACCGATATGTGTAAACAAATAATTCACAGCCTTATCTTGCGCGCAATTAAAGAGCATAGGGAAAGCATTTCGCTTACTGGAAGGGTCCTGCTCGGAGGCCAAGAACCGATCGATGATCTCCGGCGCGCTATCCAGCAATGTCTCCCCCGTGGTTTGCGGACGTGCTGAGGGAACAGCCTTTGCGACGTGCTG
+TBLASTX	ds2020-267_493		227	XM_007214595	PREDICTED: Prunus persica 9-cis-epoxycarotenoid dioxygenase NCED1, chloroplastic (LOC18780753), mRNA	Prunus persica	90.4	5	100	16.0	5.855646360000004e-11	312.3364	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	CAGTACGTCCGCAAGTGTCGGGTCTTGTTTTCTTTTGGGTTTGAGGTTGTGGAGGGAGTGAAAGGGGTGGTTGATGAAGATGAGGAAGGGGTGTGTTTGGGGATTTGGAGAAGAGAGAGGGCTTGGAGAGTGCAAGTGAGTGTGTTTGGGATTGATCTTCTGTGAATGGGTTTTCTGCTGAAGAAAATTGAGGTGGAGGAGGAAGAGGGGGGGTTGCGGACGTGCTG
+TBLASTX	ds2020-267_495		227	
+TBLASTX	ds2020-267_497		227	XM_008244489	PREDICTED: Prunus mume EG45-like domain containing protein (LOC103341011), mRNA	Prunus mume	73.2	4	100	68.0	3.8896500000001757e-07	285.6618	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	CAGCACGTCCGCAACTGAAGGTTCTTTCTATCTATGATCTTTCTATCTCTGTGCAGCTACTTCACGCCATTCAAATAAATAGCTCATCCTCCAAATTCCAGACCCTTTTGGTTTCTGCAAAAATGTCGAGAGCTCAACCACACAGATGGCTCTCCCTACTCATCCTCTTCCTTGTACACCTTTCACACACATCTCACGCCGACGTGGACTCTGTTTCGGACGTGCTT
+TBLASTX	ds2020-267_834		207	
+TBLASTX	ds2020-267_835		207	
+TBLASTX	ds2020-267_837		207	XM_013354196	PREDICTED: Microtus ochrogaster ORMDL sphingolipid biosynthesis regulator 3 (Ormdl3), transcript variant X2, mRNA	Microtus ochrogaster	41.4	1	100	9.0	1.21143e-07	61.5509	79684	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Euarchontoglires;Glires;Rodentia;Myomorpha;Muroidea;Cricetidae;Arvicolinae;Microtus;Microtus ochrogaster	CAGCACGTCCGCAACAGGAAGTTCTTAACCGTTGTTCCTGTGGTGCTGTACTTGATAGCCTCACACACAACTGACTACCAGCACCCGATGCTCTTTTTCAACAGTCTTGCAGTCATTGTGCTAGTTATTGCCAAATTCTCCAATATGCACAAAGTCCGGATCTTCGGAATCAATGGAGATAAGGAGTTGGGCCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_838		207	XM_018412140	Rhodotorula graminis WP1 hypothetical protein partial mRNA	Rhodotorula graminis WP1	51.2	1	100	8.0	0.000228541	50.5539	578459	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Basidiomycota;Pucciniomycotina;Microbotryomycetes;Sporidiobolales;Sporidiobolaceae;Rhodotorula;Rhodotorula graminis;Rhodotorula graminis WP1	CAGCACGTCCGCAAAGACTTACCCCTCAGCACGTCCGCAAGAACCATGCCCTCAGCACTCCGCAATCTGATCTCGGTGTAAGCTATTGCCACGTGAACGTGTCGAGCGCTTGCTAGATGCCGGTACGCCATTTTTGGAAGTCTCACCGATGGCAGCGTATGGCATGTATGATGCCGATATCACGGGTAACGGCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_843		207	XM_012292849	PREDICTED: Megachile rotundata gamma-gliadin-like (LOC105663506), mRNA	Megachile rotundata	48.1	2	100	11.0	2.41079e-05	70.4077	143995	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Hymenoptera;Apocrita;Aculeata;Apoidea;Anthophila;Megachilidae;Megachilinae;Megachilini;Megachile;Megachile rotundata	CTATCTAAGGAGCAGCACGTCCGCAACAAGACTACACTCGCACGTCCTCAAAAGTGTTAGGGTGTCCCAGCACGTCCGCAATAAGACTACACTCGCACGTCCGCAAAAGTGTGAGGGTGGCCCAGCACGTCCGCAATAGGACTACACTCGCACGTCCGCAAAAGTGTGAGGGTGGCCGACTTGCGGACGTGCTGCTCCTTAGATAGA
+TBLASTX	ds2020-267_852		207	
+TBLASTX	ds2020-267_855		206	NR_149697	Eremothecium gossypii ATCC 10895 25S ribosomal RNA copy 30 (AGOS_RDNA25_30), rRNA	Eremothecium gossypii ATCC 10895	75.5	3	100	10.0	8.295481666666668e-08	189.6928	284811	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Saccharomycotina;Saccharomycetes;Saccharomycetales;Saccharomycetaceae;Eremothecium;Eremothecium gossypii;Eremothecium gossypii ATCC 10895	TATCTAAGGAGCAGACGACTTAAGCGCCATCCATTTTAAGGGCTAGTTGTTTCGGCAGGTGAGTTGTTACACACTCCTTAGCGGTTTACAACTTCCATGTCCACCGTCCTGCTGTCTTAAACAACCAACACCTAGGGCAGCACGTCCGCAAAACAGTTAGGCTGTATTGCGGACGTGCTGAGTGAGCCTCCCTTGCGGACGTGCTG
+TBLASTX	ds2020-267_858		206	XM_021957467	PREDICTED: Prunus avium protein GRAVITROPIC IN THE LIGHT 1 (LOC110756088), mRNA	Prunus avium	93.3	2	100	11.0	7.859985e-15	172.13	42229	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus avium	CAGCACGTCCGCAATAGACCCACCATTATAAATCCCCCCACCCAAACCAAAAAAATAAAAGCTTTTATATATATGAGTTTTTATATTTTCTGATCTGATTGAGAGTACTTGTTCTGTTTTCTCAGTAACTGCACTCTCTTTCCTCTTTTTCCCGCGCTTTAAAAATCCCAACTTTTTCTCACCCCCCGCAATTTGCGGACGTGCTG
+TBLASTX	ds2020-267_860		206	XM_023097363	PREDICTED: Cucurbita moschata monooxygenase 2-like (LOC111455625), transcript variant X1, mRNA	Cucurbita moschata	95.7	1	100	5.0	6.41544e-05	52.3867	3662	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Cucurbiteae;Cucurbita;Cucurbita moschata	GACGCACTGACCGTTCCGGAGTACCTAACAACGTATCTTCACAGACCAAGAACTACGAGATCGCCCCTTTCATTCTGGGGTGACGGAGGGATCGTACCATTCGAGCCTTTTTTTTTCATGCTTTTCCCGGAGGTCTGGAGAAAGCTGCAATCAATAGGATTTTCCTAATCCTCCCTTCCCGGGGGGTGTTGTACGGTCAGTGCGTC
+TBLASTX	ds2020-267_874		206	XM_022032753	PREDICTED: Carica papaya uncharacterized LOC110807581 (LOC110807581), partial mRNA	Carica papaya	86.0	3	100	75.0	1.8354816108372398e-14	291.7496	3649	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Caricaceae;Carica;Carica papaya	CAGCACGTCCGCAATCTGGGAGGGTTGAGACCAAGCCAAGGGCAGGGGCCTAAAGTATCGAAAAGGCAAGGACTCCAAGAAGAAGCCAAGCCTGAGGCCAAGAAAAGCGAGTTCAAGATCAGGAGCCAAAGCGGGCCGAGAAGAAAGAAGGAAGGCTTCATCTGCTCCAAGCCCCTAAAGAGGCTCAGCGGGTAGCGGACGTGCTG
+TBLASTX	ds2020-267_896		152	XM_019781697	PREDICTED: Branchiostoma belcheri fibropellin-1-like (LOC109479706), partial mRNA	Branchiostoma belcheri	66.7	4	100	5.0	0.000909993	93.1618	7741	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Cephalochordata;Leptocardii;Amphioxiformes;Branchiostomatidae;Branchiostoma;Branchiostoma belcheri	TACCTTTGCCGTGTTCACAGGGTTTCTGTGTCCTTTGCCGTGTTCACAGGGTTTCTGTGTCCTTGCCGTGTTCACAGGGTTTCTGTGTCCTTTACCTTACCTTTGCCGTGTTCACAGGGTTTCTGTGTCCTTTGCCGTGTTCACAGGGTTTC

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input_otu_blast_s2.tab	Sun Sep 08 14:09:19 2024 +0000
@@ -0,0 +1,129 @@
+#algo	query_id	nb_reads	query_length	accession	description	organism	percentIdentity	nb_hsps	queryOverlap	hitOverlap	evalue	score	tax_id	taxonomy	sequence
+TBLASTX	ds2020-328_1		2975	XM_003097640	Caenorhabditis remanei hypothetical protein (CRE_14174) mRNA, complete cds	Caenorhabditis remanei	55.4	7	100	100	1.8358885722218487e-09	1048.9798	31234	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Nematoda;Chromadorea;Rhabditida;Rhabditina;Rhabditomorpha;Rhabditoidea;Rhabditidae;Peloderinae;Caenorhabditis;Caenorhabditis remanei	GGTCGGGATAGACGTTGGAGCGCGGTCAGCCGAGACCCCTGACAGAGGAAAGAGTCTTGAGGAGTCCAACGTTCGGCCAGGCATAATAATTCGTGCCCACTAATCGAATCGGTTTACTCGCCCACCATGTCAGCGCCTTCGGGTTAGTTCTTTATGGAGTTATTTCTTGTTCTTTCTGTCATAACAATTCTCCTTATGGAAGTCCCCCACAAGATTAAGAATGCTTGTTGCCGCGGCTGTCTTGGTTCTTCGTTTAGCTTTCTGGCATATTCTACGGAGCTTTCCACTCTGGAGCTGGCTTTCAGAAAAACCTTCATTCACTAGATGTGAAGCACCCCTATGGGGGAACCCTCTTACCCGCTTTCCTCCCCCCCCGATATGGGGGGCCTCGCTGTCGCCTTTGGCTCGAGCTACTTTTTCTCCTGGAACGGATAGCTTTCTGTCCAAGTCTATCTCCCAAAAGTCAGCCATGTAATTGACTTCTAACGTCTAATTTTCTTTTTCACCGGGGGTCCCTGATCCCCGTTGAATATTCCTTCCTTCTGAAAAAGCTGTGACTCCTAAATTCTTTGATTGAATGAAATGTGGACTTGGTCACGGGGCAATCTTCTTTTTTAGACCCCGCTTCTCTCGGTGTTACCTTTTTCGCCTTCTCGTCTCGCTTCGCGTCGTCNNNNNNNNNNGGTCGGGATAGACGCGCCGCTTCCGTCTGTTTTACCTTGTTAGAATTCTCGGCGCGCTTGGCGTCGTCTTTAGAGTCAATTCTATTGGAATCTCCTTTCCCCTTCTTTTCTTCCCCCACGATGAAAAAAATAAATATTGCAAAAAGAACAATATTTCCCCCCGTGGTCATCATAGTGGTTCCTTCTGATCCTAGAAAACGATTAAAAAGAAGGCAAAAAAAACAAAGGAGGATCTGCTTTTTCATATTAAAGCGCTTTCTTTCTTTTAAAAATACATCATAGTAAAGCGCTTCCTTTTAAAAAAGCATCTGGTTCCATCTTTCTTTCGTTAGTTAACCCACCTTTTTCTAAAAGGGATTGTAGTAATTCTGGTTTTACACTATTTAGAATGGCTCTCTCATATTGAGAGATTCTGTCTAGTGGCATTCGATCACAGAATCCATTGACAGCTGCATAAATGACTAGAATTTGTTTTTCAATTGGAAGTGGTGCATATTGTGGTTGTTTCAGTACTTCTGTAAGCCTTGCACCTCTATTGAGTAATGCCTGAGTCGCAGCATCAAGGTCTGACCCAAATTGAGCAAAGGCCGCCACTTCGCGATACTGTGCCAATTCCAGTTTTAAACTACCGCAGACCTGTTTCATAATTTTCAACTGAGCGGCAGACCCGACGCGACTGACAGATAAGCCGACGTTAATAGCAGGTCTAATTCCGCGATAAAAGAGCTCTGTTTCCAAACAGATTTGTCCATCAGTAATGGAGATTACATTGGTTGGAATATAGGCCGATACGTCTCCAGCTTGTGTTTCAATGACGGGTAAGGCGGTCAAGCTACCTGCACCTGTCTGGTCCGATCGTTTAGCGGCTCTTTCTAAGAGACGGGAATGTAAATAGAAAACATCGCCTGGGAAAGCCTCACGGCCTGGTGGTCGGCGTAACAATAATGACATTTGTCGATATGCCACCGCCTGTTTACTAAGATCATCATAGATTATTAATGCGTGCATTCCATTATCGCGGAAATATTCCCCCATGGCACACCCAGAATATGGGGCCAGAAATTGCAGAGGAGCTGGATCCGAAGCGGTGGCTGCTACAAGAATGGAATATTCCAAAGCATTCGCTTCTGAAAGAATTTGAACTAATTGTGCCACAGTCGAGCGTTTCTGTCCAATTGCTACATAGACACAATACAATGTCTCACTCTCAGAGGTGGCCCTTGAGTTCAGTTGCTTTTGGTTTAATATGGTATCGATAGCAATAGCTGTTTTTCCAGTTTGTCGGTCCCCGATTATAAGTTCTCGTTGACCACGGCCTATAGGAACCAGGCTATCTACCGCTTTTAACCCTGTTTGCATAGGCTCGTGCACAGATTTACGTTCAATAATCCCAGGGGCTTTCACTTCGACACGTCTTCGCTCGTGATCGCTTAGAGCCCCTCTTCCATCAATAGGAACTCCCAACCCGTCGACCACGCGCCCTAGCATAGCCTTTCCCGCAGGAACATCCACAATGGATCCAGTGCGCTTGACAAGATCTCCTTCTTTAATAGCGGTATCACTACCAAAGACAACAATCCCTACATTCTCATTCTCAAGATTCAACGCTATTCCTTTCACACCGCTGGCAAATTCAACCATTTCCCCAGCTTGAATCTCGTTCAATCCATAAACACGTGCAATCCCATCTCCAACTGAGACCACTCGACCGATCTCATCCACTTGAAAATTCGTGTAAAAGTTGGTAATTCTACTTTCTAATAGAGTTGTTAGTTCCGCAGCTCTGGTAGAGAATTCCATAATTTTTTCTTTTAAAGAAAGTCAAGGGAGAATTCCGCTTATTGTTTTTGGCTCGAAATAAAGCTAGGGTCCTGATCGAGCAACTAGTAGTCCTATCTATCCACCTCTCCAGAAGGGCTATTTGGGGTCTAATTTTCTTTCTATCTGACAGGACAAACAAAGAGGAAGGGGTGGTTCTTTCATTGCATTGATAGAAGTCTAACTAGAAAAAGATCTCTCTATTACTTTGAGAAGAGAATCGTTGGTTTGACCGACGAACTACGTGGGAAATATGAGTTGAGAGGACAAGAGGATTCGATCTCCACGAAAGGCTAAAGGAACATAAAAAAAGCTAGAATTTGTTGCAAACAGTGACCGAGATGCCAGGGAAAAACTGTTGTTTCACATTTCCGGAAAGACCACCTATTTGTTCGTTTACCAGGTTCGGTACGAAATCATAAATAAGCTCTACCCCGGGCCATCGCCTTATGGCCTAGGGGCGTCTATCCCGCC
+TBLASTX	ds2020-328_2		2632	XR_002602986	PREDICTED: Momordica charantia uncharacterized LOC111022566 (LOC111022566), ncRNA	Momordica charantia	53.7	1	100	6.0	2.65559e-05	59.718	3673	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Momordiceae;Momordica;Momordica charantia	CCCCCCCTTTCGCCCTTTTTTATGCAGACGATTCCCCGATCGGGGAATCGTCTGCTTCCCTACGTATTAATCTTCTTCTTTTCTCCTTTTTCGCGTTTTCCTCTTATTCCTCTTTCGTTTTCCTCTTATTCTTTTTATACGCAATTTCTTTTTTAATTTCTTACTGGTCTAAGTCCCACTCCTCTTTCTCCCCGTTTTGCGTTAAGAATATTTCACATGGCATCGGTTTATAGCCTTTTTCCCTTGTCATCTCCTCTACAATCTTTTCTATTTTTTCATATTTCTTCTTATAAAATTCTTCCTCTTCTCTTCTCTTGCTTACTTGTATGGTTGCCGGAAATACTCTTGTTTCGCCTATTTGTATTTGTAGAGGCCATGTAGCATAGTCGTTTCCTTGTTGAGCCCCCTTACTTCTTTTAACTTCCATGTAGCTTCTTGCTGTCCAATCCCTTTTATCGTAGAATATCCTTTTAATTTTCTTTGTTTCTGAGTTTTCGTCTTGCTCTCTCTCTCCTTCATTTTCCTCGTCGCTTCCCTCCTGGTTTTCCTCCTCATATTCTTCCTTACTCTTAAATAGCTGCAAGAATCTCCTTCTTTTTTTCTCCTCTTTTTCTTCTTTCTTTTTTACGGGTATACACGCAAAATCTAACAGTGCCATTTCCTTCTCTTGTTCGCCCCATGTGTAGCATTCCTCACCATCGATTGTTTGTAATTCAAACATCAAATAACTTCCTCCCGCTGTGGTTTTAATCTTTTTTATTTTTACTTCATATATTTTTCCTTTTTTTGTTATAAAGATAACTTCTTTCTTTAGAATGTATTCTGCGGCCTCTGGGTTCAACTCCCTTTGATACGGTATGTTTATATTTTTTATGTACTGCTTCCATTTTTTTTGACTGTTTTTCATCTCCTTAGGATCGTCCTCAATAGGAATAAAGGTTCCCACGGTTTTGTTGTATGTTAAGATGACTTCCGTTGGTGTGCTTCTTTCCTTAAAATAGGGGCTCTTACACGCTCTTCTCATTATACACCCATATAAGGTTGCTACTATTCTTTCTTCCTCCAAATGCTCTATGTTTGATGAGAACCTAACCCTATAGAACCTTGCTCTAAAGGGTCCATGTTGTCTCATTATTTGAGGTAGTTTGTTGGCAATCATAACAATTGGTACATTTCTTTTCTTTTTGAATACTCTTGCATATTTGGAGTCTAATCTACATTCTTGTCCATCAAGTACCTTGAGAATAGTGTTTGCAAATGCCGTTCCTTCTGCTGTGGCGCCTATAAGGGAGCTCTCGTCGTTTGGTTCATGAAACTCATCGAATGCCCATAGATCATAGTAATCATTTGCTCCCGTAAAGTCATTTCTTCTTGCACTGGCAAAATAAATTCTTAATACTTTTGCTAGTAAGTGGAATAGTAATGTTTTTTGTGTGCTTGGTTCGCCATATATGAATAGTTGCTTTGTTTTTATGGGTCTCTTGAAGCATATTTGACACGCTATCCAATCTATAACGAGGTACTTTTCTCTTAGCTCTTCCACGTCATACTCCCTTGGTTCCCCTCTTTTTATTAGATAGGATACAATTCTTTCTAGGGTGTTTGTCTCTATATCTTTTAGTATCTTTAAATCTTCATAAGCTTCCTTCATTCTTGGTAGATGCATTAAAACTTTCTTTTGTAATATATCATCTCTATATACTTGGTACCAATCCTCCGTCTTCTCTAGTCTTTTGAGTATTTCTGATGGGTCTGGATTCCCCTGTGCTTCCTTATGTTGTTCATGTGCCTTTGCTAACCCTCTTGTTTGCTCTAAAGAGTATTCTCCCCATATTAATGGTTCTTTATCTTCCTTTAAAATATATTTGCAAATAGTTCCCCATCCCTTATGTGCCTTTACATCTATACATCTTCCATCCCACTCTTTGAATCCATTTCTAATTCCTTTTGCTAAATTGTTCTTTGATGCACTCTCATTCCATACTCCAATGTGGTAATGAAATCCTTTCTCTCCGTGATTTTCCTTTGCTATTATGACTGATCTGCATTGAAACATCTTGATGATTCTCTCCTTTATTACTCCCCTATCTATTTTTTTCCGTTCTGTCGTTTCCGCATGAATAAGTGTTATTAGTAAGTAGGGTCTTATAGTGTTTAGTTTCATGTTCATTGTGTTGTTTCTTTTCCGTGATTTCCTTTTCTTCTTTTGTTTGCGCTAGGTTATGGAGTTGCTGCTGTGAGTGGATGTAACTTCTAGTGGATGTAACTTCTAGTGGATGTAACTTCTAGGTGGGAGTGGATGTAACTAATAGGGGGGTCCGGGGGAAGTGGGTCCCCCCCGGGCAAGAGACAAGATAGGTAACTCCAACATCCTCGTATGAAGAGTAAACAGAAGGGAAGTGAGGCTCCCTTATACAGGAGCCGAACGTTACTTCAATACCTATAAAGTTAAGGTAGTGCTCTTTTTGTTAAATACAAGCAGCCGACAACCCCGCCTAGCTCTAGTAATAGGGGTTGTCGGCGTATCGTCTGATTCTTCGGCGAATCGTCTGCTTTTTTTCTTTTTCCACTCGTGAAGCCCCCCCTTTCGCCCTTTTTTATGCAGACGATTCCCCGATCGGGGAATCGTCTG
+TBLASTX	ds2020-328_3		2589	XR_002602986	PREDICTED: Momordica charantia uncharacterized LOC111022566 (LOC111022566), ncRNA	Momordica charantia	53.7	1	100	6.0	2.60975e-05	59.718	3673	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Momordiceae;Momordica;Momordica charantia	TTCCCTACGTATTAATCTTCTTCTTTTCTCCTTTTTCGCGTTTTCCTCTTATTCCTCTTTCGTTTTCCTCTTATTCTTTTTATACGCAATTTCTTTTTTAATTTCTTACTGGTCTAAGTCCCACTCCTCTTTCTCCCCGTTTTGCGTTAAGAATATTTCACATGGCATCGGTTTATAGCCTTTTTCCCTTGTCATCTCCTCTACAATCTTTTCTATTTTTTCATATTTCTTCTTATAAAATTCTTCCTCTTCTCTTCTCTTGCTTACTTGTATGGTTGCCGGAAATACTCTTGTTTCGCCTATTTGTATTTGTAGAGGCCATGTAGCATAGTCGTTTCCTTGTTGAGCCCCCTTACTTCTTTTAACTTCCATGTAGCTTCTTGCTGTCCAATCCCTTTTATCGTAGAATATCCTTTTAATTTTCTTTGTTTCTGAGTTTTCGTCTTGCTCTCTCTCTCCTTCATTTTCCTCGTCGCTTCCCTCCTGGTTTTCCTCCTCATATTCTTCCTTACTCTTAAATAGCTGCAAGAATCTCCTTCTTTTTTTCTCCTCTTTTTCTTCTTTCTTTTTTACGGGTATACACGCAAAATCTAACAGTGCCATTTCCTTCTCTTGTTCGCCCCATGTGTAGCATTCCTCACCATCGATTGTTTGTAATTCAAACATCAAATAACTTCCTCCCGCTGTGGTTTTAATCTTTTTTATTTTTACTTCATATATTTTTCCTTTTTTTGTTATAAAGATAACTTCTTTCTTTAGAATGTATTCTGCGGCCTCTGGGTTCAACTCCCTTTGATACGGTATGTTTATATTTTTTATGTACTGCTTCCATTTTTTTTGACTGTTTTTCATCTCCTTAGGATCGTCCTCAATAGGAATAAAGGTTCCCACGGTTTTGTTGTATGTTAAGATGACTTCCGTTGGTGTGCTTCTTTCCTTAAAATAGGGGCTCTTACACGCTCTTCTCATTATACACCCATATAAGGTTGCTACTATTCTTTCTTCCTCCAAATGCTCTATGTTTGATGAGAACCTAACCCTATAGAACCTTGCTCTAAAGGGTCCATGTTGTCTCATTATTTGAGGTAGTTTGTTGGCAATCATAACAATTGGTACATTTCTTTTCTTTTTGAATACTCTTGCATATTTGGAGTCTAATCTACATTCTTGTCCATCAAGTACCTTGAGAATAGTGTTTGCAAATGCCGTTCCTTCTGCTGTGGCGCCTATAAGGGAGCTCTCGTCGTTTGGTTCATGAAACTCATCGAATGCCCATAGATCATAGTAATCATTTGCTCCCGTAAAGTCATTTCTTCTTGCACTGGCAAAATAAATTCTTAATACTTTTGCTAGTAAGTGGAATAGTAATGTTTTTTGTGTGCTTGGTTCGCCATATATGAATAGTTGCTTTGTTTTTATGGGTCTCTTGAAGCATATTTGACACGCTATCCAATCTATAACGAGGTACTTTTCTCTTAGCTCTTCCACGTCATACTCCCTTGGTTCCCCTCTTTTTATTAGATAGGATACAATTCTTTCTAGGGTGTTTGTCTCTATATCTTTTAGTATCTTTAAATCTTCATAAGCTTCCTTCATTCTTGGTAGATGCATTAAAACTTTCTTTTGTAATATATCATCTCTATATACTTGGTACCAATCCTCCGTCTTCTCTAGTCTTTTGAGTATTTCTGATGGGTCTGGATTCCCCTGTGCTTCCTTATGTTGTTCATGTGCCTTTGCTAACCCTCTTGTTTGCTCTAAAGAGTATTCTCCCCATATTAATGGTTCTTTATCTTCCTTTAAAATATATTTGCAAATAGTTCCCCATCCCTTATGTGCCTTTACATCTATACATCTTCCATCCCACTCTTTGAATCCATTTCTAATTCCTTTTGCTAAATTGTTCTTTGATGCACTCTCATTCCATACTCCAATGTGGTAATGAAATCCTTTCTCTCCGTGATTTTCCTTTGCTATTATGACTGATCTGCATTGAAACATCTTGATGATTCTCTCCTTTATTACTCCCCTATCTATTTTTTTCCGTTCTGTCGTTTCCGCATGAATAAGTGTTATTAGTAAGTAGGGTCTTATAGTGTTTAGTTTCATGTTCATTGTGTTGTTTCTTTTCCGTGATTTCCTTTTCTTCTTTTGTTTGCGCTAGGTTATGGAGTTGCTGCTGTGAGTGGATGTAACTTCTAGTGGATGTAACTTCTAGTGGATGTAACTTCTAGGTGGGAGTGGATGTAACTAATAGGGGGGTCCGGGGGAAGTGGGTCCCCCCCGGGCAAGAGACAAGATAGGTAACTCCAACATCCTCGTATGAAGAGTAAACAGAAGGGAAGTGAGGCTCCCTTATACAGGAGCCGAACGTTACTTCAATACCTATAAAGTTAAGGTAGTGCTCTTTTTGTTAAATACAAGCAGCCGACAACCCCGCCTAGCTCTAGTAATAGGGGTTGTCGGCGTATCGTCTGATTCTTCGGCGAATCGTCTGCTTTTTTTCTTTTTCCACTCGTGAAGCCCCCCCTTTCGCCCTTTTTTATGCAGACGATTCCCCGATCGGGGAATCGTCTGCATAAAAAAGGG
+TBLASTX	ds2020-328_12		1374	XR_002400872	PREDICTED: Anas platyrhynchos caldesmon 1 (CALD1), transcript variant X9, misc_RNA	Anas platyrhynchos	29.8	2	100	15.0	0.000462584	72.6988	8839	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Sauropsida;Sauria;Archelosauria;Archosauria;Dinosauria;Saurischia;Theropoda;Coelurosauria;Aves;Neognathae;Galloanserae;Anseriformes;Anatidae;Anatinae;Anas;Anas platyrhynchos	ACCGGCGTCATTTCCATCACTTGATCCGGTTTCTTAGGAAAAGCCATAGTTATGCTGCCGAAGTCAGCCATCGTTTGCGGAGATCCTCCTGGGTGTACCAACGCTGAGCTTACGCTTTCTCTCCCCACTTCGGTAGCTCGCTGCATCGCCATCTCCCTGTTGGCCATAACAGTCCTTATGCTGCTTCCTGACTTCTCCTGAGACATTTCTTCGCCTTCGTCTTCTTCATCGCTTGCATCTTCTACCAACACTCGTTCCATTTCTCTTGGCTCCGTATGCTTCTTATCTCCATCTTCAACTTTCGTCTTCTGGGCTTCGTTCTCCTGCTTTTCTTCCACTTGCTTCCCTTCTCTAGACTTGTCGCGCTTCTCGCCCTCTTCTTCAAGGCTCGGGTTTTCTTCTGCTGCGTCTCGATTCCTTTCCCCTGCTGTTTTCCTGTCTACATCGCTTTCGCGGCTTTCATCTCTTACGTCATCTTTATCCTTCACCACTTCAGCATATGTGGGTTTGCTTGATTCGACACTTCTATTCGTTCCAGAATCCCTCGACTGCTCTTTGGGCTCTCCGTCGTTTCCTTCGCATGTCGGCTCATTCTCTTCCGCGCCCATCTCACTCACCGCTTCATTTTCCACTAATCTAAGCGATGCTTTCTCACGCCTTCCTTTAGCCTCTGGCATGCGAGGGTGCTCCTCGGCGTTTTTGAATTTTCTAAACTTATTCAACACTCTTTTCCCAGCCAGCTTGGCTCTATCTGCGACCTTCTGGCATTTAATTTCAAAATCAGCAGTCATTTTCTCATCGGCCTTTACTTTATCTCCTACAGAAGATAGCTCCTCGACCATCGCTTCTGCGGTTTTGAAAGAAATATCTCCGACGTTAGCGCTCTCCAGAAGCTTCGTCATGCAATTCATTGACATCTTCGTTACAAATGCGCTATCTTCATCTTCTGTACTCCATAAATTAGATGAATTACGGCGGTCGGGATAGACGAAAGCGGGCCATCGCATTAGTGTCCGTTATATTCGCTAAACCTGCTTCAGTTATGAACTTACCTATGTGCGCTTCACACACATCATCTACTAGAGCCATCCTCTCCGTCAAATCTCTGAGTGACGTCATCCCGAGGAGCATGATTAAAGCTTCCTCTTCCGGCACTCCAAAAGCCGCCGCCATCACCATCGTCTTGACGTCTTCTTCTTCCCATACTATATCTCTGGTTAGATTATACATCAGCCAACCCGAAGGGAAGATCCGCCTCGATCTGAACCTACCTCCTCTCATCCCGTTCAAAGCCGACATCAGAGGCATGAACGCGTAAGTAACGTCCATCGGCTCCCCTTCCGTTTTCAGCATCTCGTGACGTCTATCCCGACC
+TBLASTX	ds2020-328_13		1317	XM_013874441	PREDICTED: Brassica napus uncharacterized LOC106433612 (LOC106433612), mRNA	Brassica napus	42.0	1	100	14.0	0.00075962	53.7613	3708	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Brassicaceae;Brassiceae;Brassica;Brassica napus	GGTCGGGATAGACGACACTTTGCCATGGTTGTTGTGAAAGAAGAAACTCTTGGAGGAAATGCCTTCTTAGCAATTGAATCAACTCCTGGTGATGAAGAAGAAGAAGGAGCTGTGAGGAAGGGAATGATTGCACTAGTCCCACACCCACGGACAGAAGGAATAGAATACGCTCTTTGAAGGACGTTAATCAATAGGAGAAGATAGCCACGCACAGAAGTAGCNNNNNNNNNNATCGTAAACGCTCTTCTTCCAATAGGAGTGATTCTTTGCCTTGACGCTGTGAGAGCTTCCGGTCCTTGAGTATGAGTACTCCTATCCGCTCTTGGGTTCATAACCGGTCCTATTGAATACGGTCTTCTCGGCTTTCCCTTTCCTCCTTGGCTTTGACTCTTTCGATCTCTGGTCTGCCTGTCTGTAACCAATGCCTGGATGACTGTCTTGGCTTTCTGTCTCGACTCTCTTCCTTCCTGGTGAAGACTGTGGTAGTGGTATCGGTTCTTTGCTTGGTTGATTGAATATCTCTTTCCTTGCCTACCTTAGTCTTAATCCGCCTTTAGGGAGTGAAGTGAACCGGGGGTGATCTAATAAGTTGTGAAAGAATCGGTTTAGAACGTATCCGCTGTTTTAGCCATATCCGCTGCGCTCGTCCTTTCTTCCTAGATGCTTTGAATATCCCCGCCATATTCAACAATTTTGCTTTCCAACCGGAGAGTCTTCCTTGCACTTTCTCTAAAAAATCTGCATAAGTTCTCCGAGAAACCCTTTCATGAATTAGTGGCACGCCAAGATACTTCCCCGAGTTCTTTGTGACAGGCATCCCTACAATTCACTTTATTTAACACATCTCGAGAGGTATTCGGAGACACAAATACCTGGGAGTCTTTGGGCATCTCACAGTAATGCAACGATCAAATCTTAATAAGATGTTGACCCGTTTTTCTTTTCTTTGCTGATTCCTCTCAATGAAATTTGCCATGTTGCACTAAGTTACTTACGGATGTATGCATGCAATCCGGGAACACTTTGGGGTGAACACCCATCCGAACAAGTAGGGTCAATAGTTCAGCATTTAGGCCGTAACATTTAGCAAAAAAAATCTTTAACCCAACAAGTGCTCTCCGAACCAAGCTAGATAGTCTCCTATCACTAGGCTCACCAACCAACCTGGACTTTGATTTTTATTATTCCTACCGGATACCAAAACCATAAGGATTGTTTCCAGCCATGAGTTCCCATATGACATGACATAAGCGCTCTTGGGTGGGCTGGGCCATTCCATCAAATCTTTGAGAAGGGGCCCTTGCGTCTATCCCGACC
+TBLASTX	ds2020-328_15		1120	XM_013283212	PREDICTED: Papilio polytes NADH-ubiquinone oxidoreductase chain 1-like (LOC106103434), mRNA >gi|909583271|ref|XM_013292231.1| PREDICTED: Papilio polytes NADH-ubiquinone oxidoreductase chain 1-like (LOC106110406), mRNA	Papilio polytes	55.0	1	100	7.0	0.000862921	53.3031	76194	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Amphiesmenoptera;Lepidoptera;Glossata;Neolepidoptera;Heteroneura;Ditrysia;Obtectomera;Papilionoidea;Papilionidae;Papilioninae;Papilionini;Papilio;Papilio polytes	GGTCGGGATAGACGAAACTTCGGGCTGGTAAGGTCGGGACCGTGGTCGTCCGTCTCCGGTTTGCCGGCCGATAAGATCTCTGAGATTGACCAGCCAGCTGGGTTGGTTTGGCTATTCCTTTCTATTGAAAAGGAGTCAGCTGTCTGCGCGAGTCACCTTCTTCTAGGCTCCGCTGGACGACACGGCATTCTCGTTTAAATATAGGCCGGCCGTACTTGTGATGGTTCCCAAGGATCCAATATGACCACTTAGGTCTACGTTGCCACGATATTGTTCTATGGAAGCGGGCGGGCTGTTAGTTAGAAGTTCGGCCCGGTTTTTTTGGTGTCGTAGGGAAGGGATTGACCTTTCTAACGCATATTCAGTCGTACCGGCATGGCCCCACTGATTTGTTTTCGATCGGAGCATCAAGCAACGCAACCCGGTTCTACTTGACTAAGCCCCGTGCTCGTCCAAGGAGGGAGTTTGCTTTACCCAACTCCCTTTTTGATAACAAGGCAGAAACCCCCGACCCGACATTCATTAGTTTCAAATGAAGAATGAAGAGTACCCTGCCCCAGAAAGCACCAAATTACGTCTATCCCGACCNNNNNNNNNNGGTCGGGATAGACGAATGCGCCTACTCCTATAAAAAAAAAGCGTGACTTTACTAAACAAGCAAGAAAAGCCCTTTCTATGTTATTAGTAAAGCGCTAACGAGCAAGAAAACGGATGCGCGTTAGCGCAACGGCTTTCGCGCAGCTCAATCCCTTGCTTTGTTCTATAGTTAGGGGCCTTTTCAATAAGGCTCGCGTAGGGGCGCTCACGTTTTTTGGCTTCCCTAAAATCTAATTTTAAGTTGGTAAAGACCCACCCCTTGTTTCAGTCAGAATGAGTCCCCGGGACCCCGGGACATTGGCTTCCGCCAACAGTGGACTATTAAGGATCGCATCCCGCGCATATTCTACATTATAGCCTGCAACTGATTCAGCTTCCGCTTCTGGGAGATCAAACGGAGCTCGATTAGTTTCTGCTAGACGAGAAATGAAGAACATAACCAATACAGGGAACAGGGGAATACCGGACCATATCTGCTTTTGCGCCATGACAATCTCACTCCAAATGCCCGTCTATCCCGACC
+TBLASTX	ds2020-328_17		1101	XR_001099855	Saprolegnia parasitica CBS 223.65 18S ribosomal RNA rRNA	Saprolegnia parasitica CBS 223.65	81.5	10	100	100	1.16491e-24	1081.9652	695850	cellular organisms;Eukaryota;Sar;Stramenopiles;Oomycota;Saprolegniales;Saprolegniaceae;Saprolegnia;Saprolegnia parasitica;Saprolegnia parasitica CBS 223.65	GGTCGGGATAGACGGCTTCGAACCTTCTACCGGCGATACGCTCCTGGCCTTAATTGGCCGGGTCGTGCCTCCGGTGCTGTTACTTTGAAGAAATTAGAGTGCTCAAAGCAAGCCTACGCTCTGGATACATTAGCATGGGATAACATCATAGGATTTCGGTCCTATTCTGTTGGCCTTCGGGATCGGAGTAATGATTAACAGGGACAGTCGGGGGCATTCGTATTTCATAGTCAGAGGTGAAATTCTTGGATTTATGAAAGACGAACAACTGCGAAAGCATTTGCCAAGGATGTTTTCATTAATCAAGAACGAAAGTTGGGGGCTCGAAGACGATCAGATACCGTCCTAGTCTCAACCATAAACGATGCCGACCAGGGATCGGCGGATGTTACTTTTAGGACTCCGCCGGCACCTTATGAGAAATCAAAGTTTTTGGGTTCCGGGGGGAGTATGGTCGCAAGGCTGAAACTTAAAGGAATTGACGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGGAAACTTACCAGGTCCAGACATAGTAAGGATTGACAGACTGAGAGCTCTTTCTTGATTCTATGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGTTAACGAACGAGACCTCAGCCTGCTAACTAGCTATGCGGAGGATCCCTCCGCGGCCAGCTTCTTAGAGGGACTATGGCCGCTTAGGCCAAGGAAGTTTGAGGCAATAACAGGTCTGTGATGCCCTTAGATGTTCTGGGCCGCACGCGCGCTACACTGAGGTATTCAACGCGTCTATCCCGACCCCCAACGAAATCGTCTATCCCACCNNNNNNNNNNGGTCGGGATAGACGCTAGCGCCTGCTATATTCAACGAGTCTATAGCCTTGGCCGACAGGCCCGGTTAATCTTTGAAATTTCATCGTGATGGGGATAGATCATTGCAATTGTTGGTCTTCAACGAGGAATTCCTAGTAAGCGCGAGTCATCAGCTCGCGTTGACTACGTCCCTGCCCTTTGTACACACCGCCAGCTCGCGTCTATCCCGACCGCCGTAATTCAGATCGGAAG
+TBLASTX	ds2020-328_18		1005	XM_010082228	PREDICTED: Pterocles gutturalis keratin-associated protein 5-4-like (LOC104468160), mRNA	Pterocles gutturalis	30.2	3	100	31.0	0.000971596	87.5123	240206	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Sauropsida;Sauria;Archelosauria;Archosauria;Dinosauria;Saurischia;Theropoda;Coelurosauria;Aves;Neognathae;Neoaves;Columbimorphae;Pterocliformes;Pteroclidae;Pterocles;Pterocles gutturalis	GGTCGGGATAGACGATGACCCTCACTGCAGGACCGTAGAGTGTCCATCGGCTAGACCTACTGAGCGGTAATTTTGCATAAACAATTGCAAACAGCCCGTCAGTGACTACACTTAGGGATAAGTGAAGTGATTTTGAATTAGAGCTACGTTAATTCCATCATTTGTAATATAAATACTAGGAAGGCACAATCCTAAATAAAGAAATGAAACTAATAAAACATCAAATTAGTTTCATAATTTTAGCGGTCTCTTCAGTGTGCAGTGTGTTGTGCGAACAAACATGTGATGCAGGCTGCAACCAAGCATACCAAAACTGCTTAATAACACGCGAAAGGTGTCAACAAGCGTGCAACCCTAACAGAATATACTGTGGGAATAACGCACCCGGCACATCGCAGACCTGTGATAATTTAATAGCCTGCGAAAACGGCTGTAGCCCTTGTGAAGAGATTTATAGGTCATGTGCTAATGGATGTGACATTTGTGAAGGCAGCGCGGAAATGAAAAAACGTAGTCTTAACTATGACGTGTGCTACACATACACAAACTGTAAAGTAGTTAAAGTTGCGTGCAATCAAAAATGTAACGGCAACCAACAAGCACTTCAAGTGTGCAAGCAGTGCGTTAGCAGATGCCTAATAGCAGAAAAGTGTCGGGACTGTGTTTCAAAACAAATCCTTGGGTCCGACCCCGACCCAAAACAGACATGCATAACAGCAAAGCAGTGCAGTAAGGCAGTAATAGCAGCCGCAGGTATATAGGCACCAGGGGCAGCTATACACGAAAGAAGAAACTATGCGGCGACGGCTATAAACTCAGATCTTAGGAGATGAAATAAAGAACAGGCGTTCTAACCGTGAAACGAGTAGGACAATCCAGAAATGCAATAGGGGCAACGTTAGACTTAAATCTTCGGAAATAGGGTAATGGCGATACAAGCGCTCCACCGTGAAAATCGGGAATCCACTAAAAAACATGCAAGGGGACTATACGTCTATCCCGACC
+TBLASTX	ds2020-328_19		1002	
+TBLASTX	ds2020-328_20		992	
+TBLASTX	ds2020-328_21		987	NR_103987	Streptomyces fulvissimus strain DSM 40593 23S ribosomal RNA gene, complete sequence	Streptomyces microflavus	60.5	13	100	47.0	3.682244902692308e-24	642.9956	1919	cellular organisms;Bacteria;Terrabacteria group;Actinomycetota;Actinomycetes;Kitasatosporales;Streptomycetaceae;Streptomyces;Streptomyces griseus group;Streptomyces microflavus subgroup;Streptomyces microflavus	GGTCGGGATAGACGAATATCAGCCCTGTAGATTCGTTCCCATGGTTCGATCCTTCCCAGTAAAACGCGGCGTGTTCGAATTCTGATCGCTTTTACGCGAGAAAGGGGGACCACCCTCTAAGCCTAAGTATTCCTCAATGACCGATAGCGTACAAGTACCGTGAGGGAAAGGTGAAAAGAACCCTATTTAGGGAGTGCAATAGAGAACCTGAGATCCGATGCGAACAATCAGTCGAAGGAGCGGAGCTTAGAGCCTTTACTTTATATTAGTAAAGCGCGCTCACTCTAACGGCGTACCTTTTGCATGATGGGTCAGCGAGAAAATGGGAACAGCGGCTTAAGCCATTAGGTGTAGGCGCTTTCCAGAGGTGGAATCTTCTAGTTCTTCCTATTTGACCCGAAACCGATCGATCTAGCCATGAGCAGGTTGAAGAGAGCTCTAACAGGCCTTGGAGGACCGAACCCACGTATGTGGCAAAATACGGGGATGACTTGTGGCTAGGGGTGAAAGGCCAACCAAGATCGGATATAGCTGGTTTTCCGCGAAATCTATTTCAGTAGAGCGTATGATGTCGATGGCCCGAGGTAGAGCACTCAATGGGCTAGGGTGGCCCCATTTCGCCTTACCAACCCCAGGGAAACTCCGAATACAGGCCTAGATCGTTTGTACAGACAGACTTTTGGGGTGCTAAGATCCAAAGTCGAGAGGGAAACAGCCCAGATCGTACGCTAAGGTCCCTAAGCAATCACTTAGTGGAAAAGGAAGTGATCGAGCGATGACAACCAGGAGGTGGGCTTGGAAGCAGCCATCCTTTGAAGAAAGCGTAATAGCTCACTGGTCTAGCTCCATGGCACCGAAAATGTATCAGGGCTCAAGTGATTCACCGAAGCGACGAGACCTTGAAAGCTTCTTTTTCAAGTGTCAGTAGCGGAACGTTCTGTCAATGGGGAAATGTTTTTGGTGACAACACGTGGAGATATCAGAAGT
+TBLASTX	ds2020-328_22		920	NR_109170	Sphingomonas indica strain Dd16 16S ribosomal RNA gene, partial sequence	Allosphingosinicella indica	73.9	7	100	67.0	2.432899146964558e-34	571.9837	941907	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Sphingomonadales;Sphingomonadaceae;Allosphingosinicella;Allosphingosinicella indica	GGTCGGGATAGACGTGCGTTCTCCTTATTGAAAGCGCTAACGCGCATCCGTTTTCTTGCTCGTTAGCGCTTTCAATAAGGACTTTTTTTAGGCTTATAACATAGAAAGGGCTTTTCCCAACCAACCTAGGTTATGGGCTAGCGCGGCTCGCTTCGCTTTTGTTGCGGAGCTCGCTGCTTTTCATTTTGTTAGGAGTAGGTGCTTGCCCTTTGTTGGGTTTGGGTTGGGGGAAGAGGTCATTTCCATCGCGAAGGATTCAATCCAGCCACAGGTTCCCCTACGGCTACCTTGTTACGACTTCACCCCAGTCGAAGACCCCACCGTGGTATGCGCCAATAAGACCACCAAAAGCCTTTGTGGCACTAGTGGTACACAGAAGTCATGGGTGATCATTGGTCCGATGCTTCGGGCGAAACCAATTCCCAGGGTGTGACGGGCGGTGTGTACAGGGCCCGGGTACATATTCACCGCGGCATGCTGATCCGCGATTACTAGCGATTCCAACTTCATGTTCCCGAGTTGCAGAGAACAATCCGAACTGAGGCAATCTTTCCGGATTCGCTCCGCCTTACAGCCTTGCTTCCCATTGTAATTGCCATTGTAGCACGTGTGTGGCCCAGCCCATAAGGGCCATGCGGACTTGACATCATCCCCCTACGTCTATCCCGACCNNNNNNNNNNGGTCGGGATAGACGACTCTAGCCCCTATCTCCGTCTATCCCGACCAGTGAGGTGATACGTCATCCCCACCTTCCTCCAGTATATCACTGGCAGTCCCTCGTGAGTGCGGCACGCACCTTTTTGTTTGTTTCGGAGCCGTTTTGGCGGGGTGTACTAAACTCACTACGTACCACACCACCGGGCGGCTCGCCTGAATGCCTCGTACTTCGACTCAGCCAACCCCGGCGTCTATCCCGACC
+TBLASTX	ds2020-328_23		899	XR_710237	PREDICTED: Nicotiana sylvestris uncharacterized LOC104223915 (LOC104223915), transcript variant X1, ncRNA	Nicotiana sylvestris	77.0	2	100	12.0	0.000220603	109.81360000000001	4096	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana sylvestris	TGAATTACGGCGGTCGGGATAGACGGGAGCTACTACTCATGCAGCGGCAAGGACCCGCAACTCTCGAGGGGGCCACCAACCGCCCGAATAACTCCTTTACTCAATGGATAGCGCTTATCCTCTTTCAATCAACAAAATGAGAAATGGGGGAGAAAGAAAGAGAGAAAGAGGTCTTTATTGAAGAGGCTTTGCACCTGAAATAGGACTAATGAAGATCCAGAAGAATGGGTCTGGGCTTTCGAAAAGATGAAGATGCAAAGGGTAAAGAGAAAAAGTCTTTTGAACAACCAACCTGACATAAGGATTATAGCTCGCCCACTTAGAGCAGATGGTGATTCTCGGACGGGGAAAAGCGGCACTCGAAATCTATTAAACAACACCAAGAACAAAGCCATACCATGCCCTCGGGATAAACTAGTGATGATTGCCATGAATGCTGCCCTCGAGGATGTGTACAAGAGGGTCTTTGCCGATTCCTATCAACATGGTGCACCTCTCAAGGGTGAGACTTTAACCGAATGAATGGGGATCAATTGATAGACATTTTGATTGAGGAAGAGAATCCAATCCAGGATGAATGCTTTTTTCGTTCGCTATGTGCTGACTAGATGCGTACTCGCGCGATCGATCGATGCACGGGGGAATTGCGTGAATGACGAGACCGGCCTAACCTAAAGTAAAGGCTCTTCCCTCTCTTCATGGCGAATCTTGATTGACTGACACTAGGAGCCGACTCGGAGAAACAAGAAGCATGGCATGAGATTCGCGGCGGAATTAATTCCGATAGCGAATTACTTGATTCGATGGATGGAGGGAGAGCCCTCCAACTCAAGCACAAAATCAATGTTGAATCAACAATCATCGAGAGCGAGAAGGGCCCCATGACGTCTCTCCCGACC
+TBLASTX	ds2020-328_24		898	
+TBLASTX	ds2020-328_25		896	XM_018991964	PREDICTED: Juglans regia binding partner of ACD11 1-like (LOC109010975), transcript variant X8, mRNA	Juglans regia	63.0	6	100	41.0	8.342101479666668e-06	251.54550000000003	51240	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fagales;Juglandaceae;Juglans;Juglans regia	ACTCCACCTAGACTCTTAATCTTAGACAATCTGTCACCGACCTTAACATAAAAGGATGAGCCCGGCCTGTCTATTTATATGCATTGGCTTAACTCATTCCTATACACTGCAAAGAACACAAAATTAAAACAGCCTGGTAAGGGCTGTACAAGGGAACGAAAAGGGAGTTTGTTTGATAAGAAAGAGTTTGTGCTTAGTTAACAAACATCGAGTTTGGAGTCGGGGCAGCGTGGATACGAGACTATTGAAGTTAAGTTTGGAATCATTTTGGTTTTCTATCTTCAGATTACCAAATTGGAGAATCACCAAGGCCTTTCAGCGATTCGACGCGCCCCCCTAAGCTAGACGCTTCACCTACCCAGAGAATAGAATGAGTCGCCCGCCTAGTCTTACTAAGAGTTTGAATTGCTCCGGGCGAATGAATCGCATTAGTGTGATTTGGCTAGCAGAATCGCCCTTATATTATATATATTTTTCAACCAGGTCAACGCATCGCCACTACGGAAACGAAATTTCCTTAGTCCTTTTTCTGTGAAACAAAGCCAAGTCTTTTCCGCCTTCCATCCCGCGTTTCCCTGCTTGAGACTGCTTTTTATTAGCCCAGTCATGAACCACCCCGGTTGGAGCCATGGTCTACCCGGCAGTGCTTCATAGCCCCCTTGCTCTTTGTCTAATCTTAGACTAAAGGTACGGCATCCTTTTTTGTTGTTTTTCTTTTGGCCGTAGGTTGTACGCCAGCCATATGTAGCTTGAACTGTGATGGCCACAATGCTTAGCTACCCAAGATGCCTTTGGTTGAATGTTCACACCCGTCTGCACTTCCTACATTCATTCCCGGAAATTGAAACAAAACAGGAAAACTGGAATTGTAACCCCCCGGCGCGTCTATCCCGACC
+TBLASTX	ds2020-328_26		872	
+TBLASTX	ds2020-328_27		862	NR_121924	Enterococcus mundtii strain QU25 23S ribosomal RNA gene, complete sequence	Enterococcus mundtii	58.9	6	100	46.0	4.0185e-17	506.76820000000004	53346	cellular organisms;Bacteria;Terrabacteria group;Bacillota;Bacilli;Lactobacillales;Enterococcaceae;Enterococcus;Enterococcus mundtii	AACGGCCGCCACTATACGAATACCATAGGGGGTAGAGCACTGTTTCGGCTAGGGGGTCATCCCGACTTACCAAACCGATGCAAACTCCGAATACCTATGAGTACTATCCGGGAGACAGACTGCGGGTGCTAACGTCCGTAGTCAAGAGGAAAACAATCCAGACCGCCAGCTAAGGCCCCAAAATCATAGTTAAGTGGGAAACGATGTGGGAAGGCATAGACAGCTAGGAGGTTGGCTTAGAAGCAGCCACCCTTTAAAGAAAGCGTAATAGCTCACTAGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAAACTATGTGCCGAAGCTGCGGATTTGACATTAGTCAAGTGGTAGGGGAGCGTTCTGTAAGCCGATGAAGGTGTATTGAGAAGTATGCTGGAGGTATCAGAAGTGCGAATGCTGACGTGAGTAACGACAAAACGGGTGAAAAACCCGTTCGCCGAAAGACCAAGGGTTCCAGTCCAACGTTAATCGGGGCTGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAATCGGTTAATATTCCGATACTTGTTTATAATGCGATGGAGGGACGGAGAAGGTTATGCCAACCGCGCGTCTATCCCGACCNNNNNNNNNNGGTCGGGATAGACGGATGAGAAGGTTAAGTCAGCCTGGCGTTGGTTGTCCAGGTGGAAGGATGTAGGTATGTATCTTAGGCAAATCCGGGGTACTCTATACTGAGATCCGATAGCAAGCTGTACTTGTACAGTGAAGTGGCTGATACCATGCTTCCAGGAAAAGTCTCTAAGCTTCAGTTACACAGGAATCGTACCCGACTATACCGTCTATCCCGACC
+TBLASTX	ds2020-328_29		847	XM_012622111	PREDICTED: Gossypium raimondii uncharacterized LOC105793185 (LOC105793185), mRNA	Gossypium raimondii	54.0	2	100	25.0	2.28563e-17	117.14500000000001	29730	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Malvoideae;Gossypium;Gossypium raimondii	GGTCGGGATAGACGGTGCAGTCGATTAGAACGGAAATGGAGTTGGAAGCAGCCCCTTTCTACATGCTTGATATCTTAAAGCTCGCCAAAAGGAGCCCAGCCCATATTCCCATAGCTGTCAAGTTGAGATTCTTTTGCACAAACAAACAATATCGCAGAATATTCTGCGTGTATCACAGGCGCTTCGCGCCCTCGAGTTGAGAATCAAGGAGATTGATGTATATGGAGATTCGTCACTTATCATCTTTCAGACAACTGGTGATTGGAAAACCAAAGATCAGAAGCTCATTCCCTACCATCAGTATCTGGAAGATATCAGCCTAAAGTTCAGACGGATTACCTTCAATTATATGTCGAGGACGAAGAATAAGTTTGCTGACGCATTGGCCACACTAGCTTCCATGATCAGTAGACGGTATTGATATCCGGCCAATAGAATAGAGTCGACGAATCGGATTGAAATCAGTGTGAAGAAGAGTCATGCGAGGACTAATCAAGCACAGCTAAATAGTAGTCATATCCACAAAGAAAGGAAAAAAGATCGTCAACGCTTCTAACGTCCGTAGGAACTAAGTAGGAGGGCCGGAACTTGAGGCACTCGTCTATCCCGACCNNNNNNNNNNTGAGACCCCATTTCCTGTCTACCTCTCTGAATCCTGAGTTTTCGGAGCAGTAGAGACTCGCGCTTTAGCCGCTTCATCTGAAGTGAAGGAGGGCTTACAGAAGTCACAGCACCAGAAAGTGACAATAGGCAAATCAACATAAATGCAAGAAAAAGAGGAAACTGTACATCAAGCCCTGTATAGCGAGACAGAGAAAAGAAATGGTACCTGGCGTCTATCCCGACC
+TBLASTX	ds2020-328_32		820	
+TBLASTX	ds2020-328_33		772	XR_905134	PREDICTED: Fragaria vesca subsp. vesca uncharacterized LOC105350613 (LOC105350613), ncRNA	Fragaria vesca subsp. vesca	63.0	2	100	20.0	9.80861e-05	74.07339999999999	101020	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Rosoideae;Potentilleae;Fragariinae;Fragaria;Fragaria vesca;Fragaria vesca subsp. vesca	TGGTCGGGATAGACGAGTTGGGGCCGAGTCCCGTAGATACTACATAAGAAATTTTTTCATTGATGGATGGGAAGGTGTATAAAAAAAGGTAAAAGCGCTTATGGGGCATCCCACCTCCCGAGAAGGTTGAAGGGATAGAGGAGCTTTTTAGCCCTTTTGAGGAATTGGTTGGAAAAGCGCTACCACCCTGGCCGGAAATCCTATGTCCAAGCGCTTCAGAGGTCAAGGGAGTTCGATCCGGCTACAACTCTCCTCCTTCCACGCACGGACAAGGATCGGTTGTTGAAACAAATTCATCTAGAAACAAATAAGTTCTTGTTTGATCCGCCGCTGTTGTAACACCACAATATTCGTCCTTTTCCTTTTGAGGTTAATCCTCTCAATGGTGAATCGAGCACTCGAAAAATTTCTTCGACGGAATGGAAGAAAGGTAAGGAAACCCGCGATGGCTACTGAATACCCGCCCTTTACTTTCTTAATAAAAAAGCCCCTTACCTTTGTATTCGTTCGCCAAATCTTGTTCAGTTCCATCCAAGCTCGGTTTTGTCTGAATCTTCGCGGAAGAAGAAGAAGCGGTTCACCAGCCACTACATCTGTGGATCCCACCAAATTTTTAAACCTGGCGGCTGCTCGCTCTTTGATCAGTGATTCACCGGCCACTACATCGATGAAGAATCTCTCCAAAATCTGCTCTTTGATCAGTGATTCACCGGCCACTACATCCAGGGATCCCACCTTATTCTCAAACCTGGAGTGCAAGTCTATCACGACC
+TBLASTX	ds2020-328_34		697	XR_001998070	PREDICTED: Juglans regia uncharacterized LOC109002876 (LOC109002876), ncRNA	Juglans regia	73.3	2	100	5.0	0.0003741327	108.439	51240	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fagales;Juglandaceae;Juglans;Juglans regia	GGTCGGGATAGACGCTTACCGGGATTGGGGAAGACGGGTGGATTATAGAGCTAGGGGCGGATCGAAGGTTTGCCCGTTGGGATTGGGCATGGACGAGCCTCGACTGGGCCAGCGTTGATGAAAAAATGAAAAAAAAACTTCTCCCATCGCATCATTAACCGGTGTAGGATTAAAGATCAGGTCCAGGATTCGAGGCAAATCAACCTCCCCTCTCATCTCAGGGTGAGGCAAGGAATTCAATGTTCGTTGTTCAATATCTCGGCTGCTCAAGAAGTTGGACTAGCAGCTCCTCCGACCCGGAGTGGATTCTAGGGGAAGGGCAGAGCCTCACCTTGCAGTAGGAAGGTGGTCGTTGCTGGGACGGGTTCAAACAGGACTGAAGGGAGGATAAATTCAATACTCCGATCTTACTGGGGATTCATCACTGGCTAGGGCTTTCGAATCAAAGCATGGGCATCCGCAACTAAGAGGGAGCAGTAGATCGTCGATTGAAGAGCCAGGTCAGTAAACTTCTATTGATTATTGATTCGACTAGAGGGACTCCTAGCAACAAACTTGTATGAAGGGCCCCCCGTGGAGATGCAGGAGCCGCCAGCCGGATCGACCAATAAATGATAGGCCAGAGGGATGGGCTCATTCGACTAATTAGTGATCCCTGGCCCTACCTAACAAGGGGTATGTGTCGTCTATCCCGACC
+TBLASTX	ds2020-328_35		686	XM_002535025	PREDICTED: Ricinus communis uncharacterized LOC8272753 (LOC8272753), mRNA	Ricinus communis	61.5	4	100	13.0	0.000910057	102.7842	3988	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Malpighiales;Euphorbiaceae;Acalyphoideae;Acalypheae;Ricinus;Ricinus communis	GGTCGGGATAGACGTTGACTTTCGCTTTCTCCCTTGTAGCCGTTACCCGAATTCGCGCAAGTGTGTCCACACCCCCCAAACTGACTTGACGAGGAATCCATTCTCGCGAACAAACACAACCCCTACACACACCTAGGAGCACCCCTTCCTGCATATCCATACAAGACCCGAGTAGGCGGGTCGAGGTCCTACGAGGTACCCACTACTCGGAGTACCCTCCCAAAAGGAAAAAGATGTGTCTGTCAGGTTCGGTTCTTCTTAGTTGGGTTGGGCGGGTTCGACCAGAAATGCTATGCTTACACACAAGACTACCCCTCTTCCCGAAAGCTTCGCGGGGACTACTTTACGACGACGGACGACCGCCCGTAGGGGGTTTACTGCACAAGGCCCCTGCAGAGGAAAGGCTTTATCCCAGCGAATAGAAGATGCTCAGCTCCGCACAACATAGGGATTAGCACGCTTTCGGAAAGAACATAGAATAGTAAAGGATCCAGCATGCGGAACACGGCGATCATTAGAAATTCACGAATTAGAGATGCTGTAATATACTCTTTCCCATAACTTCTCATACCAGACCAACCCACTGAAATGCAAATAGGGATCAGAAATGTGGTCAATATCACGAAGAATAAAGAGATACCGTCTATACCCAAATAAAAATTTATGTTTTATCGTCTATCCCGACC
+TBLASTX	ds2020-328_37		681	XM_004829848	Babesia equi 40S ribosomal protein S18, putative (BEWA_030920) mRNA, complete cds	Theileria equi strain WA	41.0	2	100	44.0	0.000982804	70.4077	1537102	cellular organisms;Eukaryota;Sar;Alveolata;Apicomplexa;Aconoidasida;Piroplasmida;Theileriidae;Theileria;Theileria equi;Theileria equi strain WA	GGTCGGGATAGACGCACGCTCACACTGGTCGGGATAGACGGTACCAAGGGCTTTCGGTAGACTTCTTTCATTTCCGAATTAGCTTGCGAAAAGTCCTAGCATTAGTATGAGTTCGTTGACCGCGTAAGGGCGATCCATCTTGATGACGAATTCCACGATAACGAGAAATAGAAATTAATCGTTCGATGTCTGCTCGCTCTCCCCTCTTCAATTCCCAATGAACAACATGATCTTGACCTATCATTTGTTCAATTTGGTCGATCTGATACTTAGTTAACTCTTTTATCTTTATGTTCCCACTGATACCTAATCGATAACGAACCTGAATGGCTTTTTTAGGTCCAATTCCATCAATTTTTGTTGAGGCAATTCTTACTTGTTCATCGGCAACTGATCTAGCTCCTGAAATATATGACATTCTTGATCCTTTCCTTTACTAGTCTTCTCGGCTGGAATCAAAAATGGGCTGTCTCCTCTCTGATGATCTTTTCTATAGGTAGAACTACTGTGAGCGGTCTAAACTTCGACCCTTATTTCTTTCTTAAAAAAAAAGAAAAAAAGGACATTCGACCCAATACCTTAACCATGTAATTTCTCCGACATTATTTTCTATCGCCACATCAAGGTGACAGGATTCGAACCTATGGCCCTCTGTACCCAAAACAGACGTCTATCCCGACC
+TBLASTX	ds2020-328_38		681	XM_010102574	Morus notabilis hypothetical protein partial mRNA	Morus notabilis	73.7	2	100	20.0	0.00053151	71.32419999999999	981085	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Moraceae;Moreae;Morus;Morus notabilis	GGTCGGGATAGACGAATCATGATTTTACTACGAAGGAAGGAACTCGAAGTGAGACGGCACTGTCTTGTCCAACGCAACGATATGGCCCTCTATCATCTTCTATCCGGTAGACTTGGTAAAAGGGCCCCGACTTTTTTCCAGAATTAGAGTTCGACCGCGGCTGCCCCCTTTTTTGGGGGGTTGGTCAGAAGTCAGTCTTGTTTGGTAAGACGGAATTGGACAAAGAAAAGAGAGTGCTCGACCGGAGCAACGGCCAACAAAGACCGTAATTACATAGATAACCGCTCCTCCCCTTCTCCGTCTTTAAGGCTTTAAGGCGAACCGTATGGCGGCTGGAAAGAAAGACGACCTCACCTTCTCGTAGATGGTGTTAGTGAGAGCAACTTTAGTATCCCCCGTTGACCTTCTTTTGCAGATAGAATCTTCAATGAGTGGAAACAAGCAACCTTACTAATAAAGGTGCTTGTTGAGTAAGGCCGGCGCCCAAGCCCCTTGTATAGGTTGGGTGCTTGAGCGCATGTTTCTCATATCGATCAAGGCTTTCCTTGAGTTTTCAATAAGGGGCGCGTTAGCACTCCTGCAAGAAAACGGCCTAGCTAACGCGCGCCCTTACGTTTTCTTCGCTTGCTCTGCCTGCAGTACGAGCCTCATACAGAGCGCGCCCCATCGTCTATCCCGACC
+TBLASTX	ds2020-328_39		674	XR_001677905	PREDICTED: Prunus mume uncharacterized LOC107881236 (LOC107881236), ncRNA	Prunus mume	84.6	8	100	95.0	7.505362499999999e-56	1098.6168	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	GGTCGGGATAGACGACGGATCCCAGTCAGCCTTCTTCCTCTTCAGGACATACCTGACTCTCACAACTCCGCGAGAGGTTCACCTTCGGCGTCGTCCTCCACTGGACAACGAGTCACATTACCTTGTGACAACACAATCACTCCGCATCCGGCAACGAACCCTCGACGCCCATACATCAAGCGTTGCATAAGACACGTCAACTGCATCGACCACGTCGCATGCTTCACTCATGGCTCGCTCATGTCCAAGTCAAGACATAGCGATCCAACACACCATCGGTTTACCCACACTTCTGTCGGTCATTCCTTTAGCATCCACGATAGCCCACTTCCTCAAGCTATACACGCAAGCAGTCCTACTTGCATGTCGCCCAAGCCTTGGCGACATATATATTCCGAATGTCCCACATAACCGTCTATGCATTGCATGGGGTCGCAACCCATGCGTACCGGCATCCGAATATCTTCCTTCCAACATTAGACAAGGCCGAACCCCAACCAAGTCTATCGAGTCTTGCCACATGCCTCGCTAGCCGATGGCATAGCGAATGCCATTCCGTGACCTCACTCTTTCCGACAATGCCCAATACGAACGGCCCGACGTGTTCGTACTGTCCTCGGGAAATCCTTTCCCTCGGAGACACAGATCATCCTCATTCAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_40		673	XM_016658259	PREDICTED: Nicotiana tabacum vacuolar protein sorting-associated protein 28 homolog 2 (LOC107830635), transcript variant X2, mRNA	Nicotiana tabacum	71.9	1	100	6.0	0.000455123	53.3031	4097	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana tabacum	AACGGCCGCCACTACTTTTTGCCTTTATTGATATGATATAAAACAAGCTTACTTACTAATAAAGCGGCAACAAGCACCTTCTTTCTCAAAAAGTAAAGTTTCGCGCTTGTTGCTTTAGAAAAATGGCAGCGTTAGCGCTTTACTAATACTTATATATAATATATCAAGTAAAGGCTCTTCTCCTTTTCTACTAATCTACAACTCTCTTTACTGAGCGAGACTCCATCCATATCCCTACTAGTGGTTCTTTTTTTTTCTATTCTATCATTTGTTTGACAGCTTAAACCAGGCTCCATTTTAGAGAGTTTTCGGTCTTAATCAAGATAGGTCAGGGGCGCGTCAGAACGGTCGGTGGCTGCTTAGTCTCATCCGAGAATCTCTTTGTACTGCTTTTTTTCAAAGAAAAAAAAAGAAAGAAGGGGTTCGATTTAGGCTCCTTCCCTTACAGAGCATAGCTGCGCTAGCAGGTACTACGAGCCCTCTGTCCCGCGCATCTAACCAGCTCGCGTGGTTCACCGGTTCCACCGAAAACTCTCATTTGTTGAAGCGGAGCATAGTGCGCTTTAGGCGCCGAGCGAGAAACGTCTCTTCTTTCGTTTCGATTTATTCACTGATCTGAAACTTTGCACTTGTTTTCTTATTGATTCCAGGGGCGGCGGCGTCTATCCCGACC
+TBLASTX	ds2020-328_42		667	XR_002714460	PREDICTED: Cucurbita maxima uncharacterized LOC111466959 (LOC111466959), ncRNA	Cucurbita maxima	71.7	3	100	10.0	6.16351e-05	95.3019	3661	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Cucurbiteae;Cucurbita;Cucurbita maxima	GGTCGGGATATACGAGGCACTGGACTGGAGTGCTTTCATCAAATGATGCATGTGGGCTGGGCCATTCCCATCCCAAAGGGCGGCCCGATTCGGCCTGGCCTGGTCGGGAAGAGATTCACATAGAGACTATCGCTATCCGGGAATCTATTTCTTTCTATGTTAGCTAGCGGGGGCGGGCTTTCCTATGGTAGTCCCGCTGCGGCCTCTGACCGTCCGTCCCGTCTCATCTTGATTTGGCTATACTTGTATGTAGCCACCCTCCACATGATAGCCTTTTTCTAAAGGCTAAAAAGGCACTCATCAGTCAGCTCGGCCCCTTTCCTATTAAGCTTTGCCACCTTACCTTAAGAGAATAGGTCCCGTTCAAGCGCCCCGCCTTTATTCATCTATACCAACTGCCACGCACGACCCAATATGAACGATTTCAGCGCCTCTCTCTAGATAAGAAGCGGAACGCGCCATCACCTACAGCCCTTTCCTCTGCCGGGGACTTCCACGAAATGAAAACGGGCGGCATCGTCGTATGCTCGACATTTGTTGCCCGGGGTTATCTCCCGGAGTACTCCTATGGCCGATCTGTCACCCAACCAACTTAAACAACCTCAATCGCTTGGCCCCGACCCGTTTGGAGAATGACCCTTATCGCACGGCTACGTCTATCCCGACC
+TBLASTX	ds2020-328_43		644	XM_016797290	PREDICTED: Prunus mume putative COX1/OXI3 intron 2 protein (LOC107882072), partial mRNA	Prunus mume	44.4	2	100	13.0	0.000898093	73.157	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	GGTCGGGATAGACGCGCGGGGGGTGTGCCACGACGAAACAAGGGAATTTAAGGCCACTTTGCGTTGGATGCTCTTTACCCTCCCCACAATGACGGCTCTGTTGTCTTGGGGAGCGTTGAAGCTTGCTTCTTCTCCAGAGTTTTCTTGGTCATCAATATGACCTGTCCTTAATAGAACCAATCTGATTCTCTGAACAATCGGAATTTCGTACTTCTGTCGGATCCTCCCTATCTCCTGATCGAGCTTGTGTAGGTAGATGTTGCCTAGTAGGGCCGATAGTAGTACACTGTGTGGGACGGAATAAGGGCCCTTCTCACCTCCTACGAGTCGTCCGGCGGAAAAGACTTTCTGAATGGGGTAAAAGAACTTGGGATCGTCGATCTCTTCCTTAAAGATTGGGATGAGTCGATGTCGGTCGATGGTGTGAAAACACTTCCTGATGTCGAATTCCAAAAACCAGCGAGAGGTTCCCCACTCTTCTTTGATCCGTCTTAGGGCCGAGTGGCGGCCTCGACCCGAGCGGAAGTGCGATGTGTCTGGAAACTCGGGATCGTAAATGAATTCGAGTACCATTCTGATCGCCTCTTTCATGATCTTTTCTATAGGTAGAACTACTGTGAGCGGTCTAAACTTCGACCCTTATT
+TBLASTX	ds2020-328_44		636	
+TBLASTX	ds2020-328_45		634	XR_002489918	PREDICTED: Manihot esculenta uncharacterized LOC110627792 (LOC110627792), ncRNA	Manihot esculenta	75.0	1	100	13.0	0.000161435	54.6777	3983	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Malpighiales;Euphorbiaceae;Crotonoideae;Manihoteae;Manihot;Manihot esculenta	GGTCGGGATAGACGTATATAAGCCCTGTATAGCGAGACAGAGAAAAGAAATGGTACCCCTCCGCCCCTTGCTATTAAGAAAATGACCAGACGTACCTGGTTGCGATCAGATGTAGGAGAGAAGTGCGTTTAGGAGCCACCGCATACGTTTACTCTTGAATTAATTCGTGAGATTTGCGATCCCCTCGCAGGTCCTCCAAACCCCCTTGAGTATTCAAAGAAAAATTGTTTGATCATTCAATGGATCAAGCAAGGTGTTGATTTCTCTTTTCAAATCAAGGTCTTCTTCGAAAGAACCAGAGTTAGCCGAGGAGCTCGAGCAGGAGTTTCTTAAAAGCTGAAAAACGGAAGACTGGGGCCTTTTTACAAAAAGTATGGGAAACCGGAAACGGAATACCTAGGTCGCAGGGCAAGGGAGGACGGAACCCCACTTCGACTCACCAAGGAGAAGGTAAGTACTTTTATATCGTTTCTTCTGAAGTGATATAGAGCAATGCCTGGACTGGGGGGGGGGCGTCGGCCCACGGGAAACCATTTGCAGATGCGACCATGAATCGAACCAGATCGAAACATTCAGCTTCGACGGACAAACCGAACCGTCGATCGCAAACGAAGAATGGCCGTCTATCCCGACC
+TBLASTX	ds2020-328_47		623	XM_018856265	Metschnikowia bicuspidata var. bicuspidata NRRL YB-4993 NADH-ubiquinone oxidoreductase 49 kDa subunit mitochondrial precursor (METBIDRAFT_33306), mRNA	Metschnikowia bicuspidata var. bicuspidata NRRL YB-4993	55.9	3	100	33.0	0.000221394	296.9134	869754	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Saccharomycotina;Saccharomycetes;Saccharomycetales;CUG-Ser1 clade;Metschnikowiaceae;Metschnikowia;Metschnikowia bicuspidata;Metschnikowia bicuspidata var. bicuspidata;Metschnikowia bicuspidata var. bicuspidata NRRL YB-4993	GGTCGGGATAGACGCTTGTCCCCCCTCAGCTCACCCTAGCCCCGGGCCTTTTGCTCTTCTAACGTAAGCTCCAAGGCTTCACACCAAGTCTTCACTGACATAATATGCATGCTTAAGTAGGGTCAGGCAGAACCGCTGTTGCCCGATGGGAACTTCCCCCATATTGCTATCAATGTCTTCATGTCGCACGACCTCTTAACATTACACCACTGAATCCCCAATCCTTTGCTTGCTGTGCAGTGACAGTACCAATATCCACTAATCGTTGTTTCCAGATACGGTTGCCGGTTGACATCTCTTCTAATTCGTCGATACGAGAAGCAAATTGTTGTGTGGAGGAATCAATATCTCGACATAAGCCAAGAGGCAAATCTTGGGCCACTCCACCTGGTCGTATGAAACTGGCATGCATCCTGGCTCCGGAGACTCTTTCATAGAATTCCAACAATTTCTCCCGCTCCTCAAAAGCCCACAGGAACGGAGTTGATGCTCCCACATCCATAGCATGAGTAGTTAAAGCAAGTGAATGATTTGAAATTCGAGTTATTTCACGGAATAACACTCGTATATATTGAGCTCGTAATGGTACCTCGCAATTCAAAAGTCTCTCTACGGCTGAAGAA
+TBLASTX	ds2020-328_48		623	XM_010105079	Morus notabilis hypothetical protein partial mRNA	Morus notabilis	91.3	1	100	28.0	8.32357e-05	55.5941	981085	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Moraceae;Moreae;Morus;Morus notabilis	GGTCGGGATAGACGATGCATATGGGTAGCAAGAGGGCGCTTATGCCCCGACGGTGGGGCCTTATGGGGAAGGGCCCAGCCAAATAGGGACAGCACACCCCCCACTTCAAGCGCATCTCTGTATCGACTGAATCACTCTAAGAGTCTAGTCGGTGGAACCGGTGAACCACGCGAGCTGGTTAGATGCGTGGGGCAGAGGGCTCGTAGTACCCCCTTTTCTTGATCCAGCCTTTTCTTCACTTCGGTAGTGAATCACCTACTAAAAAAAGAGGCAGGCCTGCGCGCCCTATTTGAGACTACTAAGGCAGGCGGTGGACTCTTTCATTAGGGAAGGGAAGAAGGGGCCTAAGCACGGCAGATGCCGTACACTTGAGTGGCAAAGGAAAGCGAGATCGTACCAGTTTTTCCAGGCCTGTTCGGACATATGGTTCCCGCGGAAGATCAAGTTGGTGAGCCGTGTGATGGGAAACCTTCCCGCACGGTTCGGAGAGCACTGAATTAGAATGAGAGGTTCACCACCACATCATTGCATGCAAGGGGAGCTCGCTCGATTCGCAAATTGGTCCGACTCGTAATTCACTTCTGACCCCGTGTCCCGTCTATCCGACCGCCGTAATTCTCTCA
+TBLASTX	ds2020-328_50		620	XM_014927015	PREDICTED: Octopus bimaculoides cytochrome c oxidase subunit 1-like (LOC106877937), mRNA	Octopus bimaculoides	55.0	1	100	18.0	0.000294471	53.7613	37653	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Spiralia;Lophotrochozoa;Mollusca;Cephalopoda;Coleoidea;Octopodiformes;Octopoda;Incirrata;Octopodidae;Octopus;Octopus bimaculoides	GGGCGGGATAGACGCGACGGTCCGTTCTAGTGACAGCATTCCTACTTTTATTATAGCTTCCGGTACTGGCGGGGGCAATTACCATGTTATTAACCGATAGAAACTTTAATACAACCTTTTCTGATCCCGCTGGAGGGGGAGACCCCATATTATACCAGCATCTCTTTCGGTTCTTCGGTCATCCAGAGGTGTATATTCTCATTCTGCCTGGATCCGGTATCATAAGTCATATCGTTTCGACTTTTTCGGGAAAACCGGTCTTCGGGTATCTAGGCATGGTTTATGCCATGATCAGTACAGGTGTTCTTGGATTTCTTGTTTGGGCTCATCATATGTTTACTGTGGGCTTAGACGTTGATACCCGTGCCTACTTTACCGCAGCTACCATGATCATAGCTGTCCCCACTGGAATCAAAATCTTTAGTTGGATCGCTACCATGTGGGGGGGTTCGATACAATACAAAACACCCATGTTATTTGCTGTAGGGTTCATCTTTTTGTTCTCCATAGGAGCACTCACTGGAATAATCCTGGCAAATTCTGGGCTGGCCACGGCCCACTTCTCCCTCCGGTGCGCACTCCAATCCATAATACAACCAGATTGAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_51		617	
+TBLASTX	ds2020-328_52		598	
+TBLASTX	ds2020-328_53		595	XR_002456756	PREDICTED: Danio rerio uncharacterized LOC101884617 (LOC101884617), transcript variant X6, ncRNA	Danio rerio	74.5	6	100	38.0	1.0604836e-56	811.4757000000001	7955	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Actinopterygii;Actinopteri;Neopterygii;Teleostei;Osteoglossocephalai;Clupeocephala;Otomorpha;Ostariophysi;Otophysi;Cypriniphysae;Cypriniformes;Cyprinoidei;Danionidae;Danioninae;Danio;Danio rerio	GGTCGGGATAGACGGGGCAGGTGCATGCGTCGCTTCTAGCCGGATTCTGACTTAGAGGCGTTCAGTCATAATCCAGCGCACGGTAGCTTCGCGCCACTGGCTTTTCAACCAAGCGCGATGACCAATTGTGCGAATCAACGGTTCCTCTCGTACTAGGTTGAATTACTATTGCGACACTGTCATCAGTAGGGTAAAACTAACCTGTCTCACGACGGTCTAAACCCAGCTCACGTTCCCTATTGGTGGGTGAACAATCCAACACTTGGTGAATTCTGCTTCACAATGATAGGAAGAGCCGACATCGAAGGATCAAAAAGCAACGTCGCTATGAACGCTTGGCTGCCACAAGCCAGTTATCCCTGTGGTAACTTTTCTGACACCTCTAGCTTCAAATTCCGAAGGTCTAAAGGATCGATAGGCCACGCTTTCACGGTTCGTATTCGTACTGGAAATCAGAATCAAACGAGCTTTTACCCTTTTGTTCCACACGAGATTTCTGTTCTCGTTGAGCTCATCTTAGGACACCTGCGTTATCTTTTAACAGATGTGCCGCCCCAGCCAAACTCCCCACCAAACAACGTCGTCTATCCCGACC
+TBLASTX	ds2020-328_54		584	XM_008228559	PREDICTED: Prunus mume beta-glucosidase 18-like (LOC103326339), mRNA	Prunus mume	93.4	3	100	19.0	3.8488579e-05	178.6958	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	GGTCGCGAAAGCCGCTCCGTGCTCTTTCATTAACTGATATAAATATCGGCTAGTCTACCATATTTTTTATTGACAGAAAGATAAAAGGATGGCTCCATGTGCTCTGATTCATTATGTGGATTCATCCAGGAGCACTACCAAAGTGTTTCAAAGAAGGGTTATCCTGACGTAGGTCTGCTTCTGGCCTAGATCAACTTAAGTTAAATGGAGTTTCTATCGCCCTGCTTGAATCAAATATGAAACTTCATACACCTTAAAGTTCATAAGATAGGACGAAAAGAGAGTTTTTTTGAGGTCCTTATACTCATTATGCCTGGCATTGAATAGACAGGTAATTCGCCTTATCAATATCTCAAATCAATGATGGGTTCTATATTGGCACCTAAATGGGAAACCGAATCGGACCAAACCCTTTGTCAGGCTATTGTTCTCTTGTTTTGTTCCCTAAAAGTCATAGAGTAAGACATCGATTTATCAATAAGATCAAATATTTTTTTGATTACATGATGGACTCCTCTGAAAAACATTGGCGCGCGTGTAAACGAGGTGCTCTACCTAACTGACCTATGGCGTCTATCCCGACC
+TBLASTX	ds2020-328_56		581	XM_008225940	PREDICTED: Prunus mume uncharacterized LOC103323918 (LOC103323918), mRNA	Prunus mume	79.2	1	100	6.0	0.000505615	52.8449	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	GGTCGGGATAGACGACCAGGTCTGGTGATGTTCAGGTTTGTCATAAATTACAGAATTTGCAATAGTTTCTGGTTAAATTTGGATATCGGGTGTGTGTTTATGTTGCTGTCATTTATAATACTTATTGATCATGATCATGATGGTGCGTGGAGATATATACTATAATATGTATGCAATTATAAAACCACTGGCTAGGAGACGTGTATTTAAGATGATCAAAGAATCTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGTCGGGATAGACGTATTTGAGGTATTTATGTTCATGTCTTTTATAGTTCTATTATGATTGCCTCAATTTTGTTTGTATTTGCAGTGGGATGACTGTAGTTACATCAAAAGAAAGAAAATTGAAAGATGAAGACCTGTCTAGCCCAAAAAAGAATGTTATTTCCACACCAAAGAAGGATAAGGATAGACTTGCTAGGCGAAGAAAAGTAAACAAGTGGAGCTCTTTGGAAGAGGACACCTTGAGGGCTGGTATAGAGCAGTATGGAGTAGGACGTTAGAAGTTAATCTTGACTAGCAACCAGGACCGTCTATCCCGACC
+TBLASTX	ds2020-328_99		458	XM_010028861	PREDICTED: Eucalyptus grandis uncharacterized LOC104417618 (LOC104417618), mRNA	Eucalyptus grandis	38.8	2	100	10.0	0.000982615	69.4914	71139	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Myrtales;Myrtaceae;Myrtoideae;Eucalypteae;Eucalyptus;Eucalyptus grandis	GGGCGGGATAGACGCTTGGTGATACTTACTTCACTTCGTGAGGAGGTGAAGGACGTAAAGGGAGACTGGGCCTTATGCAAGGAAGCTGTCTTGAACAAGACCCGGACTCCGAAGGAACCCAAAGTGCTGGATTCTTTCAAACCCAAATCCTATAATGGGAAGAGGGAGGCGAAGGAGCTAGACACGTTTTTGTGGAATATCGAAAGATATTTCAAGTATCTGAAGCTCGAGGAGGACGAGCCGAAGATCAACACGGCAACATTGTTTCTCACCGACAATGCTCTCATGTGGTGGCGACGTCGATCCATGGAAATCGACCAAGGTACGTTTGTACTAGACACTTGGGATGCATTTAAAAAGGATATTATGCTGCATTTCTATCCAGAGAATGCCAAGTATGAGGCAAAAGAGAAGCTGAGATGGCTAAAGCAGACGGGGATGTTCCGTCTATCCCGACC
+TBLASTX	ds2020-328_100		455	XR_001683043	PREDICTED: Gossypium hirsutum uncharacterized LOC107893880 (LOC107893880), transcript variant X1, ncRNA	Gossypium hirsutum	89.9	3	100	11.0	0.0001878267	164.9496	3635	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Malvoideae;Gossypium;Gossypium hirsutum	GGTCGGGGTAGACGGCGAAGAGAGCTACGCCACAATGAATGGTAACAGATGAATTGAAACTAAAGCGACGGGTGTCAATTACCAAAAACGACTCGACCACTAACTCAGTCCCGCGGGTAACACAAGGCCGAAGATGGATGCGAAGAATATTTGAAACCGCTCTCGAACCATCACACGGATTCCGATCCAACTGCCCATGATATGGTAAGAACGAAATGGAAAGGCAAAAAAACGATTCTATGCGCAGACGTGAAAGCTCTATCGATAGAAGCATTCTAGCCTATTTTGATTTAGAGAGGAGCGATTCCCTCGTCTGAGAACCGCCATTCCCGCACTATTCCTCCCCACTAAAAAGATTGATAATCTCGATAACCAAAACAAAAATGCAGAAGTGAGCGTACCCCACTCCTCTCTCCCCCCTTTTTAGCCAACCCCAAATAACGTCTATCCCGACC
+TBLASTX	ds2020-328_101		454	XM_019403888	PREDICTED: Nicotiana attenuata uncharacterized LOC109237567 (LOC109237567), mRNA	Nicotiana attenuata	27.1	1	100	31.0	0.000891944	51.4703	49451	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana attenuata	GGTCGGGATAGACGGTCGGCTGGCTTGAGAAGGAGGTCGGGATTTTCCATTATCAGAATAACAGAGCTTTTTTTGTTTGTGACAATCTGGAGGAAGCTAAATGGTGTGCTAGGGTGGGAAAGGTAACGATGGAAGGTTCTTGTGACTTGCTCCTGTTCGCTTGGAAACAAAGTCTGGAAAATAATATGAGGAAGGTGGTGAGTTATGGGGGATGGATTGCAATTACTGGGCTGCCGCTTCATTGGTGGTCCCTAAAATTTTTCAGCCGAATTGGTGAGGCATGTGGAGGGTTAATCGAAGTTGATTTGAGGACTTCAAATTTGGAGTATTTGATCGACGCAAAATTAAGAGTCAGACCTAATGAAATCGGTCTTTTACCTGGTGACTTGAGAATTGCTGATAATGGGGAGGTTCACGTCGTCCAAATAAGGCCTTGTCGACGTCTATCCCGACC
+TBLASTX	ds2020-328_102		453	XM_022906842	PREDICTED: Durio zibethinus haloacid dehalogenase-like hydrolase domain-containing protein 3 (LOC111308507), transcript variant X1, mRNA	Durio zibethinus	56.8	1	100	6.0	0.000649237	51.9285	66656	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Malvales;Malvaceae;Helicteroideae;Durio;Durio zibethinus	GGTCGGGATAGACGAGAAGGTGGTTTATCATTGGGTCAATAATGCTAATCCCTCTTTTTGTGCTACTCCTAGGGCGAGAAGAAGATAAGAAAACGCAAAGCGTTCTCTCCCAACCTGTTTATTTCTAAAGGCTACCCTCTCTCGGCTGGATGTTGGTCCAGCCTACTACGAAGATCCCGTATCCAACAACCCAACCTAAAAAAAGGGCATAAAAGCGCCTTGTCTAGGTTNNNNNNNNNNGTTTCACGCCCCAACGTAGCTAGGGTTTGTGTAGAAATCGGTCTTCCCTTATTATTATGAAAAGGTTGTTTACTTGCTTACTTATTTTGTTAGAGTAAGGTAGCTTGCTTACTTAGTGCTTGCACTAAGGGGAAGGGGCTTTATCGGCTAGTGCGCAGGAGCGCACTTCCGTTTTCCCTTTACTAGTAGGGGTTCCGCGCGTCTATCCCGACC
+TBLASTX	ds2020-328_103		452	XR_002527398	PREDICTED: Prunus avium uncharacterized LOC110761552 (LOC110761552), transcript variant X1, ncRNA	Prunus avium	43.7	3	100	14.0	3.568004e-06	140.6645	42229	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus avium	GGTCGGGATAGACGTGCGTTGGATATATTATTTATTCAATGTTTGAAATTGGTATTTTTATGATGCATTGGCATTATTTGGGGATTTTGATATATTTGAGTATCTTGAGTATGCATACATGGATTTTGGAGATTGCCTATATGTTATTGGTTATGTGTGGGGTACTTGGGTTGTTGAGTTGAGATTGTAGAAAGGTTTGAGTATAGAATGTCAGTTTGGAGTGCTTTAAGCGCTACCCTATGTACCTCCCCGGATTTGGAACTTGAGATACTTGGAATTGTTAAGACTTGGGGCAACCTTAACGGGTTGTAGCCGAGGACCCTGCGGGGTGGTAGTCTGCGCGCGTAGGACTGTTCGCAGACGTACAAGCTTTGATTTGGTATCGGCTGTACGTGCTGGCTGAGAGTTGGTCCCTCGTCGTCTATCCCGACCGCCGTAATTCTGATCGGAAG
+TBLASTX	ds2020-328_104		449	XR_002512998	PREDICTED: Chenopodium quinoa vacuolar protein sorting-associated protein 25 (LOC110730098), transcript variant X1, misc_RNA	Chenopodium quinoa	84.0	2	100	6.0	0.00044475449999999996	105.2316	63459	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;Caryophyllales;Chenopodiaceae;Chenopodioideae;Atripliceae;Chenopodium;Chenopodium quinoa	GGTCGGGATAGACGTGGTAAGTTGCTAAAACAAACGGGAGGGGAGGATCGACCCGTTCAGTATAATTCCGAAGAAAGACTGTTGGCAGCAGGTGTTGACATTTATTTTGCTCCCTTCAAAAGGAAATGCGGGCGGGGTTAAGCTCGGCAGAGGGTTAATGGGGTAGGGTCCTGCCCTTAAGATTCAGATAAGAAAAGAGTTCCAAACCTTTATGCATGCACCTCCGTATAAGTGCTGCGTACAAGTTCCGGCTAGGATAATTGGGAAAGATCAAACCAATTTGAAGCGCTCACATCACACACAGTAGTAGTAGCGTAAAGGCCGTAAGTCGGGGGCGGCCATAACATAAAGTTATTACTTTCACATCTCTCTCTAGATATCTTTAGATAAAAAGAGAGAGAGAGAGAGATCCGCTGCGTGAGCAACCCGAACTAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_105		447	XM_013587368	Medicago truncatula NADH-quinone oxidoreductase protein partial mRNA	Medicago truncatula	92.0	3	100	31.0	1.3054590666666667e-12	249.25990000000002	3880	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;NPAAA clade;Hologalegina;IRL clade;Trifolieae;Medicago;Medicago truncatula	TCTGAATTACGGCGGTCGGGATAGACGCGCACCCCAACTCTATCTTCCTTATCAGTGAACCGGAAATAGTGCGTAGGTACTCTTCAATGCAAGCGGGGACGAGACGACGTGACATACTACGATGACGTACAGAAGTGCTGCCCTTCGGCTCGGCAATATGGAACCTCTCAACAGCTCCCGTTCCTTTATGAGGTCCTATCGGGATAGGTAGGCCCAATCCTTTCCCCTCCCCCTCCCTCTCCCTTTGGTCGAGCTAGTTTACTCCCTCTATAAGACCCTATTTATCTTTCCCCCTCGAGAAAGAGAAAGAAGAGAATCACTCCTTTCTTTCTTCTCTTCTTTCATGTTGTGAACGGCCCCTTCTTGTATCGAAAGGTTTTTCGTGCTATACACCACGTTGAGAAAGACACTTGATCGTCTATCCCGACCGCCGTAATTCAGATCGGA
+TBLASTX	ds2020-328_106		446	XM_011079534	PREDICTED: Sesamum indicum uncharacterized LOC105161736 (LOC105161736), transcript variant X1, mRNA	Sesamum indicum	41.7	2	100	7.0	0.000349371	74.07339999999999	4182	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Pedaliaceae;Sesamum;Sesamum indicum	GGTCGGGATAGACGCGGTGGAGTACTTTGGGATTATATTCCGCGCCGAGGATTTGTGCTTGTGGGCTAGGGTGAATATTGCAGACCAGCGGATCTGGTGGTCGACAATCGTTCGGACTTGGTAAAGGTTATCGCGGCACCTGTAGTAGGACAGAGGATTTATTGCGATGCCCGCGAACCAATTTACGATGTCTCCGTCGCTGACGTTCGTCAAGCAGGCCACGTGGATTGGCCAGGGTCTTCTTCGGCTAATGATACCTCGATCCCGAAGCCTTCGGAGTATCTTTTTGATAGGCGCCTCTATCTGTATGGGGAATTCGCTGCTGATAGATCCCGCCCAGTGTCCTCCTCCTTCCCCCGCCGCCTTCCGACCCGCGGGAGTATACAATGACAACTTCCGGACACTCATGCCCGATCGTGAGACTGCCGGTTCACGTCTATCCGACC
+TBLASTX	ds2020-328_107		445	XM_017364684	PREDICTED: Daucus carota subsp. sativus uncharacterized LOC108197159 (LOC108197159), transcript variant X1, mRNA	Daucus carota subsp. sativus	81.5	1	100	6.0	0.000871901	51.4703	79200	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;campanulids;Apiales;Apiineae;Apiaceae;Apioideae;Scandiceae;Daucinae;Daucus;Daucus sect. Daucus;Daucus carota;Daucus carota subsp. sativus	ATGAATCCTTTGTTACATCTGGCACGAGATGATAAAGAGAGAGCTTCGTCTATCAATGAACATCTGATTGACGGAGCTCTTGGCATTGCTTTGTTTTTCTCTCCTTTCCTATCAGCGAGTTCCGATCCTTTTGTTCGAAATTTCTTCGTTCGTACCGAACCGCTTGCAGAATCAAATCCTGTTCCACAAGATCCTATATCAGCTATACATCCTCCTTGCANNNNNNNNNNGGTCGGGATCGACGTCCGCCAGTGCTATGGGCTTTGGCTTATGTAGATCAAAAATGATGAATGGGATTGCGGCACTCCACTCGACGCCAATGCGGAAGGATGCCGTCGAAAAGAATGGAACGCTGCTTCGCTCTGCTGGATGCGTCGGATCCCGTACAACAAGCGAGCTTTTTACCGTCAAATTCAAACATGTGGGGGCAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_110		442	
+TBLASTX	ds2020-328_111		439	
+TBLASTX	ds2020-328_113		433	
+TBLASTX	ds2020-328_114		432	XM_023015716	PREDICTED: Olea europaea var. sylvestris probable alkaline/neutral invertase F (LOC111390650), mRNA	Olea europaea var. sylvestris	59.3	3	100	7.0	0.000990694	85.6795	158386	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Oleaceae;Oleeae;Olea;Olea europaea;Olea europaea subsp. europaea;Olea europaea var. sylvestris	GGGCGGGATAGACCCGCGGGCGGCCGTAAAATTGTGCTAACATCTGGTGTGGAGTAGTACGTAGATTTCTGAGGGTATAGTTTATTTAATTGAGTGAAATTCCGCCAGTAGTCGTGATAGTTGAGAACTGTGATTATTCGCTCGATCAACTCTTTGCCATCACGCTCTTTTTCTTTAGCATCTGCCGAGCACATCTAAGCGCAAAATAGAAAAAAGAACCCGGTTTTAAATTGGATATCCTTATTCCCTGTTCCGGGTACAAGTCAAGTTGAATTTTCAAATTTGAATTCAGTGTTATAATTATTCAAATCCATAAATTCACTACGAAACAAGGCCAGAACCAAGCCCTAAATTTGAGACTTTGAAAAACTGCAAGTAAACTTAAACTATTAATCATATTAATATTACACCCTGAAAACGTCTATCCCGACC
+TBLASTX	ds2020-328_115		426	XM_017373436	PREDICTED: Daucus carota subsp. sativus uncharacterized LOC108204131 (LOC108204131), partial mRNA	Daucus carota subsp. sativus	42.7	1	100	15.0	4.29395e-32	145.403	79200	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;campanulids;Apiales;Apiineae;Apiaceae;Apioideae;Scandiceae;Daucinae;Daucus;Daucus sect. Daucus;Daucus carota;Daucus carota subsp. sativus	GGTCGGGATAGACGTAAGCACTGGTTCCTCCATAAGTGCCTTCTTCAACTCATTGAAGGCATGCTGGCATCGGGGCGTCCACTCCCACGCCTTGTTCTTCTTTAGCAAATCCGTCAAGGGGGCCGCAATGGCTGAATATCCCTTGATGAACCTGCGGTAGTAGTTAACCAATCCAAGGAATGACCGCAACTCAGGTACCTTGGTTGGTGGCTCCCATTCTTGAATGGCTCGCACCTTGCCCTCCTCCATGAGCAACTGTCCACCCCGTATCTTGTGACCAAGGAACTCCACCTCATTTTGGGCAAACGAGCATTTCTCCTTCTTCACATATAGGTTGTTCTCCCTCAGAACTTTGAACACCTGATGCAAGTGCTCGAGGTGCTCCTCTAGAGAATTGCTAAACACGCACCAACGTCTATCCCGACC
+TBLASTX	ds2020-328_116		426	
+TBLASTX	ds2020-328_118		424	XR_002446765	PREDICTED: Sorghum bicolor uncharacterized LOC110429656 (LOC110429656), transcript variant X1, ncRNA	Sorghum bicolor	53.5	1	100	7.0	3.04977e-24	119.285	4558	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Liliopsida;Petrosaviidae;commelinids;Poales;Poaceae;PACMAD clade;Panicoideae;Andropogonodae;Andropogoneae;Sorghinae;Sorghum;Sorghum bicolor	GGGTCGGGATAGACGTGTGCGAAGATTGCATATTTGGAAAACAGAAGAGGGTCAGCTTTCAGACAAGTGGCAGAACCCCAAAGAAGGAAAGGCTAGAGCTTGTTCACTCTGATGTTTGGGGACCAACGACCATTTCATCCATTGGTGGGAAACACTACTTCGTGACTTTCATCGATGATCACTCTCGGAAGGTATGGGTTTACTTTCTAAAGCATAAGTCTGAAGTGTTTGAGGTTTTCAAGAGATGGAAAGCTATGGTTGAAAATGAGACAGGTCTGAAGATTAAAAGGCTCAGAACCGACAATGGTGGTGAATATGAAGACACCAGATTCAAGAAGTTCTGCTATGAGCAAGGAATCAGAATGGAGAGAACCGTACCAGGTACGCCTCAACATAATGGTGTAGCTGAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_119		423	XM_010414120	PREDICTED: Camelina sativa WAT1-related protein At3g28070 (LOC104698713), mRNA	Camelina sativa	95.2	1	100	5.0	8.57104e-05	54.6777	90675	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;malvids;Brassicales;Brassicaceae;Camelineae;Camelina;Camelina sativa	GGTCGGGATAGACGGAAGCTGCCCCTGAGTGGACGAGAAAGAAAGGATTTCTCGGAGCAACCCCCCAGGTTCCAGACCCAGGAGTCAACTTTCCCGTATGAGCATTCGGTACATGTATCAGTCCGTGGAAGAGTGAAAGGGTCACCACTACTGAGGATCTCCCCCCTAATCTTAGATAGGTCGTCTGAGGGTTCGCCGCGGTTCATTGCTGTGCTTACACACTAGGCTACCCTTCTCCGAAAGCTCCGCGGGACCACCTACCACTAGTCTTCGGCCGGAGGGGTTTATTGCACAAAAACGCCGGGACGCAGGCTCCCGAAGAGGGAAGCCCAACGAATGTCAGATGCAAAGCTCCGCACCTCATTAAGATCATATTGGCATACTCTCCCAAAAAAAAAGAGCAGGCCCCCGTCTATCCCGACC
+TBLASTX	ds2020-328_120		421	XR_001789510	PREDICTED: Malus x domestica uncharacterized LOC108172929 (LOC108172929), transcript variant X2, misc_RNA	Malus domestica	75.0	2	100	6.0	0.00044081000000000003	104.77340000000001	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	GGTCGGGATAGACGCGTTGGCTGCCTTCGAGACTATAAAATATAACCCAAGTGGTCTAACCCCCCGGGGCGGACCCCAACCGAAAGGCGCTAGACGGACTAACGGCAAGCGAGATAAAGAAAGCAGCTGGCCCTATGGAACGGAACTGGTTGCTTATTTACTTTTAGTAAGACCACTTTGGTAAGCAAAATTAGATTATATAGGCATGGTTGCTTACAAGACAAAAGATCTGTTCTTTGCCTGAACATATAGAGGAAACAACCTTCTATCTGGCCTCTGTACCAGTAGTGGAGTGGCTTGCTACTTTCAATCAGAAAAGGAAAATTGAGCAAGGCAAGGGAGAAAGAAGTTGTCCCATCTTCTCTGGTAACCCGCCACCGCATATGTCGAAAAAGAGGGAGCCGTGTCGTCTATCCCGACC
+TBLASTX	ds2020-328_124		406	XM_001622727	Nematostella vectensis predicted protein (NEMVEDRAFT_v1g139877) partial mRNA	Nematostella vectensis	60.0	1	100	38.0	0.000208181	53.3031	45351	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Cnidaria;Anthozoa;Hexacorallia;Actiniaria;Edwardsiidae;Nematostella;Nematostella vectensis	GGTCGGGATAGACGAGAAGTAAGGATTCGAGAGTCCAGGCTGAAAATACATGCATAGATAGTGGTCTAATGACAAAGGCCGACGACGGAAGCTCGGGACGGAGCCGTATGATGCGGAAGTCTCACGTACGGTTCCCTGAGAAGGGAGTGGCTACCTACTGGAGCTTCGACCAACCACCACCGGTCAATTCCGCTTTGGGGCCACCCCTTACTCTACCATTATTATAGGGGTATGGGGTTCGAGACAAAGAAAGATCAAGGCAGCATATCAGTTTTTCCTTTATACTTTACTTGGATCTGTTTTTATGCTATTAGCTATTCTGTTGATTCTTCTCCAAACAGGAACCACCGATTTACAAATATCATTAACCACAGAATTTAGCGAGCGGGCGCGTCTATCCCGACCA
+TBLASTX	ds2020-328_125		405	XM_008246213	PREDICTED: Prunus mume sec-independent protein translocase protein TatB-like (LOC103342579), transcript variant X1, mRNA	Prunus mume	75.4	3	100	22.0	5.966809733333332e-07	197.0242	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	TGATCGCCCCCTCGGATTCGTTCTAGAACTTTCTATGCCCCCTTGTATAGGTTGGGCGAATCCACCGACTCACGTCGAATACGAACGCCTCTCTCGACAAACTAGCCCACGTCTTTCTATCGGACTAGACCGATAGAAGTAGCTTGGGTCGGGATAGACGCCCCACTACGCTGCCACCATGTGAGAGTCGGTGCGTAATGGATCTACGCCTGCCTTCGAAAGCTCCACTCCTGTTTACCAGGATCCTGGAACCATTCCTTGATTGATTGAAAATCACGAGTCGAATTTTTCTCTACCTATTCGACTATCAAGCTCTTGACACCCTGTTTAGCCTAGCGCCCTCCTCCTCTTTTGTTCGCTTCGCTCTCCTCCCTCAACCAGGCAAGTAACCCGTCTATCCCGACC
+TBLASTX	ds2020-328_128		386	NR_077008	Mycoplasma agalactiae strain PG2 23S ribosomal RNA gene, complete sequence	Mycoplasmopsis agalactiae	50.3	4	100	17.0	7.500109499999999e-07	167.39149999999998	2110	cellular organisms;Bacteria;Terrabacteria group;Mycoplasmatota;Mycoplasmoidales;Metamycoplasmataceae;Mycoplasmopsis;Mycoplasmopsis agalactiae	TACAAACGGCGTAGTCGATGGACAACGGGTAAATAGTCCCGTACTGAAATTGATTGGTGCAGAGGGACGGAGAAGGCGGACATCAGCCGGATGTTGGTTACCGGTTCAACTGTGTGAGGTGATGAGAGGCGGAGAAAACGCTTTGAGCCGAGCCAGGNNNNNNNNNNCGAGTCCCTACGGGGGCGAAGTGGTGAAGTCATGCTTCCAAGAAAAGCTCTAAACACCATAAATCAATTTTACCTGTACCCAAAACCGACACAGGTAGGGAGGTTGAGAATACCAAGGGGCGCGAGATAACTCTCTCTAAGGAACTCGGCAAAATGGCCCCGTAACTTCGGAAGAAGGGGTGCCCACAGCAATGTGGGTCGCAGTGAAGAGATCCAAAA
+TBLASTX	ds2020-328_132		380	XM_014642689	PREDICTED: Vigna radiata var. radiata extensin-2 (LOC106759499), mRNA	Vigna radiata var. radiata	57.4	2	100	5.0	0.000962871	71.7824	3916	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;NPAAA clade;indigoferoid/millettioid clade;Phaseoleae;Vigna;Vigna radiata;Vigna radiata var. radiata	GGTCGGGATAGACGACGCACCACCATCAAAGAAACCTTACCACTACTCATCTCCTCCTCCTCCTCCTCCACACAAGAAGCCGTACCACCCAGTGCATTCACCACCACCACCAAATAAACCTTACCACTACAAGTCTCCCCCACCACCCACACCCTCACCACCTAAGCATCCTTACCACTACAAATCTCCACCACCACCCTCACCATCACCCCCTAAGCACCCTTACCACTACAAGTCTCCCCCACCACCATCACCTTCACCACCCAAGCACCCCTACCACTACAAGTCTCCTCCACCACCCTCACCATCACCACCCAAGCATCCTTACCACTACAAGTCTCCTCCACCACCCTCACCATCACCACCCAAGCATCCTTACC
+TBLASTX	ds2020-328_133		378	
+TBLASTX	ds2020-328_135		373	XM_013586884	Medicago truncatula hypothetical protein partial mRNA	Medicago truncatula	96.3	3	100	89.0	5.7438831999999995e-08	202.9809	3880	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;NPAAA clade;Hologalegina;IRL clade;Trifolieae;Medicago;Medicago truncatula	CGGTCGGGATAGACGGGACCGCCCCCTACTACCCAATTCCTGTCTTCGGAACTACGAAGATAGGTTACTTTCTGCGATGGCCCTCCACCTCGTTGGGAAAAGTAAAAAGAAATAACAAGCCCTAAACTAAATATCAACTAGCAGCTTATCAACCACCGAACACAGACTCATGTTGGCGATGCCATGGTCAAGTAAGAGGACGACCCATTCACCTCAAAAGAAAAATCTCGCCTCTCAAGTAAGCCAAACGATTGACGTCAAAGAGAAGGACCACCCACCCAGCAAAGAGCGAGGTCTTTCAGCAATGAACTTCACAAAAAGAGTGGAAGGCGAGAAAGACACTTAGACAACATTAGAGGATCTTTTGTTTTTA
+TBLASTX	ds2020-328_138		368	XR_002749571	PREDICTED: Zea mays Eukaryotic 28S ribosomal RNA (LOC111590481), rRNA	Zea mays	66.3	6	100	25.0	1.1918508931248834e-21	437.1202	4577	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Liliopsida;Petrosaviidae;commelinids;Poales;Poaceae;PACMAD clade;Panicoideae;Andropogonodae;Andropogoneae;Tripsacinae;Zea;Zea mays	AACGGCCGCCACTACTAATTCTGCCTACTCGCCGGGGCGTAAATTTTGCCCCGGCGGGGGGGTATAAGTAACACGCTTGAGCGCCATCCATTTTCAGGGCTAGTTCATTCGGCAGGTGAGTTGTTACACATTCCTTAGCGGATTCCGACTTCCATGGCCACCGTCCTGCTGTCTAGATGAACCAACACCTTTTGTGGTGTCTGATGAGCGTGTATTCCGGCACTTTAACCCCCCGTTCGGTTCATCCCGCATCGCCAGTTCTGCTTACCAAAAATGGCCCACTATAAACGTTTCATTCACCTGTCCACGTTCAATTAAGTAACAAGGACTTCTTACATATTTAAAGTTTGAAAATAGTGGCGGCCGTT
+TBLASTX	ds2020-328_140		367	XM_014711914	Mixia osmundae IAM 14324 hypothetical protein mRNA	Mixia osmundae IAM 14324	84.4	2	100	6.0	0.000811477	70.8659	764103	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Basidiomycota;Pucciniomycotina;Mixiomycetes;Mixiales;Mixiaceae;Mixia;Mixia osmundae;Mixia osmundae IAM 14324	GGTCGGGATAGACGCCGCGCCTCCGTTTGACTGCCGCTCGGGGATGTAGTTGTAGATACTTTAGTCTTAGTGGGTCGTTGGCTCCACCTGTTATCTCCTTCTACGACATGCTGTTGTCGTCGCCATATTCCATATGTCACTTAGTCATCTCTGCCTCGCTGCGGGTCAGCACCTCCGAAAGAAACGGAGGACTTCATTCAGTGACTCCGCGATCGCCCTCTGAACGATCAGAATAAGGTAAAGCTTGAAGATAAGTTTTGTACTCTATTAATTTCTCAGTCCCTCTAGTCGGGTGGGCGCCGGCCGGTCTTTCGACCAGATATCCCCCTAAAAACCGTACGTGCGGGTCCGACCGTCTATCCCGACC
+TBLASTX	ds2020-328_141		367	NR_103150	Aequorivita sublithincola 23S ribosomal RNA gene, complete sequence	Aequorivita sublithincola	62.2	8	100	24.0	1.9573430284712805e-05	316.4548	101385	cellular organisms;Bacteria;FCB group;Bacteroidota/Chlorobiota group;Bacteroidota;Flavobacteriia;Flavobacteriales;Flavobacteriaceae;Aequorivita;Aequorivita sublithincola	CGCCGGGATAGACGGAGCCTCACGGTACTTGTTCACTATCGGTCGATTACGAGTATTTAGCCTTGGAGGATGGTCCCCCCATCTTCAGACAGGATTTCTCGTGTCCCGCCCTACTTATCGTCCACTCAGTTCCACACCAAACTTTTCTCATACGGGGCTATCACCCGCTATGGCCGGACTTTCCATTCCGTTCTGCTAGCAATACTGCTAAAGAGTACAAGGCTGATCCCATTTCGCTCGCCACTACTTTGGGAATCTCGGTTGATTTCTGTTCCTACAGCTACTTAGATGTTTCAGTTCGCTGCGTTCGCTTCCCTTGCCTATGTACTCAGCAAGGGATGACCCATCCATGCCGTCTATCCCGACC
+TBLASTX	ds2020-328_142		366	XM_020665586	PREDICTED: Amborella trichopoda uncharacterized LOC110007012 (LOC110007012), mRNA	Amborella trichopoda	35.9	1	100	21.0	0.000324342	52.3867	13333	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Amborellales;Amborellaceae;Amborella;Amborella trichopoda	GATCTGAATTACGGCGGTCGGGATAGACGTTGATTTGAGGTGGTGGCGGGGGTTGGAATTTCGATAGATTTGGAGGGCATAATTGGGATGAGTCGTCGTCTTCTTCGCCGTCGGATCCTGCGTTTGATTTCGTGTACGAGGTGATGTGTTGGATTGCGCTTTCGAATTGCGTGCACTTCGCCTTCAAGAGGGTTATTCGTATCGTGGCGGATGGGTTGGGCGATGCGGAGAGAGCGAAGGTGCCGATGAGATTGACTTCGGTCTGCTGATGCGGTACCGTTTCGTTCTCAATGCTTAACGTATCAAAAAGGGGATACAAATCTGGTTTTAATTTATGTGTTGGTTGGGTTTGCGTCTATCCCGACC
+TBLASTX	ds2020-328_146		358	XM_009803437	PREDICTED: Nicotiana sylvestris purine permease 1-like (LOC104247422), transcript variant X2, mRNA	Nicotiana sylvestris	72.9	2	100	7.0	4.64152e-06	76.8227	4096	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana sylvestris	GGTCGGGATAGACGACCAGTTGCTTTGCCGGCGGGCCCACTTAGGTTAGGGGGGGCATTGTCCCTCAGTTCTTACCAACCTCCGGTGTGTAATCGACATGTTGCTAGCTTCAACTCGGTTGAATAAGAATCATTGATTCCCTATGCTGTCCATTTCTTATTCATTCAGGGCGCTCGGCCGGTGCTCCTTTAAAAAACCAAAACCACTCTGAACGTAAGGGAAGATAAGGGAAGACCGCCTGAGCGAACCGACCGAAAGGACTTTTGACTTATTTGAACCGAACGATAGCGGCTTAAAGCTAAGCCTATCACGAGCAGCGTCGCTGCTTGATCAGCGGTGAGGAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_148		358	XR_002524666	PREDICTED: Prunus avium uncharacterized LOC110744570 (LOC110744570), ncRNA	Prunus avium	87.6	3	100	98.0	3.661681386666667e-12	256.1332	42229	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus avium	GGTCGGGATAGACGTATAAAGCAGCAATGTCACTCCCCCTCAAATCCGACGACGTATGAGAGTCGAGATTTGGAGAAAGCAACACCGGTAATGACAATAAAGTTGCAGCACCCAAATAAAGTTGCATCTATCTCCCCCTCAAATCTGACACTGGTAGAGGGTCGAGATTTGGAAGAAGAGAAAATGAAATAATAGTAAAGAGACTCAAACATGCCAGTCTCGTGGTAGAAACAAATGCAAGGAAATGTGGAATGGAGATGGGCATCCGACAACTGGAGAAAAGGAATAAAAGATGGAAAAGAGTCTGCAACCCAAACAAAAAGGAGGAAAGTGTAGTGGCGGCCGTTGCTGTGTATTA
+TBLASTX	ds2020-328_150		355	XM_006366608	PREDICTED: Solanum tuberosum F-box/kelch-repeat protein SKIP30-like (LOC102590758), mRNA	Solanum tuberosum	72.0	3	100	8.0	0.00023699600000000003	89.8034	4113	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Solanoideae;Solaneae;Solanum;Solanum tuberosum	GGTCGGGATAGACGAAGCCTACTCCTAACAAGTTGCTGGCTTTTCAGCCGTTGCGCGCTAGCGTTTTACCTTACTAGTAAAGGGGCTGCTGGTTGTAGCGCGCAGTGTGCTAGTGAATAGGAAAAGCGGATTGAGATTACTAATGACGGATGGAGACACCGAAGGTGATAGAACATGTTCGGTGCCTCGCTCTTGTCTCCTTCGCCGGAGACTGCAAATGATGGGAATCCTATCGATAAAGAAGAGGCATAGGCATCGCCTCTCGATCCAATCCGCCTTCCCCGGCCTCCCCAACACACTCTTGATACGAAAAAAACCATCACCATCGTCTATCCCGACCGCCGTAATTCAGATC
+TBLASTX	ds2020-328_151		354	NR_003279	Mus musculus 28S ribosomal RNA (Rn28s1), ribosomal RNA	Mus musculus	71.2	6	100	16.0	3.288160839966667e-22	423.83259999999996	10090	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Euarchontoglires;Glires;Rodentia;Myomorpha;Muroidea;Muridae;Murinae;Mus;Mus;Mus musculus	TGAATTACGGCGGTCGGATAGACGGACGCGCGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGTTACCTATACCTCACCGTCAGTGTTAGAGCGATGCGCTGACGAGTAGGCAGGCGTGGAGGTTGTATCGAAGCCTAGGCAGTGATGCTGGGTGGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAGTGGAGAACGTTAGTGGCGGCCGTT
+TBLASTX	ds2020-328_152		582	
+TBLASTX	ds2020-328_597		229	XM_008238033	PREDICTED: Prunus mume UDP-glycosyltransferase 74G1-like (LOC103335040), mRNA	Prunus mume	89.7	1	100	6.0	1.04036e-05	55.5941	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	GTTCTGGATAGACGGTAGCTGCTTTATCTGTTTTTGGTTTTATTGTTTGTGGCTTTGTTTGTTTCTATAATATTGCCTTTCCTAGTGAGTTTTACGGGCCCACTGGACCAGAAGCTTCTCAAGCTCAAGCATTTACTTTTTTGGTTAGAGACCAACGTCTTGGGGCTAACGTAGGATCTGCTCAAGGACCTACCGGTTTAGGTAAATATCGAATGCGCCTATCCCGACC
+TBLASTX	ds2020-328_599		229	XM_021977860	PREDICTED: Prunus avium uncharacterized LOC110773349 (LOC110773349), mRNA	Prunus avium	87.3	4	100	15.0	4.97788e-06	302.5634	42229	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus avium	TGAATTACGGCGGTCGGGATAGACGTCTCACGGACCTGATAGACGAGCAGCACCAATACGCGTCTATCCCGACCAGCCCAAATACGTCTTGAAATAACTCCGGCTTAATCCCCAAAACACCAAACCCAACACCAAATGGAACTCAAATTCACAAAACTATCCTTACATACGATCTGAAATACCAATGTGCTTGAATTCTCTGAACCAAAATCACACAAACCACATTTCT
+TBLASTX	ds2020-328_601		229	XR_002525807	PREDICTED: Prunus avium uncharacterized LOC110750863 (LOC110750863), ncRNA	Prunus avium	55.0	1	100	20.0	0.000496455	50.0956	42229	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus avium	GGTCGGGATAGACGTTGGCGCTTAATTAGCTACCAAAACGCAGAAATTTCTCAAACCTAACACAACCAGCAGCTAGAGCTCAAAGAGTAGATGAATTTACATACCTTATGCGTCCAAATCGGTTGAGAAACGAATGAGAACGAATGCTCCAAAGTTCTGTCAAAATCCGGCGAATTTTCTGCATTTTCCTGCGAATATCGAGGAGTCCAGTGGGCCGTCTATCCCGACC
+TBLASTX	ds2020-328_604		228	XM_002959994	Volvox carteri f. nagariensis hypothetical protein, mRNA	Volvox carteri f. nagariensis	72.0	1	100	12.0	0.000342345	50.5539	3068	cellular organisms;Eukaryota;Viridiplantae;Chlorophyta;core chlorophytes;Chlorophyceae;CS clade;Chlamydomonadales;Volvocaceae;Volvox;Volvox carteri;Volvox carteri f. nagariensis	GGTCGGGATAGACGAGGGGAAGGGGTCAGATTTATCCCGACGGGAGCAAGAGTAACAATAATGTTTATAATGCTACAGCAGCAGGTATAGTAAGCAAAATCATACGAAAAGAAAAAGGGGGGTACGAAATAACCATAGCGGGTGCATCGGATGGACGTCGAGTGGTTGATATTATCCCTACAGCACCGGAACTTCTTGTTTCAGAGGGCGATTACGTCTATCCCGACC
+TBLASTX	ds2020-328_608		228	XM_008387169	PREDICTED: Malus x domestica uncharacterized LOC103447945 (LOC103447945), mRNA	Malus domestica	38.5	1	100	6.0	0.00067709	49.4855	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	GTTTGGACATCTAGCTTGATGCTATCCAGTGCGGAGTTGAGGGCTCCCTGGAATTGGCCTTGAAGTTCTTCCACCATAACTTCGAAGCCCCCCTTTGTAAGGACATCCTCCTCGAGTCTTTGATCGAACTCGATCACGGCTCTCTCCATCTTAGAAAGCCGATTCTCCATGGTTGCTGCATCTCTAGATCGTTCCCTCTTTGATTTGCCGCCCACGTCTATCCCGACC
+TBLASTX	ds2020-328_609		228	XM_004606097	PREDICTED: Sorex araneus ATP synthase, H+ transporting, mitochondrial F1 complex, alpha subunit 1, cardiac muscle (ATP5A1), transcript variant X1, mRNA	Sorex araneus	53.8	1	100	10.0	6.45849e-12	76.2135	42254	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Eulipotyphla;Soricidae;Soricinae;Sorex;Sorex araneus	GGTCGGATAGACGTCAAAAGTGGCTCAGGTGGTGACTGCATTACTGGTGGTTGGTGTTACGGATTACACTATTGTGAAGGCTGAAACGGCGGACTCCCCTGCTACATTACAATACCTTGCTCCTTATACAGGAGCAGCTCTGGCTGAATATTTTATGTATCGTGAACAACACACTTTAATCATTTATGACGATCCCTCCAAACAAGCGCAGTTCCGTCTATCCCGACC
+TBLASTX	ds2020-328_611		228	
+TBLASTX	ds2020-328_612		228	XR_002272455	PREDICTED: Prunus persica uncharacterized LOC109950154 (LOC109950154), ncRNA	Prunus persica	89.7	2	100	22.0	1.041069e-16	185.41809999999998	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	GGTCGGGATAGACGGTGCGGTGGGATGGGAGAACTCACTGGCATGAATGCCCCTGCTTCATCGAGTGGGATACGACCCCCGTTTGATCTTAACATGGCTCCGGACCCGGAGCCGGAACCTTCCTCTTCACCCGGCCTAAAAAATAGAATTCTCGAGGCGGAGTTAGAAGAGGCCCAGAAAGAACTTCGCTTCTGGCAAGAGAAGGGAAGGCGTTCGTCTATCCCGACC
+TBLASTX	ds2020-328_614		227	XR_002461581	Cyanidioschyzon merolae strain 10D 28S ribosomal RNA rRNA	Cyanidioschyzon merolae strain 10D	67.6	4	100	10.0	4.5781866650000004e-08	172.89000000000001	280699	cellular organisms;Eukaryota;Rhodophyta;Bangiophyceae;Cyanidiales;Cyanidiaceae;Cyanidioschyzon;Cyanidioschyzon merolae;Cyanidioschyzon merolae strain 10D	GGTCGGGATAGACGTCACCTCCCCATCCCGGTTCAGGAATTTTAACCCGATTCCCTTTCGAAGTTCGCGCGAGACGCGCTATCAGACGGGCTTCCCCCGTCTCTTAGGATCGACTAACCCATGTGCAAGTGCCGTTCACATGGAACCTTTCCCCTCTTCGGCCTTCAAAGTTCTCATTTGAATATTTGCTACTACCACCATAGATCGTCTATCCGACCGCCGTATTC
+TBLASTX	ds2020-328_617		227	NR_076419	Nitrobacter hamburgensis strain X14 23S ribosomal RNA gene, complete sequence	Nitrobacter hamburgensis	63.4	6	100	14.0	1.9769151171240002e-05	202.05899999999997	912	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Hyphomicrobiales;Nitrobacteraceae;Nitrobacter;Nitrobacter hamburgensis	ATCTGCCTGGTTTCGGGTCTATACCCAGCAACTAAACGCCCTATTAAGACTCGATTTCTCTACGGCTCCCCTATACGGTTAACCTCGCTACTGAATATAAGTCGCTGACCCATTATACAAAAGGTACGCAGTCACACCACGAAGGTGCTACCACTGCTTGTATGCATGCGGTTTCAGGATCTATTTCACTCCCCTCACAGGGGTTCTTTTCGCCTTTCCCTCACGGT
+TBLASTX	ds2020-328_619		227	XM_023151680	PREDICTED: Cucurbita maxima transcription factor bHLH63-like (LOC111499945), transcript variant X1, mRNA	Cucurbita maxima	68.7	6	100	25.0	0.00026565687999999997	216.72169999999997	3661	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Cucurbiteae;Cucurbita;Cucurbita maxima	GGTCGGGATAGACGCGTAACTGTCATCGATCTTTTCTTCTTTCTTCAATCGGTCATATCTGATCCGTAGCTGGTAGCGACATGAGGAAAAGGTCCAGAATAGTCTATTTTATTTGCTAAATCGCGAGTTTAAGGGGTCGGATGGGTCAAGTATGGCCTCTAAAAACATGCGATAATCGGCTTTTTTAGTAGCATCTGTCCTACCCGCCCTGATCGTCTATCCCGACC
+TBLASTX	ds2020-328_624		226	
+TBLASTX	ds2020-328_627		226	XR_002469285	PREDICTED: Oncorhynchus mykiss uncharacterized LOC110494523 (LOC110494523), ncRNA	Oncorhynchus mykiss	75.3	5	100	100	3.9263254412770184e-10	290.80060000000003	8022	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Actinopterygii;Actinopteri;Neopterygii;Teleostei;Osteoglossocephalai;Clupeocephala;Euteleosteomorpha;Protacanthopterygii;Salmoniformes;Salmonidae;Salmoninae;Oncorhynchus;Oncorhynchus mykiss	GGTCGGGATAGACGCGTGCCCAGCCTCCGTTTCACGGAATAAGTAAAATAACGTTAAAAGTAGTGGTATTTCAATTTCGCCGAAGCTCCCACTTATACTACACCTCTCAAGTCATTTCACAAAGTCGGACTAGAGTCAAGCTCAACAGGGTCTTCTTTCCCCGCTGATTCTGCCAAGCCCGTTCCCTTGGCTGTGGATTCGCTAGGTAGGTGCTAGGGACAGTGGG
+TBLASTX	ds2020-328_633		225	
+TBLASTX	ds2020-328_634		225	XM_014662273	PREDICTED: Vigna radiata var. radiata pentatricopeptide repeat-containing protein At4g21705, mitochondrial (LOC106775191), mRNA	Vigna radiata var. radiata	41.0	1	100	9.0	1.0637e-06	58.8016	3916	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;NPAAA clade;indigoferoid/millettioid clade;Phaseoleae;Vigna;Vigna radiata;Vigna radiata var. radiata	GGGCGGGATAGACGTCCCATTACTCTTTCTACTCCTTCAAAATCGTTTAAAGACGCAAAGCTCTGCATCCAGATGTTATACGTAAATGTGTCCAGAGGGATGTTCCTCTGCTTCATTTCTTGCACTAAAGGAGCCACTTTCTCTGGTTGCTGCTTTCTCATATGCATAGACATGAGATTGTTAAAGACCAAAGAAGAGGAGTCTAAGTCGCCGTCTATCCCGACC
+TBLASTX	ds2020-328_638		225	XM_012995701	PREDICTED: Erythranthe guttatus uncharacterized LOC105970884 (LOC105970884), mRNA	Erythranthe guttata	58.1	1	100	9.0	0.000887703	49.1792	4155	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Phrymaceae;Erythranthe;Erythranthe guttata	GTCGGGATAGACGTACCAGTCAACTTTTTGCAATTTTCTTCATACATCACATGGTATGACTTGGTTTGCCCAAGTCCGCGATGTAGCCGCAGCCGAAGCCTCGTCTTTCGAAGGCTCAGGCACCCTGGCTGATTGTCCCCCATTCGGGATAACGTCAAACCAGGTAGTTGTTAACTACTTGGCCCCAGCCACACTGCCAACGTCCCCTATTCGTCTATCCCGACC
+TBLASTX	ds2020-328_654		224	
+TBLASTX	ds2020-328_657		223	
+TBLASTX	ds2020-328_660		223	XR_002273005	PREDICTED: Prunus persica uncharacterized LOC109950705 (LOC109950705), ncRNA	Prunus persica	77.1	6	100	21.0	5.146750000000292e-06	223.5947	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	AACGGCCGCCACTACATTATGCACATCTGCGCCTCAACTACCGCCACAAAAGCCACCGCCACCCACCACCACCACTTGAGGATGAAACTTTGAGCTCTTACTGCACATAGTCACCCAAATGCAGGCACCCACCTCAATCTCTCCGCTGTAAAAACTCCCAATGCCCACATTGTGAAAAAAACACCAAACCCATCCAAACCAATCCCAATTAGTGGCGGCCGTT
+TBLASTX	ds2020-328_661		223	XR_002270744	PREDICTED: Prunus persica uncharacterized LOC109947948 (LOC109947948), ncRNA	Prunus persica	63.2	2	100	10.0	0.000532903	66.2839	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	GGTCGGGATAGACGTTGGGATGAGTTTGGGTGATTGGTGATGGTAGAGAAAGATGAAATTCGTAGAGAATAGGAAGGGGGTTTTCTGGAGGTGTTTTGGTGATTTTGGACAGAATGGAGTGTTTGGGGAAGGATGGAAGTGTGAGAGGTTGGCTAGAGTGAATTGTAGTGGCTGAATGGAATGAGATGTTGGGGATGTGAAGGATGGAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_662		223	XM_017324241	PREDICTED: Malus x domestica exportin-T-like (LOC103405363), transcript variant X2, mRNA	Malus domestica	67.5	5	100	9.0	2.598817138e-06	182.20510000000002	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	GGTCGGGATAGACGCGGGAGTCAGTTCAAGTCTTACCTGAGACAATAGTATATAAAGTAGCTCAACCAATGGCAATTCCTCACGTATTCGAAGATCGGTAAATGCCTTAATCAACTAATTTAGGTTTTCTAGTGCGTGTAATTTCCATCCATTCATTACCAACGTAGTCTGGCTATAGCCCAGTTGTCCTGATCAGAAGAGGGGGTCCCCGTCTATCCCGACC
+TBLASTX	ds2020-328_663		223	XM_021944318	PREDICTED: Prunus avium uncharacterized LOC110744346 (LOC110744346), mRNA	Prunus avium	75.2	2	100	18.0	1.40386587425e-23	243.61100000000002	42229	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus avium	GGTCGGGATAGACGGAATAAGATACTTGTGGACGGATGACGTGGGAAGAAGTGGGGATCGGAGGTTGATGTGACGGTGGTTACAATGGTGTGGGCTGGTCATGTGGAGGACGAAGAACTGAACGCTTTGAGGAAACAATGGAGACAATGCGGCAAAATAGCCTCTCCTTTTCTTGGGTTGATTGATGTTGTGTTCTTAGGAGAGTAGTGCGTCTATCCCGACC
+TBLASTX	ds2020-328_664		223	XM_008238314	PREDICTED: Prunus mume ATP synthase subunit a (LOC103335303), mRNA	Prunus mume	97.6	3	100	21.0	3.339811333333694e-23	388.09700000000004	102107	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus mume	AGAGCTTATCCCAATAGATCTAGCGGATCTAAGGGGTTTTTCCTCCTTTTCTTGGGAGAGTCTCTCCAGCTGGATCATAAGGGCACAAAACACCTTTGACTAGGTTCAAGCCTAGCCTAGGATACCCCGCTTCCGCATACACACCAGGGAATGAATTTGGAGAAGGATCAAAAGGAATTGGACTTGCTAACCCAATTGACGGGAATTAGTCGTCTATCCCGCC
+TBLASTX	ds2020-328_666		223	XM_007211250	PREDICTED: Prunus persica RNA-dependent RNA polymerase 2 (LOC18776512), mRNA	Prunus persica	88.8	3	100	6.0	4.0073406666666664e-12	236.8883	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	GGTCGGGATAGACGGGCGGTTTTGGTGAGTGAGAATGCGCTGCGATGGCTATCTTGCGCCCGGAGGTGTTGTGAAGCATTTGATTGCTGGAATGGCCACTCAATGAGCTGGCTGGATGGCGGAAGGTTGACCGAGATGCATGACGTGGCGCCGTCAGTTTTCCTTTATTTATTTATTTATTTTTGTTTGGTTTTCGATAGTCAATCGAAGCGTCTATCCGACC
+TBLASTX	ds2020-328_671		222	XM_023030294	PREDICTED: Olea europaea var. sylvestris phosphoserine phosphatase, chloroplastic-like (LOC111402163), transcript variant X6, mRNA	Olea europaea var. sylvestris	84.5	5	100	30.0	2.748860165770834e-19	406.2695	158386	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Oleaceae;Oleeae;Olea;Olea europaea;Olea europaea subsp. europaea;Olea europaea var. sylvestris	CGTCGGGATAGACGGCTTTGGCTCTTGCCTCTTGCCCTACCGATCTATGCTACCTCGTATGGTACTGTCTTTCTCGCTGCGTGCTTTTCTACAGGAAGCATCCCAACCAGCAGCTTAAGAAGGAGTTCCGGTGCCAATTTCATACCCTTTACCATAAAAGGGTAGTGCTCCTACCTTCCGGTCTACTGGTTATAGATCAATGGCTTACACCCCGTCCACGGC
+TBLASTX	ds2020-328_672		222	XM_023014101	PREDICTED: Olea europaea var. sylvestris eukaryotic translation initiation factor 4B3-like (LOC111389212), partial mRNA	Olea europaea var. sylvestris	49.2	2	100	12.0	0.000913164	66.742	158386	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Oleaceae;Oleeae;Olea;Olea europaea;Olea europaea subsp. europaea;Olea europaea var. sylvestris	AACGGCCGCCACTAATCAACTTTCTTTGGTGGGTCACAGTCGAAGGCTGATGAATCGGACAGTTGGGTATCCAATAAGAGCTCTGTGTCGTCTGAGGGACGGAGATTCGGTGCTTCCGGTGGTGGGTTCGATCGGGAGAGGAAAGTGGGGTTCACATCTGATGGAGGTGCTGATTCTGATAATTGGGGGAGGAAGAAAGAGGAGCGTACGTCTATCCCGACC
+TBLASTX	ds2020-328_673		222	XM_007204832	PREDICTED: Prunus persica CBL-interacting serine/threonine-protein kinase 6 (LOC18770476), mRNA	Prunus persica	85.3	3	100	5.0	8.20179e-05	86.1377	3760	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Amygdaleae;Prunus;Prunus persica	GGTCGGGATAGACGGCTTGCTGCCCTGCTTAATGGGTGGCTAGGCTTTGGCTACAAGCCCCAAAGGCCCAGACCCAGTTTCAATTTCAACTTAATTAATTGAAACAACAACAACAACAATAACAATAATAACAAAATAATAGTCACAACAAATTGTAATAATCTTAATTCTTATATCAACAATCAAGCAGCCGTCGAACTGTCCTCTGGGGCGGTCCACGGC
+TBLASTX	ds2020-328_674		222	
+TBLASTX	ds2020-328_675		222	
+TBLASTX	ds2020-328_678		222	XM_018649665	PREDICTED: Pyrus x bretschneideri uncharacterized LOC108867878 (LOC108867878), mRNA	Pyrus x bretschneideri	55.7	3	100	23.0	3.2472361333333334e-07	190.151	225117	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Pyrus;Pyrus x bretschneideri	GGTCGGGATAGACGAGCAGGCCCCATTCCTTAACAATAGGTAGCCAAAACAGGAACCCGTTAACCCGCACAAGCCAATCTTGAAGCATCAATGACGAGGGGTATGAGACGACAGTTCGATGCCAGAGCACAGAGCCTGCCGGTGCATACAACCCATTCACCACTCACACGCCGTTGCTTTGGCGAAGCCCAGCACCACCAAACCTGACCGTCTATCCCGACC
+TBLASTX	ds2020-328_681		222	XM_017236897	PREDICTED: Drosophila bipectinata DNA-directed RNA polymerase subunit beta'-like (LOC108122335), partial mRNA	Drosophila bipectinata	50.0	1	100	5.0	3.25357e-05	53.6842	42026	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Brachycera;Muscomorpha;Eremoneura;Cyclorrhapha;Schizophora;Acalyptratae;Ephydroidea;Drosophilidae;Drosophilinae;Drosophilini;Drosophila;Sophophora;melanogaster group;ananassae subgroup;bipectinata species complex;Drosophila bipectinata	GGTCGGGATAGACGTTTGCACTCGGTCCGGTACGACCATCAAACAATACTTGCTGACCTGAGGTTGGCATACCTGCTAATTCTAGCAAGCCTTTGATTTGCTGTTCTTTAGCGCCATCAAATACTGCCGTACCCATTGGTACGCCTGCACGTAGATTTTTTGACATCGCAATGATTTCCTCATCACTGAGGCTGCCTAAGTCCTTTTCGCGTCTATCCGACC
+TBLASTX	ds2020-328_683		222	
+TBLASTX	ds2020-328_687		222	XM_004140192	PREDICTED: Cucumis sativus UDP-glycosyltransferase 74E2-like (LOC101217502), mRNA	Cucumis sativus	63.0	2	100	10.0	6.04497e-07	77.6544	3659	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Cucurbitales;Cucurbitaceae;Benincaseae;Cucumis;Cucumis sativus	GGTCGGGATAGACGGCGAGCCACCATGTGTGAAAAAGCACCCCACCGCCTCATTTGATAAAACTTCCAACTGAGGGCTCCATGCTACTATCAACCCTTTGCATTCACCACCATCTTCACTAGTACTAGTACTTCTCTCCAGCTCCAGCTCCTCTATGAAGTTGGGTGGCAGCTTCGCCTTTTCGGATTCCTTGACCACCCACGAACAGCGTCTATCCCGACC
+TBLASTX	ds2020-328_689		222	XM_002295561	Thalassiosira pseudonana CCMP1335 1-deoxy-D-xylulose 5-phosphate reductoisomerase (DXR1), partial mRNA	Thalassiosira pseudonana CCMP1335	44.6	1	100	12.0	0.000284085	50.7405	296543	cellular organisms;Eukaryota;Sar;Stramenopiles;Ochrophyta;Bacillariophyta;Coscinodiscophyceae;Thalassiosirophycidae;Thalassiosirales;Thalassiosiraceae;Thalassiosira;Thalassiosira pseudonana;Thalassiosira pseudonana CCMP1335	GGTCGGGATAGACGGTACGTGGTCCTGGTCGGTGCCGCTATCGTCGGTACTGCAGGCTTGCCATCAACGCTGGCAGCGGCTAACGCGGGTAAAAAGATTTTGCTTGCTAATAAAGAAGCATTATTGATGGCAGGTGAGCTGATGATTAAAGCCGTCAAGAAGTCAAATGACAAATTGCTGCCAATTAATAGCGAGCAGTGGTACTTGGCGTCTATCCCGACC
+TBLASTX	ds2020-328_691		221	XM_022723409	Penicilliopsis zonata CBS 506.65 hypothetical protein (ASPZODRAFT_134005), mRNA	Penicilliopsis zonata CBS 506.65	69.4	1	100	21.0	2.04369e-23	114.245	1073090	cellular organisms;Eukaryota;Opisthokonta;Fungi;Dikarya;Ascomycota;saccharomyceta;Pezizomycotina;leotiomyceta;Eurotiomycetes;Eurotiomycetidae;Eurotiales;Aspergillaceae;Penicilliopsis;Penicilliopsis zonata;Penicilliopsis zonata CBS 506.65	GGGCGGGATAGACGGGATTCTTGGGTCATCTCAATGGGTTCAGAAACCACACGTTTCTCTGGATCATCATAGCGTACTTCTACATATCCACTCAGAGGAAGGTCTTTTCGTAATGGATGACCCTCGAAACCATAATCTGTTGATATACGGCGTAGATCCGGATGATTGATGGAAGAAACACCAAACATATCCCAAACTAGTTCGCACCGTCTATCCCGACC
+TBLASTX	ds2020-328_694		221	XM_018969307	PREDICTED: Juglans regia DNAJ protein JJJ1 homolog (LOC108994190), mRNA	Juglans regia	55.6	2	100	5.0	0.000134575	69.9495	51240	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fagales;Juglandaceae;Juglans;Juglans regia	GGTCGGGATTGGATGGAGATGATGGTGAAGATGAGATGGGTATTCTGGAAGCAATGTTGGCTGGCCGAAAGAGTAGGAAAAATGCAGCTTTGAGGGTTGAGCAAGAGGATTCCTTCGTGACTGATATTCATGTGGAGAATGATGGCGATGAGGTGGAGTTCATGGAAAATGATAACCGGAAGAGCACAAGAAGGAAAGGATTAAAGATAGTGGCGGCCGTT
+TBLASTX	ds2020-328_712		220	XM_016025222	PREDICTED: Ziziphus jujuba UDP-glycosyltransferase 71A16-like (LOC107416697), mRNA	Ziziphus jujuba	49.2	2	100	10.0	0.000921494	66.907	326968	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rhamnaceae;Paliureae;Ziziphus;Ziziphus jujuba	GGTCGGGATAGACGAATCACTGTTATTCACTTCACCTGCTGGGCTTCTCGGGCTGCTGTTTAAACTGCAAAGAATTCGCGATGTGTATGGCAAGGATGTCAGTGAGTTCAAAGACTCGGACACTGAGTTGTTCCTGCCCACTTTTGTCAACTCGGTTCCCGGCAGAGTCTTGCCTAGTGTGATTCTGGACAAAGAGGGCGCGGAGACGTCTAACCCGACC
+TBLASTX	ds2020-328_713		219	NR_103121	Octadecabacter antarcticus strain 307 23S ribosomal RNA gene, complete sequence	Octadecabacter antarcticus	63.9	2	100	9.0	7.50885e-08	125.3928	1217908	cellular organisms;Bacteria;Pseudomonadota;Alphaproteobacteria;Rhodobacterales;Roseobacteraceae;Octadecabacter;Octadecabacter antarcticus	TAATACACAGTAACGGCCGCCACTAAGTGATGCTTTTGCCATTGCACTTTAGGTACGATGTCCGACCGTACCAAGCGTACCTTCGAACTCCTCCGTTACACTTTGGGAGGAGACCGCCCCAGTCAAACTGCCTACCATGCACTGTCCCCGACCCGGATAGACGGGCCAAGTGCATGCATCGTCTATCCCGACCAGGCACCTGACTCGTCTATCCCGACC
+TBLASTX	ds2020-328_714		219	XM_022683423	PREDICTED: Astyanax mexicanus extensin-like (LOC111195553), mRNA	Astyanax mexicanus	38.9	3	100	7.0	0.000926746	83.38850000000001	7994	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Actinopterygii;Actinopteri;Neopterygii;Teleostei;Osteoglossocephalai;Clupeocephala;Otomorpha;Ostariophysi;Otophysi;Characiphysae;Characiformes;Characoidei;Characidae;Stethaprioninae;Astyanax;Astyanax mexicanus	TGAATTACGGCGGTCGGGATAGACGGTGGTGAGGAGTGTGTGTTGCATGTTGGGGGATAAGAGGGCTAGAGAGAGTGTGATGAGGAGCAATGGGGCGGCAAAGGTGTTGTTGGTGATGCAAAGTGGATATGGGGAGGGGAATTTTGTGAGGAGGATGTGTGGGGATTTGATTAAAGTTTTGAGTGTTGGGTTGAGGTGTGGGGTTCGTCTATCCCGACC
+TBLASTX	ds2020-328_720		219	XM_009358309	PREDICTED: Pyrus x bretschneideri uncharacterized LOC103947399 (LOC103947399), mRNA	Pyrus x bretschneideri	58.3	1	100	9.0	1.27048e-05	55.1359	225117	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Pyrus;Pyrus x bretschneideri	GGTCGGGATAGACGATGGTAATGCATGGTCGGGATAGACGTAACCCTTCCTTGGTGGGTTGCGGGTGATTGTTGTGAAGGCCACTTTTGGAGGTCCAGTGCTGCAAAAACTGGCCTTTGTGTGCAAAAATGGGTCTTGGGACGAGGGCTGAAGGAGGGTTTGGTTGAGAAAATGGGGCGGTTAGTGCAGGCTGTTAGTGGCGGCCGTTGCTGTGTATTA
+TBLASTX	ds2020-328_727		218	XM_021800442	PREDICTED: Hevea brasiliensis probable protein phosphatase 2C 8 (LOC110646864), mRNA	Hevea brasiliensis	57.9	2	100	7.0	0.000829493	66.742	3981	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Malpighiales;Euphorbiaceae;Crotonoideae;Micrandreae;Hevea;Hevea brasiliensis	GGTGGGGCTGACGTGGCGAGGGCTTGCAGAGATAGGATGCATGAGGTGGTGGCGGAGGCAGTGGAACTGGAACGGATTTATAATAATAAGAAAGATCCGGTGGATTGGGATTGGGAGAGGGTGATGGAGGTGTGTTTTGGTAAAATGGATGAGGAGGTGAGTGGGATTGCGGCGGCCAGGAAGGTTGGGGGATACTAGGTCCACGGCTCTCTGTCCGA
+TBLASTX	ds2020-328_732		218	XM_011071805	PREDICTED: Sesamum indicum cation/H(+) antiporter 15 (LOC105155832), mRNA	Sesamum indicum	48.1	2	100	5.0	0.000125322	69.9495	4182	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Lamiales;Pedaliaceae;Sesamum;Sesamum indicum	GGTCGGGATAGACGTTTCAAGCTCCTCTAGTCGTTCCTCAACTAGGTCGGACGCGGAAAGCGCTCCACCTGAGTTCGAGCGGTTATTTGATCGAATCTGTGATGAATACGCAGAGTGGGTGGGGAGAAGCGGGAGGCAATTACCTCCCGAATGGACGGTGCCCGACCTTGTTCGGGCAGTTATTACCGACAATCGTCTATCCCGACCGCCGTAATTCA
+TBLASTX	ds2020-328_738		217	XM_013587370	Medicago truncatula hypothetical protein mRNA	Medicago truncatula	84.0	4	100	52.0	2.34732754975e-11	260.8662	3880	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Fabales;Fabaceae;Papilionoideae;50 kb inversion clade;NPAAA clade;Hologalegina;IRL clade;Trifolieae;Medicago;Medicago truncatula	GGTCGGGATAGACGGGTGCATACGCTGCGGGTCAGTTTCGGGGCGGGGGGGCAAATAGAGACCAGAAGAATGATTCATTTGGATCGACGAGCTTTTTCAGCCCCAAAACTAAGAATCAATGGAATGTCTGTCTATCCATGAATATCTATTCTATCTGTATATCTAGGGAATCACTTTATACATATAAAATTATATTATGGCATGATATGATCGCCTA
+TBLASTX	ds2020-328_740		217	
+TBLASTX	ds2020-328_744		217	XM_005973804	PREDICTED: Pantholops hodgsonii NADH-ubiquinone oxidoreductase chain 6-like (LOC102320678), mRNA	Pantholops hodgsonii	42.6	1	100	21.0	0.000740761	49.1792	59538	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Artiodactyla;Ruminantia;Pecora;Bovidae;Antilopinae;Pantholops;Pantholops hodgsonii	GGTCGGGATAGACGAAGAGAGGTCGTATTTCTTTGGGTTGGTAGTAATGGAATGGTTTCATTATCTAAAATCAAGAACATTTCCCACCAAAGGATCAGTCCAATAATACCACTCACTGGTAAATAGCGCAATACTTCTTCGTGAATCTCCGCTATTTGAATATGGAACATCATAACAACGAATAGGAATGAAACGGCATAGGTCGTCTATCCCGACC
+TBLASTX	ds2020-328_747		217	XM_022939942	PREDICTED: Stylophora pistillata succinate dehydrogenase flavoprotein subunit-like (LOC111334249), partial mRNA	Stylophora pistillata	66.7	1	100	6.0	6.31917e-06	56.0524	50429	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Cnidaria;Anthozoa;Hexacorallia;Scleractinia;Astrocoeniina;Pocilloporidae;Stylophora;Stylophora pistillata	GGTCGGGATAGACGGCGTGTTTTGGTATGTTGGGAGATATCATTATTGCCGAACCCAATGCTTACATTGCATTTGCGGGTAAAAGAGTAATTGAACAAACATTGAATAAGACAGTACCCGAGGATTCACAAGTGGCTGAATATTTATTCCATAAGGGCTTATTCGATCCAATCGTACCACGTAATCCTTTACAGGGCGTATATCGTCTATCCCGACC
+TBLASTX	ds2020-328_752		216	XM_017327497	PREDICTED: Malus x domestica uncharacterized LOC103418029 (LOC103418029), transcript variant X3, mRNA	Malus domestica	48.1	2	100	29.0	0.000919466	63.992799999999995	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	GGTCGGGATAGACGATGGGGACAATTGTCAAACGATGTGCTCCGTTTGGAAGGCGGGGACCGAGTCTCCATCCTTGTAAGGCCTGATGATGTTGATATTGTGAGAGTGAAGAAGACAGGGGTCCATCTAGAATGGGACAAAGTCATGAAGGAGAATAAATCGGATCGTCATTTGTATGATTGGGAAATAAATGGGGATTTCGCGTCTATCCCGACC
+TBLASTX	ds2020-328_753		216	NR_076523	Bacillus cytotoxicus strain NVH 391-98 23S ribosomal RNA gene, complete sequence	Bacillus cytotoxicus	68.9	4	100	11.0	6.204402906894999e-07	175.1811	580165	cellular organisms;Bacteria;Terrabacteria group;Bacillota;Bacilli;Bacillales;Bacillaceae;Bacillus;Bacillus cereus group;Bacillus cytotoxicus	GCCGTGGACCTAGTATTCATTACCCTGCCGTGGACCGTTATAGTTACGGCCGCCGTTTACTGGGACTTCAATCAAGAGCTTGCACCCCATCATTTAATCTTCCAGCACCGGGCAGGCGTCACACCCTATACGTCCACTTTCGTGTTTGCAGAGTGCTGTGTTTTTATTAAACAGTCGGGGGGGCCAGTTTATTGAACCCCTTCGTCTATCCCGACC
+TBLASTX	ds2020-328_757		216	XM_005978296	PREDICTED: Pantholops hodgsonii uncharacterized LOC102325063 (LOC102325063), mRNA	Pantholops hodgsonii	57.1	1	100	14.0	4.5934e-06	56.5106	59538	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Deuterostomia;Chordata;Craniata;Vertebrata;Gnathostomata;Teleostomi;Euteleostomi;Sarcopterygii;Dipnotetrapodomorpha;Tetrapoda;Amniota;Mammalia;Theria;Eutheria;Boreoeutheria;Laurasiatheria;Artiodactyla;Ruminantia;Pecora;Bovidae;Antilopinae;Pantholops;Pantholops hodgsonii	GTCGGGATAGACGGCGATGTAGAATCGATTGAAGCCAAAGTGAATGAAGACTTTGTGCCGGCATGGCCTTGGCTGCCGATTGGGATTGGGATGAAAATATTGCCGCTTAAAGTTATGACCAAATTTTTATAAGCGCATATCTAAAAATTTTAAACTCTCAGCATCATCAACAGCGCCTTGGCAGCTGATGACGTTTATTATCCGTCTATCCCGACC
+TBLASTX	ds2020-328_759		215	XM_019408162	PREDICTED: Nicotiana attenuata heavy metal-associated isoprenylated plant protein 41-like (LOC109241416), mRNA	Nicotiana attenuata	82.5	4	100	12.0	0.00017729	138.0662	49451	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana attenuata	CGGTCGGATAGACGATGGTCCTGGTTTGACATGGTTTACGCGTTACTGGTTCCCGGAAGAGTTAATATCTCCATTAGCTAAACCCTTTCTTACCCTGCCCTTGGACTCGTATTTTGTTTGTACACAATCAACGGAGGCCTCCCCGACATATGTTGCAACGTCTTCAATAGCATGCGCTGTTTTCGTCTATCCCGACCGCCATAATTCAGATCGGA
+TBLASTX	ds2020-328_760		215	
+TBLASTX	ds2020-328_762		215	XM_022823638	PREDICTED: Setaria italica calcineurin B-like protein 7 (LOC101773532), mRNA	Setaria italica	63.2	3	100	5.0	1.4408199999999998e-08	100.18979999999999	4555	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;Liliopsida;Petrosaviidae;commelinids;Poales;Poaceae;PACMAD clade;Panicoideae;Panicodae;Paniceae;Cenchrinae;Setaria;Setaria italica	GGTCGGGATAGACGGAACTTCTTGCTCAGCAGGCGTAGCTTGGAGGGGGAGTGTAGCGGGGGTAAGGTAAGGAAGAGCCGCCAGAGAGGAAGCCAAACCGGCCTATTAAGCGCAGCTAAGCTAATATGCGCCGGAGAAAGCCAGGTGCCGGAGGTAAGCTCTATTCGGCCCGGAGCAAAAATTCCCCATAACGAATGGACTCGACTGTCCCGACC
+TBLASTX	ds2020-328_763		215	XM_019381544	PREDICTED: Nicotiana attenuata anthocyanidin 3-O-glucosyltransferase 6-like (LOC109217303), mRNA	Nicotiana attenuata	61.0	1	100	7.0	3.09195e-09	67.0494	49451	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Solanaceae;Nicotianoideae;Nicotianeae;Nicotiana;Nicotiana attenuata	CGGTCGGGATAGACGGTGCTCTTCTCTCCAATTCATCCCCAAATACAAACCCATCTTCCTCTCTCTGCACCACAGCAATCGCCATCTCCATTTCCTTCACCAAAATACTCCTATTCATGTGCTGCTCTGCATAGAGCGGCCACGCCACCATCGACACCCCGGCGATCACCGCTTCAAGCACCGAGTTCCAGCCACGTTTATCGTCTATCCCGACC
+TBLASTX	ds2020-328_766		215	
+TBLASTX	ds2020-328_775		214	XM_017230452	PREDICTED: Drosophila eugracilis NADH-quinone oxidoreductase subunit M-like (LOC108117906), mRNA	Drosophila eugracilis	31.9	1	100	12.0	0.000539192	49.6374	29029	cellular organisms;Eukaryota;Opisthokonta;Metazoa;Eumetazoa;Bilateria;Protostomia;Ecdysozoa;Panarthropoda;Arthropoda;Mandibulata;Pancrustacea;Hexapoda;Insecta;Dicondylia;Pterygota;Neoptera;Endopterygota;Diptera;Brachycera;Muscomorpha;Eremoneura;Cyclorrhapha;Schizophora;Acalyptratae;Ephydroidea;Drosophilidae;Drosophilinae;Drosophilini;Drosophila;Sophophora;melanogaster group;eugracilis subgroup;Drosophila eugracilis	CATGTTTTGGCCTTGTGTGTCCATAACTCAAAATAGGTGACCTAACGGCCGCCGCCCGACTAAACATACCAATAGTCACCAGATTCATATGGGCTACTGAGGAGTAAGCAATGATCTTCTTAAGATCGATCTGTCTTGAAGTGGTCAAGGAAGTATATATTATAGCAATCGCGCTTGGAGTATAAATGAAAGAAGTCCCGCGTCTATCCCGACC
+TBLASTX	ds2020-328_776		214	XR_002052009	PREDICTED: Ipomoea nil uncharacterized LOC109168185 (LOC109168185), ncRNA	Ipomoea nil	85.2	2	100	38.0	0.000815059	62.6181	35883	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;asterids;lamiids;Solanales;Convolvulaceae;Ipomoeeae;Ipomoea;Ipomoea nil	TATATTAGCGCTCTCCAAGTGTGCTTGTTCCTCCCTTCTTCCTTACCATGGCAAGTCTTTGTGAAATAACTCCGATGAGAAGAAAAAAGAAGGCGTTAAGAGACCCTCCTGGCCCAACCCTAGACACTCTAAGATCCTTTTTCAAACCTGCTCCCATTTCGAGTCAAGAGATAGATAAATAGACACATCCCATTGCACTGACCGGGTTCGTTCG
+TBLASTX	ds2020-328_826		211	XM_008367882	PREDICTED: Malus x domestica F-box/kelch-repeat protein At3g06240-like (LOC103429750), transcript variant X1, mRNA	Malus domestica	76.6	6	100	15.0	0.00013627621933333335	221.7619	3750	cellular organisms;Eukaryota;Viridiplantae;Streptophyta;Streptophytina;Embryophyta;Tracheophyta;Euphyllophyta;Spermatophyta;Magnoliopsida;Mesangiospermae;eudicotyledons;Gunneridae;Pentapetalae;rosids;fabids;Rosales;Rosaceae;Amygdaloideae;Maleae;Malus;Malus domestica	GGTCGGGATAGACGTTTGGTTTGGTTATGACGAAGATAGACGGGTTTCCAGAGAAGCAATGCTGATCATTCCGTGTTCATAAAAAGGAGAAAAGAGGAAACTACTGTTCTCCTAGTGTACTCAGTTTAGAACTCTAAATTAACAAGTAAAATTTAGATATTAGTAAGATATGCAGCGAGTACGCTCGGCGAGTACGGCGTCTCTCCCGACC

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input_otu_rps_s1.tab	Sun Sep 08 14:09:19 2024 +0000
@@ -0,0 +1,45 @@
+#query_id	query_length	cdd_id	hit_id	evalue	startQ	endQ	frame	description	superkingdom
+Query_2	2436	pfam02123	gnl|CDD|280316	2.04111e-21	184	1476	1	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_4	2297	pfam00680	gnl|CDD|279070	3.12197e-05	995	1873	-2	pfam00680, RdRP_1, RNA dependent RNA polymerase.  	Viruses(1);Riboviria(1);Orthornavirae(1);Pisuviricota(1)
+Query_5	2029	pfam00680	gnl|CDD|279070	8.86955e-06	840	1706	3	pfam00680, RdRP_1, RNA dependent RNA polymerase.  	Viruses(1);Riboviria(1);Orthornavirae(1);Pisuviricota(1)
+Query_6	1860	pfam02123	gnl|CDD|280316	1.27376e-17	1147	1764	-1	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_8	1703	pfam00680	gnl|CDD|279070	3.19349e-12	685	1458	-3	pfam00680, RdRP_1, RNA dependent RNA polymerase.  	Viruses(1);Riboviria(1);Orthornavirae(1);Pisuviricota(1)
+Query_19	425	pfam00005	gnl|CDD|306511	3.70622e-07	129	275	-1	pfam00005, ABC_tran, ABC transporter.  ABC transporters for a large family of proteins responsible for translocation of a variety of compounds across biological membranes. ABC transporters are the largest family of proteins in many completely sequenced bacteria. ABC transporters are composed of two copies of this domain and two copies of a transmembrane domain pfam00664. These four domains may belong to a single polypeptide as in CFTR, or belong in different polypeptide chains.	Bacteria(2);cellular organisms(1);Terrabacteria group(1)
+Query_38	386	pfam01347	gnl|CDD|279663	0.000262768	129	275	-1	pfam01347, Vitellogenin_N, Lipoprotein amino terminal region.  This family contains regions from: Vitellogenin, Microsomal triglyceride transfer protein and apolipoprotein B-100. These proteins are all involved in lipid transport. This family contains the LV1n chain from lipovitellin, that contains two structural domains.	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_41	380	pfam04879	gnl|CDD|282703	2.77416e-08	125	274	-2	pfam04879, Molybdop_Fe4S4, Molybdopterin oxidoreductase Fe4S4 domain.  This domain is found in formate dehydrogenase H for which the structure is known. This first domain (residues 1 to 60) of Structure 1aa6 is an Fe4S4 cluster just below the protein surface.	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_42	379	pfam16203	gnl|CDD|318443	8.05104e-30	131	280	-1	pfam16203, ERCC3_RAD25_C, ERCC3/RAD25/XPB C-terminal helicase.  This is the C-terminal helicase domain of ERCC3, RAD25 and XPB helicases.	cellular organisms(2);Bacteria(1);Terrabacteria group(1)
+Query_44	376	pfam00401	gnl|CDD|306831	6.62013e-05	81	215	-3	pfam00401, ATP-synt_DE, ATP synthase, Delta/Epsilon chain, long alpha-helix domain.  Part of the ATP synthase CF(1). These subunits are part of the head unit of the ATP synthase. This subunit is called epsilon in bacteria and delta in mitochondria. In bacteria the delta (D) subunit is equivalent to the mitochondrial Oligomycin sensitive subunit, OSCP (pfam00213).	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_58	347	pfam00471	gnl|CDD|306877	8.86568e-13	132	302	3	pfam00471, Ribosomal_L33, Ribosomal protein L33.  	cellular organisms(2);Bacteria(1);Eukaryota(1)
+Query_61	344	pfam00252	gnl|CDD|306711	1.17482e-22	107	295	2	pfam00252, Ribosomal_L16, Ribosomal protein L16p/L10e.  	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_62	343	pfam00421	gnl|CDD|306845	7.93928e-41	92	337	-1	pfam00421, PSII, Photosystem II protein.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_64	339	pfam01333	gnl|CDD|307480	0.000362606	197	325	-3	pfam01333, Apocytochr_F_C, Apocytochrome F, C-terminal.  This is a sub-family of cytochrome C. See pfam00034.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_74	330	pfam00680	gnl|CDD|279070	4.51414e-05	124	282	1	pfam00680, RdRP_1, RNA dependent RNA polymerase.  	Viruses(1);Riboviria(1);Orthornavirae(1);Pisuviricota(1)
+Query_83	320	pfam05860	gnl|CDD|310447	1.29746e-13	167	298	2	pfam05860, Haemagg_act, haemagglutination activity domain.  This domain is suggested to be a carbohydrate- dependent haemagglutination activity site. It is found in a range of haemagglutinins and haemolysins.	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_87	252	pfam00585	gnl|CDD|278982	1.42752e-05	29	166	2	pfam00585, Thr_dehydrat_C, C-terminal regulatory domain of Threonine dehydratase.  Threonine dehydratases pfam00291 all contain a carboxy terminal region. This region may have a regulatory role. Some members contain two copies of this region. This family is homologous to the pfam01842 domain.	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_90	251	pfam13188	gnl|CDD|315779	0.000739897	32	241	2	pfam13188, PAS_8, PAS domain.  	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_91	251	pfam02123	gnl|CDD|280316	3.2928e-08	28	228	-3	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_93	251	pfam00252	gnl|CDD|306711	7.50297e-12	78	206	-1	pfam00252, Ribosomal_L16, Ribosomal protein L16p/L10e.  	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_98	250	pfam00227	gnl|CDD|306690	4.91252e-09	10	150	-2	pfam00227, Proteasome, Proteasome subunit.  The proteasome is a multisubunit structure that degrades proteins. Protein degradation is an essential component of regulation because proteins can become misfolded, damaged, or unnecessary. Proteasomes and their homologs vary greatly in complexity: from HslV (heat shock locus v), which is encoded by 1 gene in bacteria, to the eukaryotic 20S proteasome, which is encoded by more than 14 genes. Recently evidence of two novel groups of bacterial proteasomes was proposed. The first is Anbu, which is sparsely distributed among cyanobacteria and proteobacteria. The second is call beta-proteobacteria proteasome homolog (BPH).	cellular organisms(2);Eukaryota(1);Opisthokonta(1)
+Query_104	249	pfam13173	gnl|CDD|315764	2.6724e-08	106	249	1	pfam13173, AAA_14, AAA domain.  This family of domains contain a P-loop motif that is characteristic of the AAA superfamily.	Bacteria(2);cellular organisms(1);FCB group(1)
+Query_111	248	pfam00113	gnl|CDD|278539	3.9331e-13	15	116	-1	pfam00113, Enolase_C, Enolase, C-terminal TIM barrel domain.  	cellular organisms(2);Bacteria(2)
+Query_127	245	pfam00946	gnl|CDD|307203	3.13472e-05	1	141	1	pfam00946, Mononeg_RNA_pol, Mononegavirales RNA dependent RNA polymerase.  Members of the Mononegavirales including the Paramyxoviridae, like other non-segmented negative strand RNA viruses, have an RNA-dependent RNA polymerase composed of two subunits, a large protein L and a phosphoprotein P. This is a protein family of the L protein. The L protein confers the RNA polymerase activity on the complex. The P protein acts as a transcription factor.	Viruses(1);Riboviria(1);Orthornavirae(1);Negarnaviricota(1)
+Query_138	243	pfam00416	gnl|CDD|306841	5.30772e-05	15	134	-2	pfam00416, Ribosomal_S13, Ribosomal protein S13/S18.  This family includes ribosomal protein S13 from prokaryotes and S18 from eukaryotes.	cellular organisms(2);Bacteria(2)
+Query_139	243	pfam00216	gnl|CDD|306682	1.89202e-10	134	241	-3	pfam00216, Bac_DNA_binding, Bacterial DNA-binding protein.  	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_140	243	pfam13041	gnl|CDD|315669	0.000344884	134	241	-3	pfam13041, PPR_2, PPR repeat family.  This repeat has no known function. It is about 35 amino acids long and is found in up to 18 copies in some proteins. The family appears to be greatly expanded in plants and fungi. The repeat has been called PPR.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_144	243	pfam12137	gnl|CDD|314930	3.71293e-05	137	217	-3	pfam12137, RapA_C, RNA polymerase recycling family C-terminal.  This domain is found in bacteria. This domain is about 360 amino acids in length. This domain is found associated with pfam00271, pfam00176. The function of this domain is not known, but structurally it forms an alpha-beta fold in nature with a central beta-sheet flanked by helices and loops, the beta-sheet being mainly antiparallel and flanked by four alpha helices, among which the two longer helices exhibit a coiled-coil arrangement.	cellular organisms(1);Bacteria(1);Pseudomonadota(1);Gammaproteobacteria(1)
+Query_145	242	pfam00146	gnl|CDD|306623	2.12078e-10	22	111	1	pfam00146, NADHdh, NADH dehydrogenase.  	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_149	242	pfam00124	gnl|CDD|306604	4.44151e-07	21	125	3	pfam00124, Photo_RC, Photosynthetic reaction centre protein.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_163	241	pfam02123	gnl|CDD|280316	5.78854e-08	35	214	-1	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_177	239	pfam06122	gnl|CDD|310603	1.30391e-05	29	172	2	pfam06122, TraH, Conjugative relaxosome accessory transposon protein.  The TraH protein is thought to be a relaxosome accessory component, also necessary for transfer but not for H-pilus synthesis within the conjugative transposon.	cellular organisms(1);Bacteria(1);Pseudomonadota(1);Gammaproteobacteria(1)
+Query_179	239	pfam00361	gnl|CDD|306795	3.63199e-05	70	219	1	pfam00361, Proton_antipo_M, Proton-conducting membrane transporter.  This is a family of membrane transporters that inlcudes some 7 of potentially 14-16 TM regions. In many instances the family forms part of complex I that catalyzes the transfer of two electrons from NADH to ubiquinone in a reaction that is associated with proton translocation across the membrane, and in this context is a combination predominantly of subunits 2, 4, 5, 14, L, M and N. In many bacterial species these proteins are probable stand-alone transporters not coupled with oxidoreduction. The family in total represents homologs across the phyla.	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_182	239	pfam00177	gnl|CDD|306646	1.05327e-06	28	126	1	pfam00177, Ribosomal_S7, Ribosomal protein S7p/S5e.  This family contains ribosomal protein S7 from prokaryotes and S5 from eukaryotes.	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_202	235	pfam03154	gnl|CDD|308660	0.000842762	28	126	1	pfam03154, Atrophin-1, Atrophin-1 family.  Atrophin-1 is the protein product of the dentatorubral-pallidoluysian atrophy (DRPLA) gene. DRPLA OMIM:125370 is a progressive neurodegenerative disorder. It is caused by the expansion of a CAG repeat in the DRPLA gene on chromosome 12p. This results in an extended polyglutamine region in atrophin-1, that is thought to confer toxicity to the protein, possibly through altering its interactions with other proteins. The expansion of a CAG repeat is also the underlying defect in six other neurodegenerative disorders, including Huntington's disease. One interaction of expanded polyglutamine repeats that is thought to be pathogenic is that with the short glutamine repeat in the transcriptional coactivator CREB binding protein, CBP. This interaction draws CBP away from its usual nuclear location to the expanded polyglutamine repeat protein aggregates that are characteristic of the polyglutamine neurodegenerative disorders. This interferes with CBP-mediated transcription and causes cytotoxicity.	Eukaryota(1);cellular organisms(1);Opisthokonta(1);Metazoa(1)
+Query_203	235	pfam00164	gnl|CDD|278589	1.83229e-23	3	182	3	pfam00164, Ribosom_S12_S23, Ribosomal protein S12/S23.  This protein is known as S12 in bacteria and archaea and S23 in eukaryotes.	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_211	234	pfam00155	gnl|CDD|306629	0.000251531	3	182	3	pfam00155, Aminotran_1_2, Aminotransferase class I and II.  	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_219	233	pfam00680	gnl|CDD|279070	0.000703744	3	182	3	pfam00680, RdRP_1, RNA dependent RNA polymerase.  	Viruses(1);Riboviria(1);Orthornavirae(1);Pisuviricota(1)
+Query_232	231	pfam00481	gnl|CDD|306885	0.00063843	3	182	3	pfam00481, PP2C, Protein phosphatase 2C.  Protein phosphatase 2C is a Mn++ or Mg++ dependent protein serine/threonine phosphatase.	Eukaryota(2);cellular organisms(1);Viridiplantae(1)
+Query_241	230	pfam00072	gnl|CDD|306560	5.30837e-08	50	208	2	pfam00072, Response_reg, Response regulator receiver domain.  This domain receives the signal from the sensor partner in bacterial two-component systems. It is usually found N-terminal to a DNA binding effector domain.	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_246	230	pfam00201	gnl|CDD|278624	2.93544e-07	46	210	1	pfam00201, UDPGT, UDP-glucoronosyl and UDP-glucosyl transferase.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophytina(1)
+Query_261	228	pfam17035	gnl|CDD|319097	3.87403e-09	108	203	3	pfam17035, BET, Bromodomain extra-terminal - transcription regulation.  The BET, or bromodomain extra-terminal domain, is found on bromodomain proteins that play key roles in development, cancer progression and virus-host pathogenesis. It interacts with NSD3, JMJD6, CHD4, GLTSCR1, and ATAD5 all of which are shown to impart a pTEFb-independent transcriptional activation function on the bromodomain proteins.	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_280	207	pfam04061	gnl|CDD|309259	7.30581e-19	1	159	1	pfam04061, ORMDL, ORMDL family.  Evidence form suggests that ORMDLs are involved in protein folding in the ER. Orm proteins have been identified as negative regulators of sphingolipid synthesis that form a conserved complex with serine palmitoyltransferase, the first and rate-limiting enzyme in sphingolipid production. This novel and conserved protein complex, has been termed the SPOTS complex (serine palmitoyltransferase, Orm1/2, Tsc3, and Sac1).	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_326	206	pfam10775	gnl|CDD|313884	0.00091969	1	159	1	pfam10775, ATP_sub_h, ATP synthase complex subunit h.  Subunit h is a component of the yeast mitochondrial F1-F0 ATP synthase. It is essential for the correct assembly and functioning of this enzyme. Subunit h occupies a central place in the peripheral stalk between the F1 sector and the membrane.	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Fungi(1)

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input_otu_rps_s2.tab	Sun Sep 08 14:09:19 2024 +0000
@@ -0,0 +1,50 @@
+#query_id	query_length	cdd_id	hit_id	evalue	startQ	endQ	frame	description	superkingdom
+Query_1	2975	pfam02874	gnl|CDD|308490	6.56656e-19	2202	2405	-1	pfam02874, ATP-synt_ab_N, ATP synthase alpha/beta family, beta-barrel domain.  This family includes the ATP synthase alpha and beta subunits the ATP synthase associated with flagella.	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_8	1120	pfam00146	gnl|CDD|306623	6.73934e-18	936	1097	-3	pfam00146, NADHdh, NADH dehydrogenase.  	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_19	872	pfam01443	gnl|CDD|307550	7.69575e-33	10	696	-3	pfam01443, Viral_helicase1, Viral (Superfamily 1) RNA helicase.  Helicase activity for this family has been demonstrated and NTPase activity. This helicase has multiple roles at different stages of viral RNA replication, as dissected by mutational analysis.	Viruses(1);Riboviria(1);Orthornavirae(1);Kitrinoviricota(1)
+Query_22	847	pfam13456	gnl|CDD|316018	1.2307e-09	176	397	2	pfam13456, RVT_3, Reverse transcriptase-like.  This domain is found in plants and appears to be part of a retrotransposon.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_30	681	pfam00416	gnl|CDD|306841	7.7464e-31	92	409	-3	pfam00416, Ribosomal_S13, Ribosomal protein S13/S18.  This family includes ribosomal protein S13 from prokaryotes and S18 from eukaryotes.	cellular organisms(2);Bacteria(2)
+Query_36	644	pfam00078	gnl|CDD|306564	2.13234e-08	190	636	-3	pfam00078, RVT_1, Reverse transcriptase (RNA-dependent DNA polymerase).  A reverse transcriptase gene is usually indicative of a mobile element such as a retrotransposon or retrovirus. Reverse transcriptases occur in a variety of mobile elements, including retrotransposons, retroviruses, group II introns, bacterial msDNAs, hepadnaviruses, and caulimoviruses.	Viruses(1);Riboviria(1);Pararnavirae(1);Artverviricota(1)
+Query_40	623	pfam00346	gnl|CDD|306783	6.5049e-56	191	496	-2	pfam00346, Complex1_49kDa, Respiratory-chain NADH dehydrogenase, 49 Kd subunit.  	cellular organisms(2);Bacteria(1);Eukaryota(1)
+Query_43	620	pfam00115	gnl|CDD|306596	2.19638e-51	78	548	3	pfam00115, COX1, Cytochrome C and Quinol oxidase polypeptide I.  	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_45	598	pfam00115	gnl|CDD|306596	4.78609e-34	21	302	3	pfam00115, COX1, Cytochrome C and Quinol oxidase polypeptide I.  	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_50	458	pfam02123	gnl|CDD|280316	1.82963e-26	27	443	-1	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_51	458	pfam03732	gnl|CDD|309014	1.12045e-06	256	441	1	pfam03732, Retrotrans_gag, Retrotransposon gag protein.  Gag or Capsid-like proteins from LTR retrotransposons. There is a central motif QGXXEXXXXXFXXLXXH that is common to Retroviridae gag-proteins, but is poorly conserved.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_53	454	pfam14111	gnl|CDD|316622	3.40587e-07	213	353	3	pfam14111, DUF4283, Domain of unknown function (DUF4283).  This domain family is found in plants, and is approximately 100 amino acids in length. Considering the very diverse range of other domains it is associated with it is possible that this domain is a binding/guiding region. There are two highly conserved tryptophan residues.	cellular organisms(1);Eukaryota(1);Streptophytina(1);Viridiplantae(1)
+Query_58	446	pfam01348	gnl|CDD|279664	1.01441e-09	40	303	-3	pfam01348, Intron_maturas2, Type II intron maturase.  Group II introns use intron-encoded reverse transcriptase, maturase and DNA endonuclease activities for site-specific insertion into DNA. Although this type of intron is self splicing in vitro they require a maturase protein for splicing in vivo. It has been shown that a specific region of the aI2 intron is needed for the maturase function. This region was found to be conserved in group II introns and called domain X.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_61	442	pfam02123	gnl|CDD|280316	1.50074e-23	115	429	-2	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_65	433	pfam00253	gnl|CDD|306712	1.66195e-07	329	415	2	pfam00253, Ribosomal_S14, Ribosomal protein S14p/S29e.  This family includes both ribosomal S14 from prokaryotes and S29 from eukaryotes.	cellular organisms(2);Bacteria(1);Eukaryota(1)
+Query_67	426	pfam00078	gnl|CDD|306564	9.00965e-09	268	405	-1	pfam00078, RVT_1, Reverse transcriptase (RNA-dependent DNA polymerase).  A reverse transcriptase gene is usually indicative of a mobile element such as a retrotransposon or retrovirus. Reverse transcriptases occur in a variety of mobile elements, including retrotransposons, retroviruses, group II introns, bacterial msDNAs, hepadnaviruses, and caulimoviruses.	Viruses(1);Riboviria(1);Pararnavirae(1);Artverviricota(1)
+Query_70	424	pfam00665	gnl|CDD|307008	1.57397e-23	93	413	3	pfam00665, rve, Integrase core domain.  Integrase mediates integration of a DNA copy of the viral genome into the host chromosome. Integrase is composed of three domains. The amino-terminal domain is a zinc binding domain pfam02022. This domain is the central catalytic domain. The carboxyl terminal domain that is a non-specific DNA binding domain pfam00552. The catalytic domain acts as an endonuclease when two nucleotides are removed from the 3' ends of the blunt-ended viral DNA made by reverse transcription. This domain also catalyzes the DNA strand transfer reaction of the 3' ends of the viral DNA to the 5' ends of the integration site.	cellular organisms(2);Viruses(1)
+Query_76	406	pfam00361	gnl|CDD|306795	9.79473e-05	212	379	2	pfam00361, Proton_antipo_M, Proton-conducting membrane transporter.  This is a family of membrane transporters that inlcudes some 7 of potentially 14-16 TM regions. In many instances the family forms part of complex I that catalyzes the transfer of two electrons from NADH to ubiquinone in a reaction that is associated with proton translocation across the membrane, and in this context is a combination predominantly of subunits 2, 4, 5, 14, L, M and N. In many bacterial species these proteins are probable stand-alone transporters not coupled with oxidoreduction. The family in total represents homologs across the phyla.	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_88	372	pfam02123	gnl|CDD|280316	7.63867e-10	160	363	-1	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_108	229	pfam02123	gnl|CDD|280316	5.2142e-12	25	213	-2	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_111	229	pfam00421	gnl|CDD|306845	5.07684e-21	15	218	3	pfam00421, PSII, Photosystem II protein.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_114	229	pfam05518	gnl|CDD|253234	1.06567e-09	26	229	2	pfam05518, Totivirus_coat, Totivirus coat protein.  	Viruses(1);Riboviria(1);Duplornaviricota(1);Orthornavirae(1)
+Query_118	228	pfam01333	gnl|CDD|307480	2.57329e-21	54	218	3	pfam01333, Apocytochr_F_C, Apocytochrome F, C-terminal.  This is a sub-family of cytochrome C. See pfam00034.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_123	228	pfam00006	gnl|CDD|306512	7.83347e-19	20	211	2	pfam00006, ATP-synt_ab, ATP synthase alpha/beta family, nucleotide-binding domain.  This entry includes the ATP synthase alpha and beta subunits, the ATP synthase associated with flagella and the termination factor Rho.	cellular organisms(2);Bacteria(2)
+Query_125	228	pfam00421	gnl|CDD|306845	1.91926e-10	23	226	-3	pfam00421, PSII, Photosystem II protein.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_138	226	pfam00421	gnl|CDD|306845	4.1109e-19	14	193	2	pfam00421, PSII, Photosystem II protein.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_139	226	pfam01660	gnl|CDD|307679	1.36829e-05	15	209	3	pfam01660, Vmethyltransf, Viral methyltransferase.  This RNA methyltransferase domain is found in a wide range of ssRNA viruses, including Hordei-, Tobra-, Tobamo-, Bromo-, Clostero- and Caliciviruses. This methyltransferase is involved in mRNA capping. Capping of mRNA enhances its stability. This usually occurs in the nucleus. Therefore, many viruses that replicate in the cytoplasm encode their own. This is a specific guanine-7-methyltransferase domain involved in viral mRNA cap0 synthesis. Specificity for guanine 7 position is shown by NMR in and in vivo role in cap synthesis. Based on secondary structure prediction, the basic fold is believed to be similar to the common AdoMet-dependent methyltransferase fold. A curious feature of this methyltransferase domain is that it together with flanking sequences seems to have guanylyltransferase activity coupled to the methyltransferase activity. The domain is found throughout the so-called Alphavirus superfamily, (including alphaviruses and several other groups). It forms the defining, unique feature of this superfamily.	Viruses(1);Riboviria(1);Orthornavirae(1);Kitrinoviricota(1)
+Query_148	225	pfam13041	gnl|CDD|315669	1.22135e-07	54	185	-2	pfam13041, PPR_2, PPR repeat family.  This repeat has no known function. It is about 35 amino acids long and is found in up to 18 copies in some proteins. The family appears to be greatly expanded in plants and fungi. The repeat has been called PPR.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_155	225	pfam04392	gnl|CDD|282274	7.01878e-09	28	177	-1	pfam04392, ABC_sub_bind, ABC transporter substrate binding protein.  This family contains many hypothetical proteins and some ABC transporter substrate binding proteins.	Bacteria(2);cellular organisms(1);Terrabacteria group(1)
+Query_168	224	pfam00223	gnl|CDD|306687	7.46218e-21	41	205	-2	pfam00223, PsaA_PsaB, Photosystem I psaA/psaB protein.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_171	223	pfam13683	gnl|CDD|316225	0.000987396	41	205	-2	pfam13683, rve_3, Integrase core domain.  	Bacteria(2);cellular organisms(1);Terrabacteria group(1)
+Query_173	223	pfam01809	gnl|CDD|307773	1.03441e-07	121	189	-2	pfam01809, Haemolytic, Haemolytic domain.  This domain has haemolytic activity. It is found in short (73-103 amino acid) proteins and contains three conserved cysteine residues.	Bacteria(2);cellular organisms(1);Terrabacteria group(1)
+Query_189	222	pfam02468	gnl|CDD|280606	3.26069e-17	22	123	1	pfam02468, PsbN, Photosystem II reaction centre N protein (psbN).  This is a family of small proteins encoded on the chloroplast genome. psbN is involved in photosystem II during photosynthesis, but its exact role is unknown.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_191	222	pfam00978	gnl|CDD|250270	1.6261e-12	24	206	-2	pfam00978, RdRP_2, RNA dependent RNA polymerase.  This family may represent an RNA dependent RNA polymerase. The family also contains the following proteins: 2A protein from bromoviruses putative RNA dependent RNA polymerase from tobamoviruses Non structural polyprotein from togaviruses.	Viruses(1);Riboviria(1);Orthornavirae(1);Kitrinoviricota(1)
+Query_195	222	pfam00562	gnl|CDD|306936	2.01964e-09	26	145	-3	pfam00562, RNA_pol_Rpb2_6, RNA polymerase Rpb2, domain 6.  RNA polymerases catalyze the DNA dependent polymerization of RNA. Prokaryotes contain a single RNA polymerase compared to three in eukaryotes (not including mitochondrial. and chloroplast polymerases). This domain represents the hybrid binding domain and the wall domain. The hybrid binding domain binds the nascent RNA strand / template DNA strand in the Pol II transcription elongation complex. This domain contains the important structural motifs, switch 3 and the flap loop and binds an active site metal ion. This domain is also involved in binding to Rpb1 and Rpb3. Many of the bacterial members contain large insertions within this domain, as region known as dispensable region 2 (DRII).	cellular organisms(2);Eukaryota(1);Viridiplantae(1)
+Query_201	222	pfam00201	gnl|CDD|278624	0.000513014	26	145	-3	pfam00201, UDPGT, UDP-glucoronosyl and UDP-glucosyl transferase.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophytina(1)
+Query_203	222	pfam02670	gnl|CDD|308348	4.98265e-14	25	135	1	pfam02670, DXP_reductoisom, 1-deoxy-D-xylulose 5-phosphate reductoisomerase.  This is a family of 1-deoxy-D-xylulose 5-phosphate reductoisomerases. This enzyme catalyzes the formation of 2-C-methyl-D-erythritol 4-phosphate from 1-deoxy-D-xylulose-5-phosphate in the presence of NADPH. This reaction is part of the terpenoid biosynthesis pathway.	Bacteria(2);cellular organisms(1);Pseudomonadota(1)
+Query_205	221	pfam00329	gnl|CDD|306769	1.68456e-18	81	197	-1	pfam00329, Complex1_30kDa, Respiratory-chain NADH dehydrogenase, 30 Kd subunit.  	cellular organisms(2);Bacteria(1);Eukaryota(1)
+Query_218	220	pfam05724	gnl|CDD|310379	3.15883e-08	38	196	2	pfam05724, TPMT, Thiopurine S-methyltransferase (TPMT).  This family consists of thiopurine S-methyltransferase proteins from both eukaryotes and prokaryotes. Thiopurine S-methyltransferase (TPMT) is a cytosolic enzyme that catalyzes S-methylation of aromatic and heterocyclic sulfhydryl compounds, including anticancer and immunosuppressive thiopurines.	cellular organisms(2);Bacteria(1);Eukaryota(1)
+Query_238	219	pfam02123	gnl|CDD|280316	1.42892e-13	35	199	-3	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_260	217	pfam02123	gnl|CDD|280316	4.65988e-13	13	210	-2	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_264	216	pfam02123	gnl|CDD|280316	7.05387e-17	8	214	-3	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_275	215	pfam02123	gnl|CDD|280316	3.8356e-09	37	198	-3	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_277	215	pfam00201	gnl|CDD|278624	5.96981e-07	113	193	-2	pfam00201, UDPGT, UDP-glucoronosyl and UDP-glucosyl transferase.  	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophytina(1)
+Query_282	215	pfam02123	gnl|CDD|280316	4.70874e-08	33	209	3	pfam02123, RdRP_4, Viral RNA-directed RNA-polymerase.  This family includes RNA-dependent RNA polymerase proteins (RdRPs) from Luteovirus, Totivirus and Rotavirus.	Viruses(1);Riboviria(1);Orthornavirae(1);Duplornaviricota(1)
+Query_289	214	pfam00361	gnl|CDD|306795	1.62395e-10	59	196	-1	pfam00361, Proton_antipo_M, Proton-conducting membrane transporter.  This is a family of membrane transporters that inlcudes some 7 of potentially 14-16 TM regions. In many instances the family forms part of complex I that catalyzes the transfer of two electrons from NADH to ubiquinone in a reaction that is associated with proton translocation across the membrane, and in this context is a combination predominantly of subunits 2, 4, 5, 14, L, M and N. In many bacterial species these proteins are probable stand-alone transporters not coupled with oxidoreduction. The family in total represents homologs across the phyla.	cellular organisms(1);Eukaryota(1);Opisthokonta(1);Metazoa(1)
+Query_292	211	pfam05892	gnl|CDD|283531	0.000183874	59	196	-1	pfam05892, Tricho_coat, Trichovirus coat protein.  This family consists of several coat proteins which are specific to the ssRNA positive-strand, no DNA stage viruses such as the Trichovirus and Vitivirus.	Viruses(1);Kitrinoviricota(1);Orthornavirae(1);Tymovirales(1)
+Query_293	211	pfam07727	gnl|CDD|311594	9.19953e-05	43	120	1	pfam07727, RVT_2, Reverse transcriptase (RNA-dependent DNA polymerase).  A reverse transcriptase gene is usually indicative of a mobile element such as a retrotransposon or retrovirus. Reverse transcriptases occur in a variety of mobile elements, including retrotransposons, retroviruses, group II introns, bacterial msDNAs, hepadnaviruses, and caulimoviruses. This Pfam entry includes reverse transcriptases not recognized by the pfam00078 model.	cellular organisms(1);Eukaryota(1);Viridiplantae(1);Streptophyta(1)
+Query_297	211	pfam00978	gnl|CDD|250270	2.21971e-14	16	201	1	pfam00978, RdRP_2, RNA dependent RNA polymerase.  This family may represent an RNA dependent RNA polymerase. The family also contains the following proteins: 2A protein from bromoviruses putative RNA dependent RNA polymerase from tobamoviruses Non structural polyprotein from togaviruses.	Viruses(1);Riboviria(1);Orthornavirae(1);Kitrinoviricota(1)

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input_otu_s1.fasta	Sun Sep 08 14:09:19 2024 +0000
@@ -0,0 +1,2368 @@
+>ds2020-267_1
+CAGCACGTCCGCAAAAGGTCCTCGCTCCAAAACTGTCTCATCATCTCTATCGTGCCCTGA
+CCCGTTTTCATCTTTGTACCTAGCTCTACTTCTTCTATCCTTGTTGGCACTTCTATCGCC
+ATTACCCTCGCTATGTTGCCACGTTGTCCGTTGACCATAGGCCGCCACATCCTATAATGC
+CTCATGTCTCCAACTACTGCCCCACTCATTGTTATCTCTGTGTATACTGGACATGTTTGC
+CCTCTGTCTGGCCACAGCAGATTGGCTGCGGCTATAAACTTGTACAGTTTCACCTCGTCG
+TCATGTGGTGTCAGCACTATGTTCTTATCTATCACGACTCTAGCTTCATGTGGAAAGCAG
+TTCTCCTGATCTACCGGTATTCTGTGTAGTGAACCATACCCTAGGTGGCAACAGGGCAAC
+GACATGTGCACCAAATTCACGTGCGTGACTAGAGGCCTCTTGAAGTACATCTTCGCACGG
+TATTCAAACTCCGTTTGCATCATCCTTCCTTTCACACCTGCCACAATTGGGTTCCTGATG
+TGAAATTCTCCATATTCTAGTGACATTTCTAGGTTCACTGGCGTCACCAGGAACCCCAGC
+ATGTTTGACAGCCACGGCACCACTGCGTTGAATGTTGATAGCTCTCCAAGGTGTTGGTGC
+AGCTCACCAAGTCTGCAGTTCCTGAAGGAGTGTGGCAGTCTAATATCCAACTCCCTCACT
+TCAGACAGCTCCCAATGCCATATAGGAAAGTCTATGAAACTGCCTCTAATTGTGTTCTTA
+TCTTTCGTCTGCTTGAAGGAAGTACATCCCAGGCACACACAGTACCTCGTCACATCTCTG
+AAAGTTGCCTGACCAGGTGCAAACGTGGGTGGAGGCTGTGGTATCTTTGGTTCAATCAAC
+CTTATTATTTCAGCAGGTGCTATCCTGGTGAACATGTCTGCCTGTTTTGCCAGTTTCAGC
+AAAGAGTGCTCATCACCCTGCTTCTTGAATAGGCAGAAATGCGGCCCTGTGACATTGTGT
+TTGTGCCCACAGCTCAGCTTCAGCTGGCTATTCTGTGTAGAGTTGCCAAACCAGTTTATC
+TTTTCGCCGTAGTACATCCACCTACTTGGGTGCATTTCTTCTTCGTTAAGTGGCATGCCT
+TTCACCATCCCTTGCATAACCTGGGCCTCGGTATTGATGCCGTGTTCGTGGTCAAAAATA
+GGGCACTTGCCCTCTGCACCGCATGACATCAACGGCATGCCTTGCCATTTCCCGGTCAGT
+TCCTGGCAATTTTCAGGTGTCGGTGGTACCAGTGAGGTTCCTCCGCGCTTGAAAGTGTCA
+TCGTCATCACTCTGCTCTTCCATTATGTGACGTCTTATCCTTCCTAGCTCCTCTCTCGCT
+CGCTCAGTTCTGTAAGCCTTTTCTTCTTTTCTGTTCATCCATGGCACGTCCCATGATCGT
+GCGTCTTTTTCCCTTTGTTCCGAACTCGTGTCTGTTTGTGAATCGACAAACTCTTTCGCC
+TGCCTCAATTTTTCAGCCACATCATCACACTCGATTCTCACTTCTGGCTCTAGCACGACA
+TGCCCCTCACCTATAAGCAGGTTCTTCATGGTGTCCGCCCCCTCTGTATCTGACTCTGAC
+GCTTCGTCCTGCGTCTTAACAGGGCTTGGTGTAGGGCCACCATCGAACGTGACGTCAGTT
+TCTTGCTCTACATCCACCTCAACACTCAGCTTCTTAGAGTGAGCGCTTTTCCGTTCAGTG
+AACTTGTAGACCAACATGTTTGCGTTGTACATGAGCTGTCCCCTTATGTCTTCCGATTTG
+TCGCTTGGCCTACGCTGTTTCTGATCGAGCGCCTCGTCAACGTATTCAATGTCTGCTACG
+TGCTCAGTGCTCATCATCTTGGCGTCTATTACGTCCTCGATTGACGGTGTCCTCTTTAGA
+GTCTTCACCTCTAGTGTTCCGTCAACCACGACACCTGCCTCTTCGATTGCCTGGTTGCAC
+AGCGCGCACGACACAAGCTGCTTGCACTTCCTGCACACATGCTGCATTTTTATGTATCCA
+CAGCAACTTGTTTGGCACGGTGAAGACATCCTGACACACTTCTTGTTCTTCACCCTCGTC
+TTGGGGGTGCTCATCACTTCATGGACAGACTTGATATTGCGTTGCCCTTTTTGACCGGTT
+TCAGCCACACATACTTGATACGTGTGCACCAGGCTCAAGTAGTTTGGCCAGTTTGCATCA
+GCTGCCACCACCAGTGACGCAACATACCTCACACGCGGTGAGTAGTTAGCAAACAAAGTG
+TGTACCTGCTCCAATCTAGCAGCAGGTGTCATCTCGGTGCTGTTGAGTTTCTCATCCTTG
+TATTTTAAACCCCTTTTGGTCAAAGTGAGGGCGTAACCGGTGCAGGCGTGCCATACTAGT
+CTTGAAAGTGACCGTTTTGCGTGCTTGGTCAGTGGCAAGTAATAAACTTGCTTCGCATGT
+TCGAAAGCCCTCTTACTATGCCAGGTGTACTCGAGTTCACTTTCTTCTGCCAGCAGTGCT
+GCTGCATCTAGCCATTCTTACATGTCAGACTGATCAACGTACTGGCCTCCTGTTGCGGAC
+GTGCTGNNNNNNNNNNATCTAAGGAGCAGCACGTCCGCAATGATGGCCCCATACAGTAGT
+GATTTCTTGTCGAAACCACCAAATTCGAACACTGGCCTGTTGATACTTGAGCTAGTGATC
+AACATCTTAGCGTTTTCTGTCTCTGCAGTGAAAACAGACCTGTACGTTGCAGCTCCAATA
+ATGAGCTGTTTCAAATCCATTTGCTTGTCGTGCCATTTGGTCGGTGACACACATATTCCT
+CTCTTGGTTCTGATGCACATTAGCGCTCTGTACAAGTTTACGACTGACGCTGCTCCTGTC
+ACGTCGTTGATTGCTGACGTCAGTGACGCAAGGAACATCGATTTTGACGCCTGAGTTCCT
+ATTGGCCTACCGCTTGACGTCACCGGAACTGCAATCCTGCAGTTGCTATTTGTGGTAACA
+GCNNNNNNNNNNCAGCACGTCCGCAATTGCCTTCCATTGGGTTGCCAACTCCCAGTACCT
+TTTCGTCACTCACCCTCAGTTCGAAGCCATATCGCCTGAGTTCTGGTGCGATAGCCATCA
+CTCTCGCTTCTGCTCCCATTAACTGACCATTTATGATGTTGACATCAGATCTGTCGTTGC
+CATCAGCAACGCAAGCGTCATCAACCCATGCCATCAGCGAGTTCAATGCTCCTGCCGTTG
+CCCTCGCTGCTGATACATTAGTCAGCAGCACGCCTGCCTCATTTTGAGGGCCTTGGACAT
+ACTCATCATGTTGCGATGTCACCGAACAAGCGTAGCTACCTTCAGACTGAACGTCAGTAG
+TGTACCTGGTGCGCACTGCGCTACCTAGCACACTATCTGAAGTCAAAGCGCTTCTCGAGC
+TCATTATGCCCGCCCGCATGAAAGGTTCATCTTTGTCAACCACTTCATAAACACCATGAC
+CCGTCGGAGTTACAACGCTCTCGTCATGCTGCTTGTGTTTGCCACCAAAACCAGCGTATC
+TGTTGGTGGCGATTATTGGCGTGACTCTTGCTGCGACTGATTTTTCAGCAGAGTTGTATT
+GAAAAACTGGTACGCCCATCTTGTACAGTTGGCTGCAATGTCCCAA
+>ds2020-267_2
+CAGCACGTCCGCAACAGTTGGTCCTTGCTAACAGTAATGGCGACTTGTGGACACGCATGG
+GCGCCTTGCATGGACAAAGTTCTGCAGTGGCCTGACATAACGAACACGTTTATGTCATCA
+CTACTACTTGCCATGGCTGCACTACCACCAGAGTTATATGTACTAATGGTGGAGTGGAAC
+GGCTGGGCAAAGTGTGGCTCTATGGCAGAGTACATCGTAGAGGCAAAAAACCTGACGACT
+AAGATGAAGGCACTGGACAACCAGGTAACATTGGGTGACTTCGAACTCGACTTATCGCCT
+TTATTCGAGTGGGAAGTGCTAAATCACAGAGCGGTCTTGAAAGGCATCTATGACAAGGAA
+GTCACAGAGCGTAGAGATCAGAAACAGAGCATCAAGCTATCTGCTGCCGATCTGGAGGAA
+GAAATAGACAGCGTGTTTCAGGACGTGGGTTCCGTTCTAGACGCCAGGACAAAAGAGGGT
+GAAAAATCACCTCTGTATGCAACGTGGGATGATTGGTACGTTGACAGGGTGCAAACCACA
+CCAGCTGGGTCTGCATTCACAGTCAACAAGGACATGATGGAGGCAAGAAACATGCTGAAA
+GCCAATGGGGTCCAAAATCTGACCAAGACGCAAGTGATGGCGCAGATGAGGGACAAGCTC
+CCGCTGGCGTCTATCTTGGGTAGCGAGCCAATGATATTGGCCCAGATGTCATGGAAGTTG
+GAATGGTCAAAACTGAGGGCACTATTTGCTGCTAGCATGGAGCACTGGATGCCATCGGCA
+TTCGCCCTGGGGCAGATAGAAGAGTATCTACCCAGTGACTGCCCCATAGGTAAAGCTGCC
+GATGCGCACAACGTGTGCAGGCGCGTGATGGAAATGTCAACGCAAGGAGTGGTAGCATGC
+ATAGATGCAAAGAACTTCAACATCTTGCACACCCACGAGATAATGTCAGCAATACTGAAA
+TCCGCATCAAAGATGCTAGGAGATAGGCTGTCTAGTGAGCAACATGACTGCCTAAAGTGG
+CTGGCGAAAGCGGAGCTGAACCAGAAAGTGCTGGTCAAGACAGGTGAAGTAACTGAACAG
+TTGCTCCAGGTCGGCAGGAGAGACGGGTGGATTAACAAGCTAACTAAAGGTGACGGCACA
+GTGGTAGAAGCGGCTGACGTGACGGTTGGAATGTTTTCAGGTACTAGGTTCACGATGCTG
+TACAACACAGTGCTAAACAGGGCGTACTACAAAGTGGCGGAGAAACGTGCGAAGATAAAG
+ACTTTATCACTTCATTCGGGTGATGACGTGTATGCTGTTTTCGCTAACTATATAGACGTG
+TACAAGATGAAGCGTGAGATGGCGTTAATCGGCTACACACTGCAGTTAGGCAAGTGCTTC
+TTGCAGGGAGTCCGAGAATTCTTGAGAATATCTCATAAGAATGCAAACACTTCTCAATAC
+CTAGCGAGGTCCGCAGCAACGGCAATACATGGAAGAATAGAGGCAGATGAGCCTTCTGAT
+TTCGTGGCTTTTGTGGGGTCAATAATGAGAAGAGGTGCAGAGATGGTGGTCAGGCACGCG
+GCAAGAGCAGTGTTGCTAGATGTCATGAAGATACAGATAGCAGGAGCTTGCGCAAGGTGG
+GCGATTACAGCTATGGCGTGGGACTCATTCTTAATGTTGCCAAAAACAATGGGCGGTTGT
+GCTGCAAAAGCACGCCTGATGGAACAATGGAGTGGTTTTTCTATAGAAAGAACTGCAAGC
+GCCAGAGGTGGCATCGTAGACTATTTGGCTGAACAACCAGGTACCAAAACAGCGGCGAGG
+AGGCTGGTTGAGAAGTTGCAAATAATGAAGTACCACAAGAGAGTTGCACAAGCCGTTGCT
+GCGGCGATAGCACCTAAAGGAGTTTTGAAAAACTACGGTATGATAGTAAGGTGGATGAAC
+AAAGATGACATGGCACATATGTCGAGAGTGGCAGGGACACTAGGGCGAATAAGACAATCG
+AGAGAGTACATATTATCAAAAGCAGCAGGATTATTCAATACGCTAGCAATAAATGACAAC
+TTCTGGGGTGATGTGAGCGGTGTGTTCAGAGGCATACCGTCAGCGTGGCACGGCAGAGCA
+CTGACGTTCGCACTGTCTGAGAGGAGTGAGTCAGAAGCGCTGTTTGCAAATAAAATGTAC
+AAGCTACACTATAAAATGACAGAGTGGGCAAGAGCTGCAACAGAGAATAGACTGATAAGA
+ATGCAGCTAGATATGCCACCGGGGTAATGCTGGTGGTAATAAGTACGATAGAACTTGCCA
+TCCACTAGGGAAGTGGACACAAGCGGAGTAGGCGACCGGTGGCAAGTATAACAAGCCAGG
+CTGAACGGCCGTACGTGGCTCCCAGACGTACAAACATTGGCGCTATCAACTAGCGCCTAC
+ACAATATAAAATATGCGTTTAGTTGCGGACGTGCTG
+>ds2020-267_3
+CAGCACGTCCGCAATCTGAAACGGCTGTCTGGCACGCCTGCACTGGCTTCATTCTCTTCG
+TGACCAAGGCATGTCTGGTGTACGATGGGGGTGAGAATTCAACATCTGAAGTCACACCGG
+CAGCTAGGCTTGACCAGGTACACCGAGTGTACGCGGCGTACAGTAGCAGGGTTAGGTACG
+TAGTGTCTCTTCTAGTCGGCGAGGATGCCAACTGGCCGAACCCAATCGGACTAGTTCACG
+TCTACCAGCTGGCAGTCACGCCCGGGCACCCGAAAGACATGTTGTCTTCGGATGACATTC
+ACTCAGTTTTGAGCACACCCACCGCGAGGGTGAAGAACGGCAGGTGCACAAGGATGGATG
+CACCATGTCAAGTCAGTTGCTTTGCCCGCCTTGATGATTTGCACGAGTGTAGGCGATGCA
+AGTGCCGGGTGACGTGCGCACTGTGCATCAAGGCATTGTGCCTAACAGGTTACGCGCATG
+ATGGGAGTAGAAAATCGAACAGCCAGGAAACTACGCCTGCTACCGGGGGCGATGTACTCC
+ACGCTAAGACGATGGGATCCGAATACGTCGGTGAATTGCACGACACTGAATCTATAGTGG
+GTGCAAAGCCGATTGACTTGGCACCTGTAAACGTCGATGTGCGTTCCGAGCTGGTTGAAC
+TCGCAAGCAATCTGCTCAAGATGAACGGTAGGCGACCTAGTGCCCAGGTTAAGAAACTGA
+GCGTGGGCGACACTGACGAGAACAGGAATGAACATGGCTTCGAAAGTTTGTCTGAGTCGG
+ATAACAACGCACAAGAGCTCGATGCAGAATCAAGCGGTGATGTCAGCATGGTAGGTGAGA
+TAAGCGAGCAGCAAGTTAGGGATGCAATCGCTCACTCGGAAGCGGAAAGTCGACTGTTCG
+ATGACACAGCTGACGTGGATGACAAATTGTTTGAAGCGTGTTCGTACGTACCGGGTGACG
+CAAGCGAGGTTGGGGTATCGGACGTGGACGTGACTCCTAAGAAGAGTGCGATACGACCAC
+CAATATCATCAAGACGCTCATCCACGCCCACGCCTACCACGTCACGGGGGCTGAAGTTCG
+ACGTTGATATCATTGCAGACATACTACACGAGCCACCGAAAATGTGGGACCAGTCGCGCG
+AATTCGTTGAACAAACGGAACCACCGGTTAGCTTAGAGCAATGCACGGCTCTGGTGCCGA
+TGCACGCCGGTTTTGCGATGCCAGTGTGCAGCAAATTGGGCTACTGTGACATACTAAGCG
+ACAAATCAGCGCTGCAAGACGAGCTCGTGGTGAACGACGAAATCATCAATTTCAAGGTGC
+CAGAGCAAGAAGAAGCCGAAATGTCGGCATCAATCTTTGCGGTTGAAAGGAGTGGTGAGT
+GGATCAAGTTATTGCCACAGCGGCAGAAGCTGAAGCTCAGCTGCGGGCGAGATCACTCCA
+TGACAGGGCCCCACTGGTGTGTACTGAAGAAACAAGATGGCAACTCGTCACTGCGGAAGA
+TAATCAGTGATGCAGGCATGACGGACAGACTAGTAAGGTCACAGTTGATACGCAAGATTG
+TCCCTGGGAGACCATCAACACTGTACCTACCAGGCAGTGCGATGTTCAGGGACATCACCA
+AAAACTGTGTGTGTGCAGGGTGCTCGTCCTTCAAGAGGACGAACGACCCAAACATGGTCA
+AACGCAGTGCTGTGGACTTCCCAATATGGCACTACGATCTGGGGGAGCTGCATTCATTGG
+ACATCAAGATACCGGAAGGCCAGCGCGATTCAATCGTCGGCGACCTGATGGAGAATAGGG
+GCGCAATGGAGCAGTTCTGTGCCATCAAACCCTGGCTGTCAAACATGCTCGGGTTCATGG
+TCAAACCAGGCACAGTGAACCAAGTCGGTGGGTACGGAGATTTTCACTTCAGCAACCCCA
+GGATAAACGTCAGCACGCACCCAATGAGCCATGAATCAAACTACAACTTGCCGCTATTCT
+ATCGCAAACCACTGGTAATGCACATCAACAAGATACATGCGTCGCTGCCATGTTGCTCAA
+TGGGTTACGGCGACATCCTGACGTTCCCTCCAGACCTGGAGAACGGGATGCCATTCGAGG
+CAAGGATGAGAATAGACAAATCGATTGTGCTGAACTCACACGATGATGAAACAAAAATGT
+TTCTCATAGCGGCGCTGGCGACATTACTGTGGCCTAGGCCAGGGGAAGAAGACCCACAAA
+GAGCAAGTCTGAGTTTTTCAGGCGTGATGCTCGGTGACATGAGGCATTACTCGATGAGAA
+GAGTAGTGCGTGATGGCAAACTGACGGATGACTCCGTGCTTCGCGCAGTAACGGTGTCTG
+ATCGAATGGACAAGGTGGAAAAACTGAGTAAAGTGAGAGTAAGCGAAAAGACATTGCGGA
+CGTGCTG
+>ds2020-267_4
+CTTCCGATCTATCTAAGGAGCAGCACGTCCGCAATTCAGCTACTCTCAGCACGTCCGCAA
+TACTAACAGCTCAGCGCGTCCGCAACACGACTGGGGCACACGTCCGCAACGTCCACGACT
+TATCACTTGCGGACGTGCTGCTCCTTAGATTCTGGAAGTAAGGACGTTCGGGCTTCCTAT
+TCCGCTTTATTAAGGTACACTAAGTAACTATTCCTATTAACTCCATCGGGTCCTTAGATC
+CTTTGAGTAGGTGTAGTAGTGGGCCGCTTTTATTGGTCCCATTCAACACGTCCATCAGGA
+AGCCGGTCATTTTGGCTTTTCCGTAATTGACTATGTCTGTTTCTTCTTTGTGTACCTTGA
+ATAACGCTCGCAAAATCTCGTACCGCTTGATGTTACCATTCCTTGAAACGTTTATGTTCC
+TTTCTTTTGGTATCACCGCGTCGTATGTTGCGCGCATTATTCGTGAAATGAAATCCTGCA
+AAGGTCTTTCAAGTTGTAGTGATGCTTTCACCATCCTGGAGTAGTCCACCACTCCCGGTA
+ACACGCCTATCTGCGTGGCACCCTTCCTGAAGCCCGACGACCGTATCATCCACTTTACGT
+CCGATCTCTTGTCTTCACTTATGCCCCCCACACACCTGTGGGAGGTCTTTATTTTATAAC
+AGTCTGAAACTGTCATGTGCAATCGCTCACATTGTCTCGAGTAGTATTTGTTCCTCAATG
+ACGCCGCTAACCACATTGGCATTCCCCTAGACACTGAATCGTCCAGACGCGACTCCAGCG
+CTTCCAAAAGGTCCCTCATATCGCTTGAAGGTTTTGACTCTATCCTCGAGTGTACCAAGG
+TTGCCATAGCTCTAGATAGATACTGTCCCTTAGACCCACGTTTGTGATCTACGCGTAGAA
+ACTCTGCTATGGCCCCATACGCACATTTGCTCATCTGCAGGCGTATGTTGTGCTTCTTGG
+CATTTTTGCCAGCTAGCAACACGTCCTCGAGCGAATTACTTCCCAGTAGCACGTCGTCAC
+CGTTGTGGAGGCTGTTTTGCGATTGTACCACGTCAGGTACTATCAGTTGAGTGTAAATGT
+AGTTAAGCACGCTGTTCATGAACGTAGTGAGTCGCCACCCCGATAACAGGGTCCCCTTAG
+CGTTGTACTCCATTTTCAAGCCTTGATTGTCGTGTACTATTACCCTATCCAGTGAAAGCC
+GAGTCCACTCCACAGCTGCTAGTTGCTCCTGAGTCAGGAAGTGTCCGAAAGTATCTCTGT
+ACGCATCTATTACTGCTTTCATAGATTGTACACTGTGTTGACTGTTGAAATCCTCGAAAT
+CTACACAATACTGAGTCCTGCCTTCTAAGACTGACCTTACTCTACTGCGGACGTTCTCAT
+CGTTGGCTGCTTTTCCCACCGGGAACGGCGAGGGCAATACGTCCTCGCAGTTATAGAAGG
+CGAAATGTGCCAATACGTAACTAGTGACATCTGTCCCGTAGATAGCGCGGAGTTTGCTCC
+ATTCATACTTCGTGGATGACCATGCGTGAAGTTCAGGATCTCTTTCGCGCCACGAGTCCA
+TATTCATATCCGGCATGGCCAGTATTGATATGAACTTGTTCTTGAGGTATATGTCTTTGA
+ATATGTATTTATCGTCTTCTGAATATTGCGAGTGTATGCTGCCGGCCGCACTCCACTGCC
+ACCTACTCTGCCAGTACTCCCGCCAATCAAACTTCCTCGGTCTCTTACCCGCTGAGATCG
+ATCTACTGAAGAGCTGCGAGGCCCTTTCATAAACCAATCCCTCCGGCATCTCGGCCAAGT
+TAGGGGACACCCTGTTCTTGTGCTCCTCCTCCCAGTTGACCAGTCTTGATTTGCGGACGT
+GCTGCTCCTTAGATANNNNNNNNNNGGACGTTCGGGCTTTGCGCTGGCAATGGAGAACAG
+TCCTGACCCTCTAGCGAGCTGCATCTCCTCGGGGGTGAGACCAGCTGCCCACAGTGCCAC
+GCCCGTAAGGAATGAGTTAGTAGCTTCTCTGGTTATTGATAAGGCCAGAGCTACGCTGTC
+AGAGTTGACTCCCAAAATGTCTACCACCTCCTTGAACGAAAAGTGAACATGATGCGACGC
+CGTTATCTTGGTGTGTTTTGCCGACATTGCTTCATGTAACTGCCACCCTCTGCCTTGCTG
+TCCATTTACTTTCCTCAATAATCGCTTCGGAGACACAGGGTCCTCAAAGTCGATAGAATC
+GTAAAGACCTGAGGTGTGCCTGGTCATTTGAGAAAGTATTTCTTTGCGTATACCCCAAGA
+TCTTTGCGGACGTGCTG
+>ds2020-267_5
+ATCGCACATGATAAAGCCCGATATCTAAGGAGCAGCACGTCCGCAACCCTCTGCCTCCAA
+CAATAAAGCAGATTTCTTTGCTCTTCTAACAGCTATTACTTACCACAATGGACCACCTCA
+CTTCCCTTTTCGAGCTTTTTGCTATCACACCGAAAACACAAAACAATCTACAGTTTGTTG
+GGATCTACCACAGACCTCCACACTCCGTTCGAGCAAACCTCCGCAACGTTGAAAAACACA
+AAATCACAGTCGCTCACGCCATGCACAAGTACCTTTACCCGCATGAAATCGACTTTGTTA
+TCAACCAAATGCGACGCTCAGACGTCACTGAAGATGCCATACTTGCTGACTTTTTCGACA
+ACAACGTCGAACCACTTGAACCTGTTCTTGACGAACACTTCGAACGTGGACTCTCCGCAA
+TGCTGGACGCTTTTCGCCCTCCGCAGAAATGCCTACCTGCCCACATCTATGATGTGCAGC
+ACCACTACCCATATAAATGGCAAGTGAACGCTGAAGCCCCCTTCTCCACCGATTCCTATT
+TCTTAGCGAATCGACCAACCTTCCGCGCAGTGTTTGAACGACTCGAATCGCTCTACACAC
+ACCTCGCAACCGATTGGCACCGCCGATACGGAAACAAAACCGACAATGATGATTTTATGA
+ATGATCATGTCCCTGCGAAATTTGGCCCTATGAAAGAAACAGTCTTCTCATGGACTCACC
+GATGGCACCACGTCATCAAATCCAACTTCACCGACACAGCTGGATTGTCTAAAGACTATT
+ACTTCAAAAACCGATACATCTTCCCAATGCTACTTCACACGAAGACAGCGATTGTCAAGA
+AAGACGACCCGAATAAGATGCGAACCATCTGGGGCTGTTCAAAGCCTTGGATCATCGCAG
+ACACCATGCTATGGTGGGAATACGTCGCGTACGCTAAGTTACAACCTGGAGCCACACCAA
+TGCTCTGGAGTTACGAAACCTTCACAGGTGGCTGGCTTAGACTCAACCACGCACTTTTCT
+CTTCATACATACGGCACTCGTACATCACACTCGACTGGAAACGCTTCGACAAGAAAGCGT
+ATTTCTGCATCATCGACAAAATTTTCGATGGCGTTGAAACATTCCTCGACTTTGACAACG
+GCTATTTGCCTACGAAAGATTATCCCGATACCAAATCGACTTGGACACAAGAACGTTCCA
+CCCGCCTCAAACGCCTGTTTGACTGGACAAAAGAGAACTTCTACCATGCACCAATTGTCC
+TACCCAATGGGCACATGTACGTCCGAAAATTCGCTGGAATACCCTCTGGCCTATTTATCA
+CTCAACTGATCGATTCCTGGTACAACTACACCATGCTCGCAACCATCCTATCCGCGATGG
+GCTTCGACCCTCGGTCCTGTATTATTAAAGTCCAAGGTGATGACTCAATCATCCGCCTCA
+GTGCACTCATCCCTCCGGATGCTCACGATTCTTTTTTAACTAAGGTCCAAGAACTCGCCG
+ACTACTACTTTCAATCAGTAGTCTCCGTGAACAAGTCTGAAGTACGCAACGAGCTCAACG
+GATGCGAAGTTTTATCGTACCGACACAGACACGGTTTACCATACCGCGATGAACTAGCTA
+TGCTAGCTCAACTGTATCACACGAAAGCACGCAACCCAAGTCCCGAAATCACAATGGCAC
+AATCCATCGGCTTCGCCTACGCTTCCTTCGGAAATCATGAAAGAGTACGTCTCGTACTAC
+ATGATATCTACGAATATTACAAGCATCAAGGCTACACACCCAACCGAGCCGGACTCAGCC
+TCGTCTTCGGAAACTCTCCTGACCTCATGATCCCGCACTACACACTTGATCACTTTCCCT
+CAATCAGGGAAATAAAAATGTTCCTGACTAATGCAAAATATGCCAATGAAGAAACCAACT
+CACGAACGTGGCCTTTAACCCACTTTCTCCATCTTCCTTGTCATCGCACTTAGTATTTGA
+GCAATTGCAATTACAACATAATTACAAAAAAAGGATTGCGGACGTGCTG
+>ds2020-267_6
+TGAGGCTATTGTGCTGTTCTTCTGACAGCCTGGAACCTATCATCACTGACGCTGATTCCA
+ATAGTGCTATTGCTAGTGTGTTGTTTTACTTGCCTGGGAGCCGCAAGCGGCTTGCAAAGC
+CTGGCGTTAATTGTACGTGCACCGGTTGCCTACACCGACGTTGACGGCGCTAGCTCTCCC
+TCAGCTAACGGGTCGTTAGTGACCAATTCTTTTGCGCCCATTTCGTGCTTGCTTGTCTGG
+GAGCCACAAGCGGCATTTGCAGCCTGGCGAGTTATTTGATACGTGTACCGAGTGCCTACC
+CCGACATTGACGGCGCCAACCTTCCCTAGGTTGACGGGAGCCACAAGTGTTTCACACTCA
+TGGCTCTAATTACAGTGGCCTTTGGCCCAAGTTGAGCCTATGTCTCGTTTGCGAGTAGTT
+CGTCGCCACTCCTATCCACCCCATCACTGTGGTATGTAGCTTGAACCTCCTGTTATCGAA
+CAGTGCTTTCTCCTCGCCTCTTTTCGCCAGCGCGAACGTTAGTGCTCTGGCGTGCCACGC
+TGACGGTATGCCTCTAAAGACTCCCGTCACGTCGCCCCAAAAGTGGTCGTTGATGGCCAG
+CGTGTTGAACAAGCCAGCTGCTTTGGATAAGATGTACTCACGTGACTGTCTTATCCTTTC
+CAGTTGACCCGTCACGGTCGCTAAATGCTCAAGATCGTCCTTGTTCATCCACCTGACTAT
+CATTCCATAGTTCTTGAGGACACCTTTTGGTGCTATGGCTGCTGCCACGGCTTGCGCAAC
+TCTTTTGTGGTACCGCCGTATGCCTAGTGCCTCTACTAACTGTCTCGCAGCAGTCTTGAC
+TCCTGGTTGCTGCGCCAGGTAGTCGACTATACCACCACGTGCGCTGGCAGTTCGCTCGAT
+AGAGTACCCACTCCACTCGTCTGCCTTTCGTGGTCGCGCAGCACACCCACCCATGACGTT
+TGGCAACACCAGAAATGCGTCCCAAGTCATGGCCGAAATTGCCCAGCGTGCACAAGCCCC
+TGCAATTTGCAGCTTCATCACGTCGAGCAACACGGTTCTCGTTGCATGTCTGACAACCAT
+TTCTGCACCACGTCTCATGATGGAACCCACGAATGCCACAAAGTCTGATGGTTCATCAGC
+CTCAATTCTACCATGTATTGCAGTAGCTGCAGACCTCGCCAGATACTGTGACGTGTTTGC
+GTTCTTGTGTGAGATCCTTAAAAACTCTCTCACACCCTGCAAGAAGCACTTCGCTAGTTG
+CAGTGTGTACCCAATGAACGCCATCGCTTTCTTCATTTTGTACACGTCAATGTAGCTGGC
+AAACGCAGAGTATACATCATCGCCAGAGTGTAGTGACAGTGTTTTGATCCCGGCGAGTTC
+TTCGGCCACCTTGTAGTATGCCCTGTTGAGTATCGTGTTATACAACATCGTGAACCTCGT
+TCCTGAAAACATGCCAACCGTGACCGTCGCTGCTTCCACCATGGTGCCGTCACCCTTCAT
+CATTTGGTTTATCCACCCTTCTTGTCTCCCTGCCGACAGCAGTTCCTCTGTGACCTCACC
+TTTCTTCACTAGTACCTTCTGGTTCAACTCAGCTTTGGACAGCCATTTGAGGCACTTGTG
+CTGTTCTTCTGACAGCCTGGAACCTAGCATCACTGACGCTGATTCCAATATAGATGCCAT
+CACCTCCTGGGTGTGCAAGATGTTAAAGTTCCTCGCATCTATGCATGCAACTACTCCCTG
+AGTAGACATCTCCATGACTCGTCGGCACACCCTGTGTGCATCGGCTGCCTTGCCGATGGG
+GCAGTCAGCTGGCAAGTACTCTTCAATCTGCCCAAGCGCTAAGCCGTTGCGGACGTGCTG
+>ds2020-267_7
+CAGCACGTCCGCAAAGTTCGCTCTCTTCATTGAGCTAATTGGTTAAAAGTCTACTTGTTA
+AGTAGCATTCACATCAAGGAAAGAATTTCGTCAAAATGGCATACCAAAAGCCCGACAAAT
+CGACCGTCTCCGGCACGACTCTTACGCCAGATGACTCAGCCTCACAAGCTGGTCCACAAA
+ATGATACCCCCAATCCTGCGAAGTCCGGACGCCCAAAGCGTTCATCAAAGATTTCAAAGG
+GCAAAGATCTACCTCCGGGTGCGATCAAGGTACCAAAAGGTGGCGCCAACATGACGGGGA
+AAGCATCTCCCGTACAGTCTGCAACCATTCCATTTCGGGATGGGGAGAAATAGACCTCAA
+CTCTCATAGAAATGAGATTGAGCCGGTCTTCACAGTCGACGCTCAGCCGTATGACGACCT
+TGTCAACGTGGTGTACTCATCACTTCAGTCGCGATACTCAAATGCGGCGAAGCACATCCC
+GTTTGGCCTCTTCCGCTACTACTGCATGCAATTGTGGTGGTATCGGGTTCTTTTTCTGCA
+TCGCACGAACGGCAATGCTCTCACATCTGACGAACGTCAGTTCATGAGCATCATGGAGAC
+TGGACAAGAGTTCCAAATCCCCTCCCAAATAGCACAGTATCTTGCCAACCTTGGCAATTT
+CATGCAAGGAGGAGAGAACTTCTTTTTCCGCCTGCCCCCACACGCCTTCGCCGAAGCAAC
+AGGCACTATCCACTCAGGATGGTTTGCCTCTGGTCTTCCCACCGCCAAGGTGGACACAAC
+TTCCTTCTGGAAGTACGCTCAACTTCCGAGTCCGGGCGTTTTCGTGTCCTATATGTGCAA
+CGAAGCACATTACAACACCCCTGGCCACCAGCCCAATCGTCTCTTCGATCTCTCAGAGAT
+CGCCCCCACCATTTCCGACGACAGTTATTCAGTTCCGACTGATAACATCGTTGGTTGGAG
+TAACGGCATTTACACTGCCACGCACGCCTCCTGGCGTTCGACATACTCCAATCTTGGCTG
+GTCAATCGACGGTTGTGCCCTTGACTCTCAGACAACATTCATGCTCTCGACATCGACCAT
+GCGTGCCGTGTCTGACCGTATTGCGTCCGTCACCGGACTCAAAGTGAACACGTCAACACA
+GTTGACACTCTCTGTGCAAGGCAATCCCCTGGATTGCTACTACCTTGCAACTGTGGACTA
+CGCCTCCAACCGCTCTCAGTGGCCAAAGGCACCTGGTCCTCATCAACAACAGAAAGTGAA
+CGGCTGTTTGCACACAGAACTCGCCCTCCACTCCCGCTACGCCATGGACTCAAAAGTCCT
+ATCACCCGCGTTCTCGTTCGGATATCGCCTAGAGCGATCGCTCATCTGGAACGGTACATA
+CGATACCGACAGACGTCCGGTCCACGCTCAGGCCAGCAACTATCAGCCCTGGCTGATACA
+GTCTGAAGCCGACGACAAATACCGCGATCCTGGCCCCGCATGGATGGCCCATATGAACGA
+TTCGTTCAATTTTGGTTCTTCATTGAACTTGAATTTACGACGATTTTCGACTCATGGCCT
+CATTCGTTCTGTCGCGCTTGACGCGTCCGTTGTCCTCAGTGACACCAAGTAGAAACTTCT
+TCTTCTACTACAGCAACTCTCTCTCTTGGTAAAGCTCACTGGTAACCGGTCCAAAACGAA
+ACTCTTAAAACAGTGGATACCCTCCGGGGCGCACGTCCGCAAGGGTCCGGCAGTTGCGGA
+CGTGCTACCCAAAGACCTTTGCGGACGTGCTG
+>ds2020-267_8
+CAGCACGTCCGCAAACTGGGGTGTCTGGTATGGTAACTTCTGTTTTTTGTTACTGATATG
+TCAATCAGTAAAGAACGCTTCCTCGAGGTGGAGTTCCGAATAGAGGGGCCGTGTTTCTTG
+ATATTTTTCGAAATCAGAAAAAGAACGTTGGCGTAGTGCTCTGTTGGAATAAGCCTCGGG
+TATGAACGCGTACTCGGGTAGGTTTCTATCTCTTCTTGAGATGAATTTCCGTGGCGAGGG
+TTGAGGTAGTAGCGCAGGGAAGAAAAATCCGCCGAAAGGATCGGTTTGTCGGATGGGAAG
+TGTGATTTCCTTCATCTCGAGACCGAGAGTGGAGAGATATTTGAATGCCTTTGAAGGCTT
+CTCTGCCACGTAGGCGTTGAGGGTTTTCTCTTGTATGCCGTTGGTGCTCATGATGTGTTT
+GATCGCATCATAGAATACATTGCATAGTTTTGGATCCATGCAGGAGTAGAGCTGTCCAAG
+TAGGCGTGCGCATGACTCGAGTGGTGAGTCAACTGGGCGTTCCGGGTAGATGGTGGAAGC
+GAAGATGAAGTCGTATGACCTTCGCGGTCCGGTAACTCGGTGGAAGTATCCGAGCCAGTG
+TATATTCTCAGGGTTATTACTGAGAATCGTCTTGTCCAGGTTAAGAATGCCATTGAAAAC
+ATCCTTTAAAACAACACCAAGTTCGACGAGATCAATCGGTCTATCTAGAAAGATGGACGA
+ATCATCTCCGTAGTAGTAGTCCTTAACGGGTAAGGCTCCAGTGACTCGGTAGATGGCAGT
+ACGCATTTGCACTGCGTTGACGATTGTGTCGAGAAGGTTGGTCCACATTGAACCAGATGG
+GATGCCAGTGCTCTTTTGTACTCGGAGACCGCGGGGTGTGCGTATCTTCGTGTTGATGAA
+GTAAGAGACCATGGCTTTCCATCGTCGTGCTGTTTGGTCTGAACGGACGTTCCATACTAT
+CCCTTCAGAATCTCTGACTTTTGAAAAGTCAAACCAATCAGAAATGAACGAGAATGTGTC
+TCGTATTATCCAATGGGTAACATTGGCGTCGAAGCGTGAAAAGTCGGTGGTGAGGGAAAC
+GATATTGTCGATCATGCTCCTCGCAAGATGCGAGTGGCCTGACTTCATTGTTTCCATTCC
+GATGCCGTAGCACGCGTCCTCTCTGTTGCAGAGTTCCTTCAATTCTGAGAAAAGAGGAAT
+GAAGAAGCGGGCCTCTTCAAGGATGACATCAGTTGGGTAACCCCAAACTGGACGTACTTT
+GACATTCGGTTGCTCACTTGCGACAACCCTGTTGAAAGCAAGGCAGTCGGGCAGCGACCA
+TGGGATTCCTCTTCCGATACTATCCCAAGCCCGATGTATCTTTCCGGTGGCAACTGGGTC
+TGCGAAGACCTCAGCTTTTGTCTTGTATCCTTGGTTGACCCAAGGGAAGCCGGGAGATGT
+CGTGGTGGGCATTGCGGAGTGCTTGGCAGCAGCTCCGAGGGTTAGCGGTATGATACGGTT
+AGCGGGGCGAAGTTCATCGAGTGTTTTCTTGATAATCGCAAGATAGTCACCATCAACACA
+CCGGGTGGTGGGTCGTTGGTCGTAATCCATGAGATTATCTTCGAGAACCGACTGGTCCGC
+GGACGGACGGTGCCATGTCGATGAGATGTTGCTAATGAAGTCACAGAGATCCGGAGAACC
+TGTCAATAGTTGCGGACGTGCTG
+>ds2020-267_9
+TATCTAAGGAGCAGCACGTCCGCAAGCCACGTACGGTGAAAAGAGAGCAGTCGCGCCTGG
+CGACTTGGGCTTGGTGGACTCGCTTGTGGTGAAGTCACAGATTGATTGGTGGCATTGCAA
+TGTCACTATGTGGGTGGCCGCTTACAAGTTGTCTGTGACGCTAGCTGCATCGTGTGGTGA
+CATGAACTTCAGTGGTGAGGAAGTTAATGAGATCATACAGTACACGTTCAGCCGCTCAAC
+ATACAGGAAGCTCGTAGCGAGCGACGCGGTGATGGACTCGACTAGAGACATTGCAGCAAG
+TGAGGTGACGCAGGCAGCGTCAACGCCAGTCAGGTGGGCTAGGCAAGTGAACCCAATCGT
+GCTGGTGCTCGACGATGTCGAGTACGCCATCACACGCAACGAAGTTAATGATGTCTTGAC
+AAAGGTATACGATAAGGTACACGCTGCAATCATGAAACAAGCTGGAAAAGGTTACGGTGA
+CTACAACAGTACTGGGCTTGAGCTGGTCTACAGCGAGGAGACAGGGCTATCAGCAGGTGA
+AACTCCGAGAGGGGTTTTGAACCCGGTTTTTGGTTACGCAAAGCTGGCAAATGGCGCAAT
+AACTGTGGAGCCATGCAAGTGCGCAGACTCAAACGCCGTACTCATGACGATGAGTGAAGG
+TGAGCAAAAACCAGGGCTGAGTGAGGTGTCAATCGGCAGCGAATCAGTCAAGGTAGTTAA
+ACGAAACAGAGGCGGAAGGACTTTGACCTATCTGATGCCAGAGACGATAAGCGGCATGGG
+GGCAGACAGGTCATATGTCTATCTTGCGGGGATGCACTTCAGAGAGGATGAGCTCAAGTA
+CTCACTGCCAACCCTGGAGTTCCTGTCACAGTTCACAACAAAGTACAAACCACTACAGCC
+GTCAGAAAGGTTGAGCAAGCTACGAGTGCTAACCGATCCAACTTCAACGCGAGTGCACCA
+CAGGCACATGTCTATGTTGACCGTGATGGCGACTTGCTGTCATGCGTGGGCTCCGTGCAT
+GGACACAGTGTTAGATTGGCCTGACATCACGAACACGTTTATGTCAGCGCTAATGCTAAC
+GATGGCTGCAGTGCCACCTGAACTGTATGTGCTCATGTGTGAATGGAACGGGTGGGCCAG
+CTGCAAAAGCATGGCAGAGTACGTAGTGACTGCGAAAGAACTTACAACAAAGATGAAAGC
+TCTAGACAACCAGGTGGCAATCGGCGATTTTGAGCTGGACCTGTCGCCACTGTTTGAGTG
+GGAGGTGTTGAATCACAGAGCTGTGACAAAAGGCATCTACGACAAGGAGCTAATCGAAAG
+ACGTGATGCAATGCAAAGCATTAAGCTCACGCCAGAGCAGCTCAGGCCGCACATCGATAG
+TGTATTCAGGGACATCAGTGCGATACTAGACAAGCGCACAAAGCATGGTGAGAAGTCGCC
+GATTTTTGCAAATTGGGACGATTGGTATGCTGATAGGGTGCAGGCAACACCTGCGGGATC
+AGCATTCACAGTCGAGGAGTCTCTTTTGCAGGCAAGACAAGTCTTAAAAGATAACGGCGT
+GCAGAACCTGACAAAGACACAAGTCATGGCGCAAATGCAGGATGGATTAAAACTGGATAC
+TCTACTCAGTCATGAGCCAGACATCATTGCGGACGTGCTG
+>ds2020-267_10
+CAGCACGTCCGCAATTTGGGTGGTCTGTTGAGACCATTAGATTGTTTCATTGCGTGTTGA
+ACGCATTGCGACAGAAACAGTTGAGTGGGGCTTAAAGTAGAAAAAAAGCAAACAACAATG
+GAAGGTCGTTCAGTAAAAAGAAATTAGAAAACAGAAAAAGAGAAAAACTCGGGGGTGTCG
+CGAGAATTTGCGCTTCTCTATTCAAATCTGAGTGCGGAGGGGGTGTGGTAGTAGCCGGAA
+ATCAACGGTGCAATGGTGTTGCTGACGTTGTATTGCGAAGTTCGACGACTATCGGGAATA
+CTGAAGATTGGTCCGACGTGGGTTGACTTAAAGTCAGGGCCAGAAGTGTCGGTGACATCT
+TTGTTGATGTCAGTCCAATCGGAGTTGAGCTGAGTGAGGATGCCGGCCTGTTCAGTGACT
+AGGTCGAGAAACTCTTCAGAGTGGAGGTGGATCGTAGTGATTCCAGTAAATTCTGGAATA
+TCATACCGGAGCGTGGAACCGGTCTGATAACGGACTTTGCGCGTGGTAACGGCATGAACA
+AGAATGTTCTTGTTTTGCCTAGTAGCCACGTACTTTGTACGTACATAGGAGATCCCAGTG
+CCAGTAGTGGTCACGGAGCCAAGGGAAACAGTGTCCTTGAAGAAATCACTGTAAGGCTGC
+ATGACGCGGATGACTTGAGCAAACCAACCGTAAGGTCGGTCAGCATGATTGCCGATGCCG
+CGAAAACCGAAGACCTGGTCGAGGTCGAGGGTATCGTCGTCGTCGGAGATGACATATTGA
+CTGTCACCGTCATTGGCGAAGGGGAGGGTGTTGCGCCACACGTTGGATGAGGTGGCGAGG
+CCGTTGAGGAGACCAACAGTGGTCTGGAAGTCGGACCGAGCACTAGGCGTAAGCATAGCA
+AAACGGGTCGCTTCGTCCTTGGAGGCGGGGGCGCCGAAGATCGTCGTATAGACGGTATCC
+GTGTGGGAAGCATTGGCTTGGACTGGGCCAGAGTTGACAGGCGAGATCAGGGAGATCAAT
+CGCATGAACTGATCAAGAATGAAGATCACATTCGGGAGAATGGTGTGAACTTTGTCTTGC
+CAGAGGAAACTGGTGCAGTTGATGTCATGGGCATTGGGTATGCCAAAGACAAGATTGCCA
+AAATTTTCGTTGGGGCCAGCGTTGGCGGCGAGAGACTGGAAGAAGATGGCGACAGGGCCA
+GGGATCTTCAAGTGTTCGGCCTTGAATTGGCTGTCGAGAAACTCGACAAACAAACGTTGA
+TCGTTGGTGATCATACCACCGTGAGATTGGTTCTTGAGAACCTGGTAGTAGAACAACACA
+GCGATGTAAAGCTGGGAGACGAAAGGGTGCCAGTCAGGGTTGGCGTCGGTGAAACGCTTG
+GTTCTGACCATCTGCGTGTCCATGATAGACAGGACGTAGAAGAGCTGAGTGGTGTCAGGC
+ACGACATAGGATATGTCATTGTGCTTGATGCCGAAGAAGGGGAGGTCGGAGACGCCTGAT
+AGCATCATTGAGAGACCCGGGTTCTTGGGGCCAGCGGAGCTTGCAGTGGGTTCGCGAGGG
+GCGAAACTCTTCTGCTTCTTGGCAGGAACCGAGTATTGCGGACGTGCTGCTCCTTAGAT
+>ds2020-267_11
+ATCTAAGGAGCAGCACGTCCGCAATAGATGTTGGGTTCCGGGGCTTGGAAGAAGTGGTGA
+AGCAAGTCGCTAAGAATGAGACGGCTTCTGGTTCTGACGTAGAGGCAGTTCTGGCTGACT
+TGGAGGTCATGGTATACGAGCGAGCTCAATCTAAAGACCTTGCTTGCAAAGGCGAAAAGG
+CAGTCGCACTACCGAAAGATGTGCACGCCAGCTCATTCATCCACGGCGTCTCGACGGGGT
+TCAAGAAGCGTCAGTGGGCGGAGGTGACGCTTAACAGTGAGAGTTTTTTGCCTGTCGATG
+AGAGCTTTGACATTTTTGATGGCGTGATCACAGCTGGCGCGTACTCAACTGAAAAACTAC
+TGATCAGCGCACTGCCTTGTGAAGAACATGTGTCAAATGGGCACGCTTCAGTGAACACTT
+TCGTGGTCGCGCCGAGAAACGGCAAAGTCAATTTCAGGGACGTGATGTCAGCTGATTCGG
+AATACAAGAACATGGCAAAGAACATCCTGACGATGCTTACATTTGCCAGTCTGGATGCCG
+AATATGAGAACGCTGAGATTGAAGGCTTCGTTAAGGCGAGGCAAACCTTCCCATTGATAT
+CGACATCTCACATTGCCGAGTTTGGACACGGGTCAACAACGAAGAGAGAATATGACGTGT
+CAACTGCTTCAAGCAACACGCTGATCAACCTCAAGACTAAAATTGATGGTGACCAGATAG
+AACTTGCTGGGTGCTCTGTGACACTGAAATGTGCGATACTGATCGCATATCAAGTCCATC
+CGGCTCTTTGGAATGATTTTTTTGAAGGGCTCGTACCCCCGCCATTTAGTGGCCAGCTCC
+CGAGCATGCAGGGCATTATGCGGCGGGCGATTGCGGAGTTAGACATCCAGAATGATGAGC
+TGAGACTATTGATCGCCGAGACAGCCGCTACAACTGGTAGAGTTTACGGCATGTCAGATG
+AGTCCATGGTGGAGCAGCTCACGATCTCATACGCCAGGGCTGTCCCTTTTGGCGACACGT
+TGTTCCCGAGGGACGGAGACAAATTGCCTGCTGCCGATGTATCTAGCTGGCAAGTCAGAG
+GCGTGCTCACGCTGGAACTAGCGTTCACTAGGCTATTCAGCTTGTTTGCGCACCAGACAG
+ATCGAAACAAGTACGAGAGGAGCACACACTACGATCAGCTCAGCTCGGCTGGTTTTGCAC
+TTTTTGCGAAAGACGAAGAAGGCCAGTTTGTTTTGCCTATCGCGTCCATTATTTCGACGA
+ACGTCTTCAGGAAGTCTGCGACTTCAACTGGCACTGTGAAGAAACAGTTCAAAGCAAGAC
+CAGTCGGACACGTATTGCGCGAATTAGTTACCAGTGACTTGCCACTCATGCGTAAAGGGG
+TAGCTAGTGCAAGGGACGTGTTGATGGCTGATAACCTACTAGGTGCCAAAGCAAGGGGTA
+GATACGCAACCGACGTCAAATCAGAGGGCAGTTATGCATGCTCTGTTGCCACAGAGCCGA
+ATGAGTATGTCTGCGGGCCACGTGACACAGATGGCTCGATGCTCACCAATGTGATGGCCG
+CCATGTTGCGGACGTGCTG
+>ds2020-267_12
+AACGATTGCGGACGTGCTGCTCCTAGATAATCTAAGGAGCAGCACGTCCGCAAGCACCGC
+CCGGTGGGACAAGTGACTAAGTGCACATGGTGGATGCCTTGGCGATATCAGGCGATGAAG
+GACGTAGTAGCTTGCGATAAGCTGCGGGGAGTGAGCAAACACACATTGATCCGCAGATTT
+CCGAATGGGGAAACCCGGCCGAAAGGTCATCGTATTCTGAATACATAGGGATACGAAGCG
+AACGTGGCGAACTGAAACATCTAAGTAGCTACAGGAAAAGAAATCAACCGAGATTCCCAA
+AGTAGTGGCGAGCGAAATGGGAAGAGCCTGCATGATTTAGCATCTTTGATAATAGAACGG
+AATGGAAAGTCCGGCCATAGAGGGTGATAGCCCCGTATATAAAATCATCGGTGTGGAACT
+AAGTATGCGACAAGTAGGGCGGGACACGTGAAATCCTGTCTGAACATGGGGGGACCATCC
+TCCAAGGCTAAATACTCGATATCGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAA
+AAGAACCCCGGAAGGGGAGTGAAATAGAACCTGAAACCGTGTGCATACAAACAGTAGGAG
+CAGACTTGTTCTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTACATTCAGTGG
+CAAGCTTAACCGCATAGGGAAGGCGCAGAGAAATCGAGTCCGAATAGGGCGAAATCAGTC
+GCTGGGTGTAGACCCGAAACCAAGTGATCTACCCATGGCCAGGTTGAAGGTGCGGTAACA
+CGCACTGGAGGACCGAACCCACTAATGTTGAAAAATTAGGGGATGAGCTGTGGGTAGGGG
+TGAAAGGCTAAACAAACTTGGAAATAGCTGGTTCTCTCCGAAAACTATTTAGGTAGTGCC
+TCTTGTATCACCGTCGGGGGTAGAGGCTCTATTGCGGACGTACTAAGGGGGAAAATTTGC
+GGACGTGCTGNNNNNNNNNNCAGCACGTCCGCAACTCCCGACCCATTGCAAACTCCGAAT
+ACCGACGAGTGCGAGCAAGGGAGACAGACATCGGGTGCTAACGTCCGGTGTCAAGAGGGA
+AACAACCCAGACCGCCAGCTAAGGTCCCAAAGTACAGCTAAGTGGAAAACGAAGTGGGAA
+GGCTAAAACAGTCAGGAGGTTGGCTTAGAAGCAGCCACCCTTTAAAGAAAGCGTAATAGC
+TCACTGATCGAGTCGTCCTGCGCGGAAGATGTAACGGGGCTAAGCTGTACACCGAAGCTG
+CGGATATCCTTTTAGGATATGGTAGGAGAGCGTTCTGTAAGCCTGCGAAGGTGACTTGTA
+AAGGTTGCTGGAGGTATCAGAAGTGCGAATGCTGACATGAGTAGCGATAATGGGGGTGAA
+AAGCCCCCACGCCGTAAGCCCAAGGTTTCCTGTTCAACGTTCATCGGAGCAGGGTGAGTC
+GGCCCCTAAGGCGAGGCAGAGATGCGTAGCTGATGGGAAGCAGGTTAATATTCCTGCACC
+GTCGTATGATGCGATGGGGGGACGATTGCGGACGTGCTG
+>ds2020-267_69
+CAGCACGTCCGCAAGCCATTGCCACTCAGCACGTCCGCAACGACGGCCACCCCACGTCCG
+CAACGTTGATCGAGTTAAAATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGC
+ACTGACCGTAAGCTCCCTGGTTGTTGAGACCAGTTTATTGAGATCGCCTTCCAGTCGCCC
+CATATCAGACGATATGCCCTTCTCACATTATTTTGTAATTAATTTATTGTTTTACCCGTG
+TTTTTCCGCTGATTTACATTTTGCGCCCGGTTGCATTTTCCACCAATTGCCCCTGTCGAC
+CTGCCATAGGGCTTAACAAGTCAACTCATCCACCTTTGGTCATCATTCAACGACTTATGC
+AGCACCGAACAAGTCGCCGTCTACACCAAGGTGCGCGTATTTGGCAACGAAGTCGGTTTC
+AGTCATGTTGACCAGATCTTTCATCAAGTCC
+>ds2020-267_70
+CAGCACGTCCGCAAACCTATTTTTGTGGACGTGCGAGGCACTGATAGTTGCGGACGTGCT
+GACGGATCACGCATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACC
+GTCATGATGTGGATGCGCTGCGTTGGCGCGCTGACACCAGTTCTAAATTACCATCTGCAC
+TTTCTGCAACTTACAGCACATCTGCCATGGCAGTAGTCAATAACTTAACTTCGCGATGGC
+CGAGGCTCTAAGCGCCACCAGATGAAACTTCAGTGGCAGGTCACCGAGAGGAAGAAATTA
+CCGGTACCAGCTAACACAGCAGAGCCCTGCTGACACGGTCAGTGCGTCAGGGGTTCGGAA
+ACGGTCAGTGCGTCGCCTTAAGCGTTCCGCAATCACTCGCCCTTGTTGCGGACGTGCTGA
+GGGACTTATTGTTGCGGACGTGCTG
+>ds2020-267_71
+CAGCACGTCCGCAACCTACTCCAATTGGGACGTGCTGAGGCTTGGGAGATTGCGGACGTG
+AGGGTCAAGCTTTTGCGGACGTGCTGAGGTCTTTCCCTCGTGTGCGGAACAACTAGCCGG
+TCTTTCGAGATAGAGTAGTCGCAGGTACAGAAAGCATGTTCAATTCCTCCCGTAACGGGG
+TGGGTCCCACGCAGGTTCGTGGTTCCCTTACTCGAGAGAGACTATTAGTACAAGAAGGCG
+GACGTTGGTTGATGGCAAGGCACATGGTGTGATTCTGCCATTAGTCGTCATCCCTGTATG
+CCTGTGGAGGTCAGCCCGGACAGATGCATATATATGACAGCGAAGCGAAAGCGACGGTGG
+CTCCATACCCTGGAAAGGTGGTTACTAACTTTGCGGACGTGCTGAGGGTGCGCTGCTTGC
+GGACGTGCTGAGGGGTGGAATCTT
+>ds2020-267_72
+CAGCACGTCCGCAAGCTCAGTACGGTGTTGGAATTGATGTCCGTGATCTCAAAAATATAT
+GACATAGAAGTGAGAGAAGAATTTAAATTAGGCAGCAAGATCGGCGAAGCCGGAAAGGTT
+CAGACGTCCATGCTGAGTAACATGGTAAACAAGATAACCAGCTCCGTAGTGAGGGAATTG
+GCTGACAAAATAATAAGCCAGAAATCATTGCAAGATTCGGGGAAGAAGATGGAGGAAGAG
+AAGAAAAAAGAAACTGAAATTAGAGAGAAAAGAAGCGCATATGCCATGCTGTCTAACAAA
+TCGTGCCAAATAGAAACGGATGCAGAAGCTGAAGTTTGGAGAAACGTGGAGTGCAAAGGT
+AGGGCGACATGTTTTGACAAAACGTAGGGGAGTAACGTTGCGGACGTGCTGCTCCTTAGA
+TACCTTGCGGACGTGCTG
+>ds2020-267_73
+TTCCGATCTATCTAAGGAGCAGCACGTCCGCAATTTCATCTGACTTGGGACGTGCTGAGC
+CAAGCATGTTGCGGACGTGCTGAGGTGTGATGCCTTGCGGACGTGCTGCTCCTTAGATAC
+GCTTAAGGCGACGCACTGACCGTATTGTACCCGCTGCGATGTCTTCGAATACTGCCAGTG
+CGGTTTCCAGTGCAGTGGCGCCAACTTCTACTGGCAGTGCCCTTGCCATGATAGATATTG
+AATTGGCAGACTAAACCTACGACTGAGATGAATTTATGAAACCGCACGCCTCACTGAGCC
+AATCCCTGCAAAAACTAACCACGCCTCTGGGAACGGAGCTTGAACGGTCAGTGCGTCGCC
+TTAAGCGTGTCCGCAACCGATGCCCAATAGCTTGCGGACGTGTGACATAAATACGATTGC
+GGACGTGCTG
+>ds2020-267_74
+ATCTAAGGAGCAGCACGTCCGCAAATTCGTGGGGTTGATCATGTCACCTCTCGTTGCGTA
+CTCTGTGTAAGTGAAAGCCAGGGTAGTCTCAGGTGAAGTTGGTGGCAGTGCGATAGTTGC
+ATGCTCAACCATGGTTGACATGACTCTGTTGGCTGTGTTCGCGAGCACTGCATCGTAAGA
+GAACAACCATCCCAGTATGGGCGCTGACAACACCTGCAGAGACAGTGGTGCCCTTCCTTG
+CACTCAGAAGGCTTTGACTTCCGTGATGGCTCTTTGCATCACTGACCCTGTGTGTGTCGT
+CATGATCGCGTCAGCGACATCTCCACCAAAACGCTCGCCTGATGCGCAAGCAAGGTCTGC
+CATGCCGATGGGGTGCGCGTATTTCTCAGACCCAGCCAGTATTGCGGACGTGCTGCTCCT
+TAGAT
+>ds2020-267_75
+CAGCACGTCCGCAACGGTTTGGGGGTATGGATGGGGTATGGCCGTTTGCACGTGCGAGTG
+TTACTCCTTTGCGGACGTGCTCGCTTAAGGCGACGCACTGACCGTGTGCTTCCCCGTCCT
+GCCATAACGATATCGCTGACTTTGCCCGAGGTTTCTGGAATGTCTTGCTCAAGCATGGCA
+ATTTTCAGATTGCCACTGATTTGGAATTCGCCACTGTCAGCCTTGACTTGACCGCTAATG
+ACTTTAAACAAAGTTGATTTGCCTTCACCATTGCTAAGACGGTCAGTGCGTCGCCTTAAG
+CAATCTAAGGAGCAGCACGTCCGCAAAGGCCAACTGGTCACACGTCCCAACTGGATCTTC
+TTGCGGACGTGCTGAGGGCTAATGCTTGCGGACGTGCTGAGGCTGATGGGCTTGCGGACG
+TGCTG
+>ds2020-267_76
+CAGCACGTCCGCAATAGAACTGGGGTTAGTTTGGGACGTGCTGACCCCCTCGGTTTGCGG
+ACGTGCTGAGTCGTGGCATCTTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGC
+ACTGACCGTGGGGTTCCGGGTTGGAGGCAACACACTAGGAACGGGAGCAGGACAAATAAA
+CCCGAAAAAGGCAGCGCATCCCGGGCTCATCTATGACATCACAGTGGATGACTATATCAG
+CTTCTTGTGCAAGCAAGGCTACAACAGCACCAACATTGGCATACTTGTTGGAGGCAAAAA
+GAACATCTGACGGTCAGTGCGTCGCCTTAAGCGAAGCACGTCCGCAAGACTCAACATTTT
+CGGACGTGCTGAACGGAATCCGCTTGCGGACGTGCTGAGCCTCTGGTTATTGCGGACGTG
+CTG
+>ds2020-267_77
+TAAGGAGCAGCACGTCCGCAATGGTCACGGGGTGTTAATTCATCCCCCCACCCCCCCTCC
+ACCCGCGAGGGGGGGGAGAGTTCGACTGTTCTTCACCGAGCAGTTTGGGTGATTTTTGCC
+GACCAATGCGCGGGTACGTGTGATATACTGCATTAAGCGCACGGATTATTGGGAGCAAGT
+GGTGGGAGGAACCGGCATCTATCGGGTACAGGCAACGATGGCCACTCCGGGACCCACGCC
+TGGCAACAGGATACAAGAAAGGACGGTCAAGGTTTAGGATCTGTGGTCCCGCGAGGGAAA
+TCTCCTTTACCTCATAACAAGCCGTACACTGCGAATCCCTTGGCACCTCGGTGCTTTAAG
+AGTTCATGACCAGCCCAGTGCAGTGGGTGCCTTCTTAGGGGGTCTAGTTTGCGGACGTGC
+TG
+>ds2020-267_78
+CAGCACGTCCGCAATAGACTATGGGTAGCACGTCCGCAACAGGTACACCCTGAGGCTTGC
+GGACACGCTTAAGGCGACGCACTGACCGTACCCGCCCTGCTCCCCACTGACATTCACAGA
+AGCTTCTGTCTCGCGGTAACGGGCGGTGGCGGTATTGCTGCTGACTTGTGGACTGACGCT
+TTGCACATAAGGCTGTTCTGCAACTGCATTAGCATTCTCGTACGGTTAAAGTATTGGTGC
+CTAAGGAGCTGATATCATTGAGAATTTTTTGTTGAGAGCCTTGCCCTAGACCCACTACCG
+ATACCACAGAGGCAATACCGATAATCACCCCCTGCAGAGCACGGTCAGTGCCTCGCACTT
+AGCGTGCGGACGTGCTGACGGGGATCCTTTGCGGACGTGCTGAGGGGCATTGATTTGCGG
+AC
+>ds2020-267_79
+CAGCACGTCCGCAATTTAGGCCAATTACGTTGCGGACGTGCTGGACTGGTAAATTTGCGG
+ACGTGCTGCTCCTTAGATACGCTTAGGCGACGCACTGACCGTGGGTGAGTTGAGTTTTGT
+GCTCAATTCACAACAAGTGGTATCAGAGCTGTGTTGGAGCAGCAAGTTGCTAGAGTGTTG
+AAGATGGCAGGTGACAAGGAAGCTGAAGGTGAAAGTAGCTCTATGCTGCAGAGGCTGCCA
+CAATCTGTCAACATGAAGGTGGAGTTAAAGCCCTTCACAGGGAAGGAGAACTTCACGCTT
+TGGCAAAGGAGGATGAAGTCAGCCCTTACACAACAACATCTCCATGTTGTGTTGGTGGGC
+AAGGAAAAGAAGCCAACAGGTATGTACACGGTCAGTGCGTCGCCTTAAGCGGGACGTGCT
+G
+>ds2020-267_80
+CAGCACGTCCGCAATCCTAGGTGAATCTTGCGGACGTGCTGACCATAATCACTTTGCGGA
+CGTGCTCGCTTAAGGCGACGCACTGACCGTGTCTGGTTCGTTGTGTGTGTTTTTTTTAAG
+GCTTATCCGGGGGCTGCTGCTCTGGGGCATCCAATTCTTCTTCTTTCTTTTGCTGCTGAT
+CTCACAGCGAGAGCAGCTCCTTCTTGTTCAGGGTCATAAGATGAGAGATCTTCCTCCGAT
+TCCGAGAAATCGGTCAAGCGGGGGGCTACCCTCGGCTCACCTCTCTATCTATAGAGGTCC
+CTCCCCAGAGAGGGGCACGCGGACGGTCAGTGCGTCGCCTAAGCGATCTAAGGAGCAGCA
+CGTCCGCAATGATATTCCCCTCAGCACGTCCACAAGATCGCCTTTGCGGACGTGCTG
+>ds2020-267_81
+CAGCACGTCCGCAAATTAGAACCCGTTCCAGAGCTAATACATGCAAACAACATGACACCG
+CCGGCTCGCCGGAGGCACATGTGCTTTTATTAGATTAAAACCATACCGCTCTTGGGCGGT
+TCACTTTAGACGAATCTGGATAATTTTGGCTGATCGTATGGTCTCGTACCGACGACACAT
+CATTCAAATGTCTGCCCTATCAACTATTGATGGTAGTATAGAGGACTACCATGGTTGCAA
+CGGGTAACGGGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACAT
+CTAAGGAAGGCAGCAGGCGCGTAAATTACCCAATCCCGGCACGGGGAGGTAGTGACGAAA
+AATAACAATACAGGACTGGTGTTGCGGACGTGCTGCTCCTTAGATAGATCGGAAG
+>ds2020-267_82
+GCAGCACGTCCGCAATTTCCACCCCATTAGTGTTACTACATTGAGCTCGGTTACGGCCTT
+AGAGGCGTTCAGGCATAATCCAACAGACGTAGCTTCATACCACTGTTCGATCGAACAAGT
+ATTGTACCAGAGGTCTGTACCAGCGGTTCCTCTCGTACAACGCTAGTATGCTCTTGTAAT
+AACGGTTCATCAGTAGGGTAAAACTAACCTGTCTCACGACGGTCTAATCCCAGCTCACGT
+TCCCTATTGGTGGGTGAACAATCCAACACTTGGTGAATTCTGCTTCACAATGATAGGAAG
+AGCCGACATCGAAGGATCAAAAAGCAACGTCGCTATGAACGCTTGGCTGCCACAAGCCAG
+TTATCCCTGTGGTAACTTTTCTGACACCTCTAGCTTCAAATTCCGAAGGTCTAA
+>ds2020-267_83
+CAGCACGTCCGCAACTTCATGGGCCTCTTATTGCGACGTGCTGAGTGTATTATATTTGCG
+GACGTGCTGACGGAAGTATAATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACG
+CACTGACCGTGAAACTCCCCCCATCGTCAGCTTTCTTGGCGTCTGCAAGTTGTTCTATTT
+TTTCCTGAGCAGTCTCTTTAAGCATGGCTGCTTTTTCTTGAGCTGTTTCTTTTAAGGTTT
+CAGTTGTTTGCATGACACTGTCAATCACGGTGCTTTTATCATTAGTGCTATCTTTCGCAA
+GGTCTTTGCGACGGTCAGTGCGTCGCCTAAGCGTCGCTTAAGGCGACGCACTGACCGTAG
+TACACTCGTTACCACACGGTCAGTGCGTCCCCGACTATTCACGGTCAGTGCGTC
+>ds2020-267_84
+CAGCACGTCCGCAATGACGTTGGGATCTCCGTAACCGTGAATGTTGACTGGCTGAGCGGC
+TACCCACTGATTGTAACTGCGTCTCTGTCTGTTGCTGGTGCAAACTGCCTTCATCTGCAT
+GACCCATCCGAACAGCGCAGCAAGCATTACTGTTCCTGCTGTCTTTGCCGCGCTAACGCT
+GCTTGGTTCTATCGTTCTGAGTGCCTGTATCTCATCTGCATCAAGCTGCAGCCCACTTGC
+CGTGACACCAGCCACTGCTTTGCCATTCAATAGCTGTGAGACCACAGCGTTCTCACTCAC
+ACTGATGCCCTCATCTTCTGCCAGCACAGGCATCTCACCGATGACTCGCATGCTCACAAC
+CTCGTATGTGTTAACGATGTGGTATTGCGGACGTGCTGTCCTTAGATAGATC
+>ds2020-267_85
+GCAGCACGTCCGCAACCGGTCATCAGTTTGCCACGTTTCCCCCTTATCCAAGGTTTCCCC
+TAGCCGCAACTTGAATTGCCTGTCTTGTAGCGGCCTTTCATATGAATCGTGGAATTCTGT
+TTTCACTTCCTTCATCTTTCTTTGGTTGGGGTACGCCCTATCACTCTGATTCCAGTCCGC
+TTGCTGATCGAGAGTCGGGTAAACCGTCAACTGTTGTTGCTCCACCTTCTGGACACCCGA
+AACCGTTAGTGGCAAGGCAGCGTAGTCACTGCAATTCTTTCAGAACCTTCTTTCTCCATA
+TCTTAAGCACTAAGGGCCTGTTTTGTTTCTTACAGAATATGGGTATGTCCCACGAATGCT
+GGTTCCCGTGTATCGGGTCTACCCAAGTGCTTGCGGTTTGCGGACGTGCTG
+>ds2020-267_86
+CAGCACGTCCGCAACTTCATACACGTCCTCATAATGAAGCTACCCTTCAACTCCAAGGGC
+ACAGAGGCCTACATAGCCTCCCTCGAAGCCTCTCCCGTATTGCCACGTGTCAACTTCATC
+ACCCTCCCAAAAGTCCCAGACCTAGACAAGCACCTCAGCTCCCACTCCTTCCGCAACCAG
+TTCGTCGAAAGCCACAAAACCCACGTCAAAAACGCGGTCGCCGAACTCACCGAGTCAAAG
+TCCGAGTCAAGGCCTCGGCTTGCTGGGTTCGTCATCGACATGTTTTGCACAACAATGATC
+GATGTGGCGGATGATTTTGGGGTTCCTACGTACATGTTCTTCACTTCACCTGCTGGGTTT
+CTCGGGCTGCTGTTTAACCTACAAAGGGCCAAAATTGCGGACGTGCTG
+>ds2020-267_87
+GCAGCACGTCCGCAATAATGCGCCGCTCAGCACGTCCGCAATTGCAACCCGATAAGACTG
+GGGAACACCGATTGCGGAGATAAGGAAAGAGGCAAGGAGGGCGGTGAAGAGTGGGGAGGT
+GGTGTCGGTGGCGAAGGCGAATGAGGTTTTGTTTGAAGAGGATGAGGTGGTTGAGGAGGA
+GAGGCAGAGAGAAAGGGAATTGCAAGAGAGGAGTGAGAGGGAGAAAGAGTTTGTGGTGCA
+CGTGCCGTTGCCGGACGATAAGGAGATTGAGAAGAGGGTGCACGAGAAGCCCGAACGTCC
+TTACTTCCAGGCACGTCCGCAAACTACTCTGGCTCGCACTCCGCAAGTAATACCCCATAC
+AGATTGCGGACGTGCTGAGGGCCCACATCTTGCGGACGTGCTG
+>ds2020-267_88
+CAGCACGTCCGCAATTTTGGCCCCCTATGTCTTTTCACAATGTCAAACTAGAGTCAAGCT
+CAACAGGGTCTTCTTTCCCCGCTGATTTTGCGAAGCCCGTTCCCTTCGCTGTGGTTTCGC
+TAGATAGTAGATAGGGACAGTGGGAATCTCGTTAATCCATTCATGCGCGTCACTAATTAG
+ATGACGAGGCATTTGGCTACCTTAAGAGAGTCATAGTTACTCCCGCCGTTTACCCGCGCT
+TGGTTGAATTTCTTCACTTTGACATTCAGAGCACTGGGCAGAAATCACATTGCGTCAACA
+CCATTTTCTGGCCATCGCAATGCTATGTTTTAATTAGACAGTCAGATTCCCCTTGTCCGT
+ACCAGTTCTAAGTTGGGTGTTAAGCCTTGCGGACGTGCTG
+>ds2020-267_89
+AGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAG
+GCGCGCAAATTACCCAATCCTGACACGGGGAGGTAGTGACAATAAATAACAATACCGGGC
+TCATAGAGTCTGGTAATTGGAATGAGTACAATCTAAATCCCTTAACGAGGATCCATTGGA
+GGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATATTAAAGTTG
+TTGCAGTTAAAAAGCTCGTAGTCGGACAATAACGGTCAGTGCGTCGCCTTAAGCGTATCT
+AAGGAGCAGCACGTCCGCAAACGATTCTCCCTCACACGTCCGCAATTTTACCCTCCTGAT
+ATTGGACGTGCTGACCGGTTGCACATTGCGGACGTGCTG
+>ds2020-267_90
+CAGCACGTCCGCAAAGGGAAACCGGTTAATATTCCGGTACCTCGATGTGGATTATCCGCG
+GCAACGCAACTGAAGGTGGAGACGTCGGCGGGGGCCCCGGGAAGAGTTCTCTTTTCTTCT
+TAACTGTCTATCACCCTGAAATCGGTTTGTCCGGAGCTAGGGTTTAATGGCAGGTAGAGC
+AGCACACCTTTGTGCTGTCCGGTGCGCTCTCGACGACCCTTGAAAATCCGCCGGAAGGAA
+TGATTTTCACGCGAGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTA
+GTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAG
+GATTGGCTCTAGGGGTTGGGCATTGCGGACGTGCTG
+>ds2020-267_91
+CAGCACGTCCGCAATACCCGTATGATTGCGGACGTGTGAGGACATAGACCTTGCGGACGT
+GCTGCTCCTTAGATTCGCACTGACCGTCGATGTTGCCCTTTATGATTCGGATAAAATCAA
+TGACTCACTTGCATCAGCCATTAATATTCAAAGCTTAAATTCAGAGACATCCGATGATGA
+GGCGCGCGTTGAATTGACTTATAAAGACCAAACGCGCAATGCCAAATTGTATTACAACCA
+AGCCGATGAAGGCTTTACGCCAGCAACTTCACCTATTACTGCTGGGCGAGGACGGTCTCC
+ACGGTCAGTGCGTCGCCTATCTAAGGAGCAGCACGTCCGCAAAGTTTTGGCCCCAGCACG
+TCCCAACCCAACCCCGATTAATTGCGGACGTGCTG
+>ds2020-267_92
+CAGCACGTCCGCATGCTTCGCCGTCTTGCCATCACCATCAGTCATCATTCCACCGAAGTA
+AACATCGCTAACGTTCTTCAGCTTGTTGTTGACGTCCTCGTGCATAGCCTTCTTCGCCAC
+ACCGTATTCAGCCTCCTCTTTAGTCATCATGACGCCATCCGTCATGATGCCCTCAACCAG
+TCCATTGGGGTTCATCGCCTTCTTCACCCGCTCGGCCACCACCTCGTCTCGCTTAACTTG
+TTTCTTTGGTGCAGCCATCGTAACGTCCTTTCTCGCTTCTGGTGGTATCGTTGCAATTTG
+CGAAAAACAGTGATCTTTTGTGGGGTTCTTAGCAAAAGGTTGTGTTTGTTCGTAAGTGAA
+ATTCCTTGCGGACGTGCTGCTCCTTAGAT
+>ds2020-267_93
+TATCTAAGGAGCAGCACGTCCGCAAATTCATTTCTCTCAGCACGTCCGCAAAGTGGTGGC
+CTCACACGTCCATCTATACTGGCTTTAAGTTGCGGACGTGCTGCTCCTTAGATACGCTTA
+AGGCGACGCACTGACCGTATTTGCAGGGGTATAAGAACAAAGTTCAATCATCTCTATCAG
+ATCACGATCTGATAAATTTTCACTCCCTATTTGAACTAGTCTGTTTAATAGTTCTAGATT
+AAATGCCTTAAATATATGAGTACCATCATAAGACCACAATTCAAATTCTAGATGAGTAAC
+ACGATTTCTCATGTTTTCTACGTCTAAGGCCCATTGATTGTACTAGGGTATGGAGGACGG
+TCAGTGCGTCGCCTAAGCGTATCTAAG
+>ds2020-267_94
+CAGCACGTCCGCAAATCGACCGGCGTACTGTTGGACGTGCTGAGTGATACCAGCTTGCGA
+CGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTCATGAGGACCCTGACCAT
+GTATTGCTTAAGCAGGCTTATTTAGAGGGTGCTGTGGTAGTGACACCCAATCCCCGCGGA
+CATGCTATGTTGGCCAATAAGCAAAACCTGACATTGCTATCAGACTCCCAAATATTGCGC
+TCTTGGGGTCTGGATGAGGCTGCAGTGGAGAGGTACTGGAACACGGTCAGTGCGTCGCCT
+TAAGCGAATCTAAGGAGCAGCACGTCGCAAACTTCTTGCCCTAGCACGTCCGCAAGTGGG
+ATAGGGTGGATATTGCGGACGTGCCG
+>ds2020-267_95
+GGACGTTCGGGCTTGGGTGGAGTGATTTGTCTGCTTAATTGCGATAACGAACGAGACCTT
+AACCTGCTAAATAGCCAGGCCCGCTTTGGCGGGTCGCCGGCTTCTTAGAGGGACTATCGG
+CTCAAGCCGATGGAAGTTTGAGGCAATAACAGGTCTGTGATGCCCTTAGATGTTCTGGGC
+CGCACGCGCGCTACACTGACAGGGCCAGCGAGTTTATCACCTTGGCCGGAAGGTCTGGGT
+AATCTTGTGAAACCCTGTCGTGCTGGGGATAGAGCATTGCAATTATTGCTCTTCAACGAG
+GAATTCCTAGTAAGCGCATGTCATCAGCATGCGTTGATTACGTCCCTGCCCTTTGTACAC
+ACCGAGGAAAGCCCGAACGTCC
+>ds2020-267_96
+CAGCACGTCCGCAATCAGCCTGTTATCCCCAGAGTACCTTTTATCCGTTGAGCGATGGCC
+CTTCCATACAGAACCACCGGATCACTAAGACCTACTTTCGTACCTGCTCGACTTGTGGGT
+CTCGCAGTTAAGCGCGCTTTTGCCTTTATACTCTACGCGTGATTTCCGACCACGCTGAGC
+GCACCTTCGTACTCCTCCGTTACTCTTTAGGAGGAGACCGCCCCAGTCAAACTACCCACC
+AGACACGGTCCTCGTCCCGGATAACGGGACAGAGTTAGAACCTCAACATTACCAGGGTGG
+TATTTCAAGGACGGCTCCATTGGAACTAGCGTTCCAACTTCAAAGCCTCCCACCTATCCT
+ACACCCGTTGCGGACGTGCTGG
+>ds2020-267_97
+CAGGTATGTTTTCGGACGTGCTGACAATCAGGTCCTTGCGGACGTGCTGACCCCATACTA
+ATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTCCTGGTCTCC
+CTCCATAGCCGAAATGACCATGGTCACACAGGAAGTAAGCCTTGACTTCCCCATTAAAAC
+GGTTTTCGATACGGCGCAATTCACCATAGCGCTCACCCGCTGAGATATTACAACCTGTCG
+AACAGCCATGACAAATGCTTGGTGCATATTGCATGTCCCAATCCACGGTCAGTGCGTCGC
+CTTTAGCGTATCTAAGGAGCAGCACGTCCGCAAACGAGATTTTGTGGACGTGCTGCCGGA
+TGAGCCTTGCGGACGTGCTG
+>ds2020-267_98
+CAGCACGTCCGCAACGTCCTTACACTCAGCACGTCCGCAAGACTATCAGCCTCAGCACGT
+CCCAACCGAGTCTCTTTTGCGGACGTGCTGCTCCTTAGAAAGGACGTTCGGGCTTTCCTG
+CTGCCATCCGATCCTGAAGTTTACCCTTTGCCCTTAGAATACGACCAAGGCGCTGCGCTT
+CTTGACGCCTTGAACCAGCATGTGACGATATCTGAATTATCACATTTGCCTCCAGAATGT
+CTATGGAATTATCACCTACCTTAGACAAAAATGCCATGTTAAGCCCGAACGTCCTTACTT
+CCAGTATCTAAGGAGCAGCACGTCCGCAATATTCACACTCTCAGCACGTCCGCAAAGGGA
+ATGGGATTGCGACGTGCTG
+>ds2020-267_99
+CAGCACGTCCGCAATGGGCATGGCATCGGTTTGAAACATCGGAATTGACGACTCTGGCCA
+TAAGATAATGTCCTGACCAAGGCGGATGAATTGCGGACGTGCTGCTCCTTAGATACGCTT
+AAGGCGACGCACTGACCGTAGCTCTGTCCCCCCCAGTCGAAAACTGGAGCTCTGATACCA
+CTTGTTGTGCGGAAGCGTCAACCAATTGCGAGTGAAAAATAAACAACAACTGGCAGGAGA
+TAAATGGAACCAAAACAAAACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCAC
+GTCGCAATCCATCACGACTCAGCACGTCCCAATGTCTAGGCCCCAGCACGTACCCAATGA
+TTTCTTGCGGACGTGCTG
+>ds2020-267_100
+TCAATCGGCAGGAACAAAATTAGGTGTATAAACTTATTTTGCTTATTCGGACGGACCAAC
+TAGACTAGTTACGACATCACATTGATAGCCTCTACTCGTGTCCTAGCTCGTCTGAGAGCT
+AAATTTGCCTCAATTGTTTGTCTCTTGCCTTCAGCTTTCCTCAAGTTAGCTTCCGCTATT
+TCAAGAGTTTGTTGCGCTTCTTGTGGATCAATGTCACTACCCTTCTCTGCATCATTTACT
+AAAACCGTGATCTCATTATTGCCTATTCTAGCAAAACCACCCATCAGAGCCATCGTTAAC
+CATTGGTCGTTAAGGCGTATTCTCAAAATACCGATATCTACAGCTGTGGCAGGGCGTGAA
+CCTTGCGGACGTGCTG
+>ds2020-267_101
+CAGCACGTCCGCAATCAGTGTGTCCTCTGCTCATTGTCACGTGCACCTGACTGCTTCATG
+TGCTGTAGCCAACCAAACAGGCTAGTCAGCGCGACTGTACCTGCCATTTTAGCTGCACTG
+ACACTGTTGAGCTCGATTCTTGTCATAGCAGCTATCTCTTGTTCATCCAACTGCATGCCG
+GGAGCAGCTACACCAGCGACTGCCTTGCCGTTAAGTAAGTGCGCCATGACTGCATTTTCA
+CTGACGCTGATTCCTTCTGCCTCAGCCATGATCGGCAGCTCACCGATCACTCTGATCTGG
+TGCGGCTGAAACACAGTGATGATCTCACTTGTCAGCGTCTTGTCAGAAGACTTGGCCATG
+GTTGCGGACGTGCTG
+>ds2020-267_102
+GAGTTCTCTCAAGCGCCTTAGAATACTCATCTCGCCCACCTGTGTCGGTTTGCGGTACGG
+TCTCGTATGACTGAAGCTTAGAGGCTTTTCTTGGAACCACTTCCGATCGCTTCGTGAGCA
+TGCTCACTCGTCTCAACCCCTTGAATTCCGTGCCCGGATTTACCTAGACACCTTCTCCAA
+GTCAAGAACAGGCTCTTCCAACCGCCTGACGACCTTCCGCGATCCGTCCCCCCATCGCTC
+CATCGACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAATTGTTT
+AGTCCTCAGCACGTCCGCAAGATATTTTCCGTCAGCACGTCCCAAACTAAGGTAGGTGTA
+ATTGCGGACGTGCTG
+>ds2020-267_103
+TATCTAAGGAGCAGCACGTCCGCAACTACTTGGCTGTATTTGCGGACGTGTGAGGGAAAT
+ACCTTGCGGACGTGCTGAGGGTAAGCGTTTTGCGGACGTGCTGCTCCTTAGATTCGCTTA
+AGGCGACGCACTGACCGTGGTTTGACTCCTAAAATGTCTACCACCTCCTTGAAGGAAAAG
+TGGACATGATGCGATGCTGTTATCTTGGTATGCTTTGCCGACATGGCTTCGTACAGCTGC
+AATCACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAGCACCCA
+GCCCTCAGCACGTCCGCAAGATGATCTCACTCAGCACGTCGCAAAAGTTCCTGTATGGTT
+TGCGGACGTGCTG
+>ds2020-267_104
+CAGCACGTCCGCAACCTCTAGGCCCTCCTTGGGAACCATCACAAGTACGGCCGGCCTATA
+TTTAAACGAGAATGCCGTGTCGTCCAGCGGAGCCTAGAAGAAGGTGACTCGCGCAGACAG
+CGGACTCCTTTTCAATAGAAAGGAATAGCCAAACCAACCCAGCTGGCTGGTCAATCTCAG
+AGATCTTATCGGCCGGCAAACCGGAGACGGACGACCACGGTCCCGACCTTACCAGCACCG
+GAGGTGTACTAATCAATGAACCCCCGAAACCTACTTTCTTTTCTGACAAAATCAACCAAA
+GTACTCTTGCGGACGTGTGAGGTCTCTGAACTTGCGGACGTGCTGAGGGGGGCTATGTTG
+CGGACGTGCTG
+>ds2020-267_105
+CAGCACGTCCGCAATTTCTGATCCCTCAGCACGTCCGCAAGCCGCTGTCTCTCACACGTC
+CGCAACTACCAGGTTTTGCGGACGTGCTGCTCCTTAGATATAAGGCGACGCACTGACCGT
+CAAATGGTAGGTAGTTATTGCCAGCGTATGCCATGTGCTCTTCGCATTCAGCTAAGAGGA
+GTGCTGGCTCACTATGCATGGCCGCTGCAACACGTTGACCGAGCGATAACGGCACGGTCA
+GTGCGAATCTAAGGAGCAGCACGTCCGCAAATCAGTTTTCCTCAGCCGTCCGCAAATGTT
+CTCTCCTTGCGGACGTGCTGAGTAACTATGCATTGCGGACGTGCTGCTCTTAGATAGATC
+GGAAGACCAC
+>ds2020-267_106
+GCGACGCACTGACCGTCTATCCGTTCCTTCCTGCAATCTTGATTGAATGGTTTGAATCCA
+AGTAATCAACTTCAATAATTCTTCATCGGCAATGGCTTGCCAAGTCAGACAGCAGCTTTC
+ATCATAGTTTTTGCCGGGCGTATTCATCGCATCCGTAATGACCTCCGTGATAACATCTGT
+GATAACAGCATTGATAACATCAGCGTCGCCAGTTAAATTTTCGTCCAGTCGCATCGGGGC
+TGTTGGTTTGCTAGATGGGCAGTAACGGTCAGTGCGTCGCCTTAAGCGTCTAAGGAGCAG
+CACGTCCGCAAACGAGTAACGGTAGCGTTGCGGACGGCTGACAGCTTATTAATTGCGGAC
+GTGCTG
+>ds2020-267_107
+CAGCACGTCCGCAAATGTTACCCGATGGTCCTTGCGACGTGCTGAGGAGGTCTGAATTGC
+GGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTGCATTCGCCGCTGCC
+ACCGAAGTTTTCTTTGCTTTCCCGACTTAGCTGCAATCAGCTGAGCCTTGAATTCTAGCA
+CAGATTTTGAAGATCTGTCAAACTTTTTGATCTCTTCTTTTGCTGCAATCGCTTTTTCAA
+AGCAACCACCGCAATCAGCGAAGCCTTAGATTGTACAACAGTTTTTACACCGCAATCAAC
+AAATTCCAAAACTTCTTCAACCAACCCCGATACAGACGGTCAGTGCGTCGCCTTAAGCGA
+ATCTA
+>ds2020-267_108
+CAGCACGTCCGCAATGGTCCGCCCTTCCTCTCCCTCTCCCTATGGTCGAGCTAGTTTAAC
+CTTCCTCCAAGACTTGAATCAGGAATATCTTTTCTGTACTATGCCCTGCGCCTGGTCTTT
+CTTCTTTATTGCCTTGGCCTTTCACCGGATCGATCCCTTCCACCATTCCTCCAACAGATG
+CGGATGAATTAGCTGCCGTTATTCTTTCAACATTTGCAGAGCTAACCCCTGAAGTGACTT
+CAGTCCCGTGTTAGAGCTAACTGCTGCTTCTTCTATAGCAAGTGCCGAGCGAGTGCATAT
+TGCGCTGAAGGCCCCCGCGTTGCGGACGTGCTGAGAGAAGGGATGTTGCGGACGTGCTG
+>ds2020-267_109
+CAGCACGTCCGCAAACATAGGGAGCCAATTGCGGACGTGCTGTCTGGAAGTAAGGACGTT
+CGGGCTTGTTCATACTACTCCCCATAGCGACACCATGTGCTACCGACGCAAGATTTGACG
+GTACGCAAAGACTTGCCATAGGCATGCCCTGTTTCAAAACCTGCGTTGATTAAGCGTTCC
+CAAATATCGGGCAATTGGTCAATACGTGCACCAAATAAATCCACACGTTACCCACCAGTA
+AAAGCCCGAACGTCCTTTATCTAAGGAGCAGCACGTCCGCAACATAGCGCCCCTCAGCAC
+GTCCCAAGTAGTGTGCCCTCAGCACGTCCACAATGTAGGTCTATTGCGGACGTGCTG
+>ds2020-267_110
+TATCTAAGGAGCAGCACGTCCGCAAGGTGCCCAGGGTGCCTTGCTTATGTCTTAAACGGT
+TAAGGGGATTAAAATGATTGCTGTTGTTATCATTGCTTTAGGTGTCATGATTTGCGGACG
+TGCTGCTCCTTAGATTCGCTTAAGGCGACGCACTGACCGTTGTAGTTTGCCTGTAGGTGC
+TGCAAATGCTCATTGAGCTGTTGCTGGTTATTTGTGAGTGCATGCTCTTCAAGTAATAAC
+TGCTGTAATTGGCGATTGATGTTATCAAGCCGTTGTTTGGCAATCGCTAATTGTTGCTCG
+GTATCATCGGGCGTGTAGGGCTGATGGGAGGCCAAATAACACGGTCAGTGCGTC
+>ds2020-267_111
+CAGCACGTCCGCAACGAGTAGCCACTCAGCACGTCCGCAACTCCCGGGACTTTGCGACGT
+GCTGCTCCTTAGATACGCTTAAGGCGACGCACTGACCGTAACAGCGTGGTTGGAACGCAA
+GAACTGTTTGTGCAGATCAGTTATTGTGTGTTCTGACTTACACGCCCGTGTCACTCCGGA
+TTTATCGGGATGGCGGTAAGTGCTTTGCCGTTGTCCACATAAAGACGGGGTGGACGTTTC
+ATTTACTCTTTTCCCAAATAAGAAGTGGAACGGACCTCGGTCAGTCCGACCTAAGTTTGC
+ATCGCAGAACATCCTGTATTGATTATAACGGTCCTTTACTTGCGGACGTGCTG
+>ds2020-267_112
+CAGCACGTCCGCAATCATTGGCTGGTGTTGCGGACGGGATGAAGAAGGATTTGCGGACGT
+GCTGCTCCTTAGATCCGCTTAAGGCGCGCACTGACCGTCCAGACTGGGATGGCGCATATT
+TGGCCGGTTAATATTTTCTATCTAAGCCTCCATGTTCCTAGGAACCTAGAGGATCCCCCC
+CCTCATCTTCCATTTCAGCAATCTCAACGTCGCGCAGCCACTTTGGCTTCCTGTTCGACC
+GTTTGTTCTTTCTCCTTCGGCTGTCGGAATTCGGGTACTTGACTCGATACGTGTTCTTAT
+CCATCATGACCAATCCATCAACGGTCAGTGCGTCGCCTTAAGCGAGATCG
+>ds2020-267_113
+CAGCACGTCCGCAACACATCCGTTCTTCACATCCAGGCACTCCAATGTCGCTTGTGAGTA
+GGGCTTCCCAGGCCCGAGTGAACGATGAGTTTGGTGAACGCATGTCTTGGGTAGACACGC
+TCGGTCCGCGGCCCCGTAAGAGGTACACCGGCGAGTGGCGGGTTCTCAATCGATGGAGTA
+GGGTTCCGTTGATCCCTGACATTGAGAATCACCTCACCAAACCGCCTCCCGTTTCTGCAC
+CCGTAACGTAAATGGATGCAAACACCGTCGGCTCGTTCCTTGCGAACGTGCTTGCGAGCC
+CTAGAGGGGGTCGCATTGACAAGAACGCCAACCGATTGCGGACGTGCTG
+>ds2020-267_114
+GACGCACTGACCGTGATCGGCTTTCTATTTTTTTTGTGTCCTTTATTCTTCCTTGCTTCG
+GATCGGAAAATTAAAGAATTGAGTGAATCATAAACCAAAGGAGGTTCATGGCCAAGGGTA
+AAGATGTCCGAGTAACAGTTATTTTGGAATGTACCAGTTGTCTTCGAAATCGTGTTAATA
+AGGAATCAACGGGCATTTCCAGATATATTACTCAAAAGAATCGACACAATACGCCTGGTC
+GATTGAAATTGAGAAAATTCTGTCCCTGTTGTTACAAACATACGATTCATGGGGAGATAA
+AGACATAGATCGACCCGACCGCAGCGCGCGATAGTGCGGACGTGCTG
+>ds2020-267_115
+CAGCACGTCCGCAAAGTGGTGGCGCTAAGCGAACTGATGTCAACTCTAGGAATGATACCC
+ATAGACGAGGCGCTGACTGCCGAAGCTTGCGGGTCAACAAGCCCAATCGAGTGGGGAAAA
+GAAGGAAGAGAAAGAATAATGAGCGAAAGAATAGAAACGTTACGTGAAGCTGCGTCTGAG
+CCTTCGGCGAGAACGACGACGCTATTTGTAGAAGAAAGGTGACAAGAAGAAAACATAGGA
+AGTACGCGGCTGGGTGCCAGCGAAAGAACGGAAGGATAAGCAAACAGAGGAGAAGAAGTG
+GATGGTGAAAAGAAAGAAAAGAGAAAGTTCATTGCGGACGTGCTG
+>ds2020-267_116
+CAGCACGTCCGCAGCGACGAGTTCATTGTAGCGCGCGTGCAGCCCAGGACATCTAAGGGC
+ATCACAGACCTGTTATTGCTCAATCTCGTTATTGCTAGACGCAATTTGTCCATTTAAGAA
+GCAAAGTGTCCTCTTAAGACAAACCAAACAGGTATGACTCCATCGCACGTGCCGAAGCAC
+ATGAAACTTCAACGCCATAGTCCTGCAGGCATCTATTTAAAAAAGTTTGAGTCTCGTTCG
+TTATCGGAATTAACCAGACAAATCACTCCACGAACTAAGAACGGCCATACACCACCACCC
+ATAGATTCGAGAAAGAGCTATGGGTTGCTAGTTGCGGACGTGCTG
+>ds2020-267_117
+ATCTAAGGAGCAGCACGTCCGCAACGCAAATGGCCTCAGCACGTCCGCAATTACCAACCC
+CCATTTGCGGACGTGCCTGGAAATAAGGACGTTCGGGCTTATTCCTCGTGCTATGAGCCG
+AAGAAATAGTAAGATATGGGTAAGAGTTCTCGCTGATCTCCCTATTACCCGGAAACCTAC
+AGAAGTAAGAATGGGAAGAGGAAAAGGAAATCCTACGGGTTGGATCGCTCGTGTGTCCAC
+GGGACAAATCCCATTTGAAATGGATGGTGTGAGTTTGTCAAATGCTCGACAAGCCGCTGT
+CAAAGTGTGGATTTCATTTTGTAAAAAATAAGGGGGACGTGCTG
+>ds2020-267_118
+CAGCACGTCCGCAAGGGTGCCCCACCCACACGTCCGCAATGAATCGTTTGTGGTTTGCGG
+ACGTGCTGCTCCTTAGATACGCACTGACCGTTGCGCCGCCATAGAACTCGACAGTTACAC
+CTACTTGTTCGACACTATATTTTGATTCTGCCCTTCTAAAAGGAACATCGGCTCTAACAA
+TTCCGTCTCCGTCTACCAAAACAACCGGAAACGTTTCAAAAAAGGTAGGCATACGACGTA
+CAAAAAGTTCGCGCCCCTCTTTATCTCTAAAGATAGGATGTCCTAACCACCCAACAGCTA
+TTCCATCCCCGTTGTCCATTGAGCCACGAACGGTCAGTGCGTC
+>ds2020-267_119
+ATCTAAGGAGCAGCACGTCCGCAAATGACCTGAAGTGAGAGACCCGAGAGTGGAAGTGGT
+GTCAGACGGACAGATAGAAGCAGAAATACCACTTGATGTTCAAACAGCCAATGAGATCAT
+GGAGTCGAAAGCAGTTTACAAGTTCAAAGGGTCCAGAGATTACGTCGAAGGGCTTGGAAG
+CACGTACGGAGTGACTTGGAAGCATGAAGGAAAGAAGAGGGCAGTGGCACTCATCGCTGC
+TGGGAACCTGATGGTGGGAGCAAGGCAGTCAACCGGGATGCACGATGAACTCAGCAGAGA
+CGTGGAGCTTTCCACAGGGGACGGAACTTGCGGACGTGCTGG
+>ds2020-267_120
+GACGCACTGACCGTAACCTTGACCTTGACGCACTGACCGTTCCCTTTCCCTTCGTATCTA
+TGGCACAACGGACGGTCAGTGCAGGAGCAGCACGTCCGCAACCCCGGCTTCGTATGATTT
+TGCTTACTATACCTGCTGCTGTAGCATTATAAACATTATTGTTACTCTTGCTCCCGTCGG
+GATAAATCTGACCCCTTCCCCTGTTCCCGCCTACGTATATGGGATATTTTAAGAAGTGAA
+CATCTTTCTTAGTAGCGGGGTCCGGGGAAAGAATAGGAAATGTGATTTCACTATATTTCT
+GACCAGGGACAGGACCTATCACCATTTGCGGACGTGCTG
+>ds2020-267_121
+GCAGCAGTGGGGACTCTTGGACAATGGGCGAAAGCCCGATCCAGCACTATCGCGTGAGTG
+AAGAAGGGCAACGCCGCTTGTAAAGCTCTTTCGTCGAGTGCGCGATCATGACAGGACTCG
+AGGAAGAAGCCCCGGCTAACTCCGTGCCAGCAGCTGCGGTAAGACGGGGGGGGCAAGTGT
+TCTTCGGAATGACTAGGCGTAAAGGGCACGTAGGCGGTGAATCGGGTTGAAAGCGAAAGT
+CGCCAAAAACTGGTGGAATGCTCTCGAAACCAATTCACTTGAGTGAGACAGAGGAGAGTG
+GAATTTCGTGTGTAGGGGTTACAGGTTGCGGACGTGCTG
+>ds2020-267_122
+ATCTAAGGAGCAGCACGTCCGCAATAAACTCCCGGTAGAAAGAGATTTCACTAATGAAAA
+AGCTTTCAATGCTGCCCGATATCCCTTCCTTTTCCAAATATTTTTACGAATCCGTTTTTT
+TGAAATAGAGGTGCGTTTTTTTGGAACTGCCATTAAAAAATTATATTATAATAGGTTCTT
+CGGTTGGATGTGAAAGACATCTATTGTTCAACTCTTCTCTATCTATTTATTCTCTAAATC
+ATACTCCCTTCATAAAAAAGGGGGGGGGGGTTGCGGACGTGCTGCTCCTTAGCTACGTTC
+GGGCTTGTTATAGGGGTTGGTTGAAAGCCCGAACGTCC
+>ds2020-267_123
+GACGCACTGACCGTCGCCCCCCGTGCTTCTGGCATGTTACATTCCTCTTCGTGCTGAGCC
+CCCCTTTCTCGTCGGTCCGCAGAGACAAAATGTAGGACTGGTGCCAACAGTTCATCACGG
+AAGAAAGGACTCGCTGAGCCGAGATCACTAACTAATACTAATCTAATACTAATGAAAATG
+CTAATATAATAGAAAAGAACTGTCTTTTCTGTATACTTTCCCCGGTTCCGTTGCTACCGC
+GGGCTTTACGCAATCGATCGGATCATATAGATATCCCTTCAACACAACCTAGTTCACTGC
+CAGGATCTCGGAGACACGCCACCAAGCCCGCACGTCCC
+>ds2020-267_124
+CAGCACGTCCGCAAATGTATCCTCCTGTGATTGGGACGTGCTGAGGGCCCATGAGTTGCG
+GACGTGCTGAGTGGCCTTGTGTTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACG
+CACTGACCGTGGTTGTCACCCTACTCCATCCATACCACATATACTCTACATACACATCAT
+ATACACACATACCATACACACTGTCACACACACCGCATACACCACACACACCCACACATA
+CCACACACACATATACATCACAGACACCATACCCACTCACACACAGAAACATATACCCCG
+GCAAATACGGTCAGTGCGTCGCCTTAAGCGAGATCGG
+>ds2020-267_125
+CAGCACGTCCGCAATGTATCAGGGTTGGTTGCGGACGTGTGAGGGAGTGGCTATTGCGGA
+CGTGTGATGGGTATGAAGTTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCAC
+TGACCGTCTTACTTGGCCTCTCGTCACATACCTTCATGTTGGGAGAGCTGTCTACGGCAT
+AGTCTAATTGCCATTCTTTAGGGGCTTCGCTGTCGCTTCTAAGAAAGATTTCAATAGCTC
+TTCTTATAATTTTGAACCGCTTTCCTGCGTCCACTTGTTCAACATGGTTGGTCGTGCCAT
+AGGATCTGGGTTGCGGACTTGCTGCTCCTTAGCTA
+>ds2020-267_126
+GACGCACTGACCGTGTTCCAGGCCCTCTCTTAACTGAGACAGAGATCCAATGCTTGAAGT
+AGGAATAAAATTGATTCCACCAAACCTAATATGTATGGTAGATCAGGTCATATTTTAAAA
+GTATTCCTTTCTTTTCTACTCATTTATATCTTCTAAATCTATTTTTTTTTCTGGCTCGGC
+TAAGTGGGATAGCCGAGCCATTTCCTTATTATGCTACCGATTCCTTTTATGCTACAGCCG
+GGACTACGGTCAGTGCGTCGCCTAAGCGCACGTCCGCAATCCAAGGAGCATGTAGTTGCG
+GACGTGCTGAGGGCATTAACATTGCGGACGTGCTG
+>ds2020-267_127
+CAGCACGTCCGCAATTTTCGCTACCTTAGGACAGTTAGAGTTACTGCCGCCGTTTACCGG
+GGCTTCCATTCAAAGCTTATAACACTTCTCCTTCCGACCTTCCAGCACCGGGCAGGTGTC
+AGACTCTATACATCGTGTTACCACTTAGCAGAGTCCTGTGTTTTTAATAAACAGTCGCTA
+CCCCCTGGTATGTGCCGCTTTCCTAATCAAAAGATAGGAGAGCACCCCTTCTCCCGAAGT
+TACGGGGTCATTTTGCCGAGTTCCTTCGACATGGTTCTCTCAAGCGCCCTAGTATACTCT
+ACTTGTTCACCCGTGTCAGTTTGCGGACGTGCTG
+>ds2020-267_128
+CAGCACGTCCGCAATATGGCTGAGCTTCCAGTACGTGGGGCGCAACGCCCACTCTCTACT
+GAGCATCCCGTCCGACATCAATTGCTGCTCGTCAGCAAAACGAGCCCCAGACTAGACTAT
+CTGGGGGAAGGTATACCGGGGTTTGTTAAGACCCGGATGCCCCATAGGAGGCCGTCATTA
+CACACTTGGGCGTTTGCTAAACGTTAACCCCAAGATTGCACCTATTGAGAGATCTCTCAT
+GCAGTGCTCCTGACTTACCTTCACCTTTTCCAAGACTTCCCCGCACGAGATGCCTATGCA
+TCACATACGTGGGCGGTGTTGCGGACGTGCTG
+>ds2020-267_129
+GGACGTTCGGGCTTCATCTAAGGGGTACCTCATGCTCTTCAAGGTCGAGGCTAGCGCTGG
+AGGTTCGAATGTGGATTTGATGGATCTGTCGACGCTTGACTTCGCTCTCATGGCCGAGTT
+TGATCAGCACATCCTCGAGTATATTCGGCAGCAAGTCATCGACGCCCTCGAGAAGGCTAA
+ACACGCCAGCGACGAGGCGATCGAGAAAGCCCTGAGGAAAGCCCGAACGTCCTTAATCTA
+AGGAGCAGCACGTCCGCAACCCGTATTCCCCGCACGTCCGCAACAATTAACTACTGATTG
+GGACAAGGCCACAGCATTGCGGACGTGCTG
+>ds2020-267_130
+CAGCACGTCCGCAACTGCAAATGGATAGACTCCAAGGTCCGAACTGTAATTGGTTCTCCT
+ATAACCCAGTATATAATGAGCACCATATGGAATTATGGTCCCAATCACAACTTTGCTTGG
+GAGACCACACCCATCAAAGTGGGCATGCCACTAAATGGGTTTTGGCTGTCCAAGTTGTTC
+TCTAAACATGCCAGGTGCCAAATGCACATTGAGGGTGACTTTGAAGCTTTTGACTCAACC
+ATCTCCGGGTCCGTTGTTGACCTTATTAAGGATGTGAGGAAGAAAGGGTATGAAATGCAT
+AGAGACAGGGCTTCAGTTGCGGACGTGCTG
+>ds2020-267_131
+CAGCACGTCCGCAATCCACGACCGCTAGCGAAGGTCCCAAAGTCATGGTTAAGTGGGAAA
+CGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAA
+AGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATG
+CACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCT
+GTGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATATGAAC
+AATGTTGCGGACGTGCTGCTCCTTAGATA
+>ds2020-267_132
+CAGCACGTCCGCAAGTGCTAACGATAGTAGGTTGGGACGTGCTGAGAGTAATTAGTTTGC
+GGACGTGCTGAGTGGTTAGACTTTGCGGACGTGCTGCTCCTTATCGCTTAAGGCGACGCA
+CTGACCGTCGTTCTGGTGCTCCCTGTGCTTGTCCCCATAACTGTCACTGTAGCTATCACT
+TGGGCTATGACTTGCATACTCATGCACTGCCGAGGGTGCACTGTTCGGGGGATAATCTTG
+GCTAGCAGAAGCAGGATAAACATCATCCGACACTAGATAATCTTCCAATCCTTCAGTTTC
+ATGGCGGGTAAAACGGTCAGTGCGTCAG
+>ds2020-267_133
+CAGCACGTCCGCAATCAGTTTGTGGCGGTCACTGATTACTTCCGGTGGGGTTGACTGGAG
+GGATTGGTGACCGGGGTTGAATGGCATCAGACAGCGTGGCCTGAGGAGAAGCATGCAGCA
+TCCGGACTCTTGAAGGATGAAGACGTCAATTACCGTTGAGAGGGACGGTTCATGTAGGGG
+TACGTTAGCGAGTAAAAGACTAAGCGTAGAAAAGGAGATGCCGTGACCGCCATATTGAGC
+CGTTTCCGTTTTGTTCTCCCATCTCACCATAGATGAAAAGCTGGTACTAGTTGGATCCAT
+CGACTAGGGGATTGCGGACGTGCTG
+>ds2020-267_134
+CAGCACGTGCGCTCGCTTAAGGCGACGCACTGACCGTAGTAATGAGGGTTCCAGTTATGT
+GTTTTAGATTCTTCATTCCAAGTATATTCACTATGAATATCATAAAGAAGTTCTTGATCT
+AAACAAGTATAAGCTTTACTCTCTTGTTGCCTAACAATTTCTTCAATGATTTCATTAGCA
+CGAACAGTATAACCTTTACCAAGTAACCAGAAAGCCAAAGACGGTCAGTGCGTCGCCTTA
+AGCGAATCTAAGGAGCAGCACGTCCGCAATTACATTGGGCTGAGGTTTGCGGACGTGCTG
+AGGGGATCAGTTGCGGACGTGCTG
+>ds2020-267_135
+CAGCACGTCCGCAATGTGTTGCCCTCAGCCGTCCCGCAACCGTCTAGACCTTGCGGACGT
+GCTGCCACCGCTTAAGGCGACGCACTGACCGTGAATCTACAGGGACGCACTGACCGTACC
+CTTCTTCCTGACGCACTGACCGTGACTTCAACACTGACGCACTGACCGTCCGAGTATGCG
+TGACGCACTGACCGTCGTTGGATACTGACGCCTGACCGTTACGAGATCTCATACGGTCAG
+TGCTATCTAAGGAGCAGCACGTCCGCAACCTACCCGGGGTATATTGCGGATGTGCTGAGT
+CATGCGTATTTGCGGACGTGCTG
+>ds2020-267_136
+CAGCACGTCCGCAAGTATGCCTGGTTTCAGGATCTATTTCACTCCCCTCACAGGGGTTCT
+TTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTATTTAGCCTTGG
+AGGATGGTCCCCCCATATTCAGACAGGATACGACGTGTCCCGCCCTACTCATCGAGCTCA
+CAGCATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAGACGCT
+TCCACTAACACACACACTGATTCAGGCTCTGGGCTCCTCCCCGTTCGCTCGCCGCTACTG
+GGGAAATCTTGCGGACGTGCTG
+>ds2020-267_137
+CAGCACGTCCGCAACGTATGCCCCCTCGCGGAGCTAAGTCTTCGTTGCCGTCTTAAGACA
+ATCCACCGGTAGTGTGGCGCATAACTTGGGTTCTGGGCTAAAGTCGAGCGCAACTGCATA
+AGAAGCGTGCGATCCGTTCGGACCACTTTGTGTGTCTTACTCTGAGGGCTTTGTCACGGG
+GCGGTGATATGTGAGGTAGGCCCCTTTGAGAAAGGGTCTTTAAAGCGTGCCGTAGGACGT
+GCGCGCCTCATGTTACCGGGTACCCAAGGTCATAGGAACTGGGACTGCCTTGCGGACGTG
+CTGCCCCTTAGATAGATCGGCA
+>ds2020-267_138
+CAGCACGTCCGCAACCGCGTTCATCTCAGCACGTCCGCAAGCGACCTCACGTCAGCACGT
+CCGCAATGGCCATATCGTTGCGACGTGCTGCTCCTTAGATATAGGCGACGCACTGACCGT
+ATCGTCGCCCCTGGTGGCATGGGCCTGTAGTCCCAGCTACTCAGGAGGCTGAGTCAGGAG
+AATTGCTTGAACCTGGGAGGCAGAGGTTGCAGTGAGCCGAGATCATGCCATTGCACTCCA
+GACTGAGGTGTTCGCTCTTGGGACGTGCTGAGAGGAAGATGTTTGCGGACGTGCTGAGCC
+TTATCCTATTGCGGACGTGCTG
+>ds2020-267_139
+CAGCACGTCCGCAAACAGCCTATCCTCGCACGTCCGCAACATCGCTTAAGGCGACGCACT
+GACCGTTTGTTGCTGGGTAGTGACGGCGTTATCTTAAACAACAGCCGAAAAAAACACCCA
+GACCCAAACGGCTGGGTGGGTGGAAGGTAACCCGTGGCTTGGTAAAGGCGAAGCCAAAAT
+TATTTTGGGTCAGGTCAATTCAACCAGCCCCAGTCAATTGGCCGGTTATACCGAAATTGC
+CGGGGGCAAAGCCGAGCTGGTGATTGCTAACCCAGCAGGGATTACCTGTTCGGGAGGTCT
+AGTTGGACGGTCAGTGCGTC
+>ds2020-267_140
+CAGCACGTCCGCAATGAGTTTGGGCGCTTAAGGCGACGCACTGACCGTCAAAGCAGCCAT
+CCTTAAAAGAGTGCGTAATAGCTCACTGGTCAAGCGTTCCTGCGCCGAAAATGAATGGGA
+CTAAGCATTGCACCGAAGCTGTGGGTTTGTCTTTAATTAGACAAGCGGTAGAGGATGCTA
+AACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAATGCATGTGGG
+GTCAGCCGTCCGCAATAAATCACCCCTGAGCCATGCACGTGCTGAGGAAGAGCGCGTTGC
+GGACGTGCTGCTCCTTAGA
+>ds2020-267_141
+CAGCACGTCCGCAACGTGGTCATTCTCAGCACGTCCCAACCTAGTATGCCTCAGCACGTC
+GCAAAGACCGGAACCTTTTTGCGGACGTGCTGCTCCTTAGATACTGGAAGTAAGGACGTT
+CGGGCTTTGCGTCTCCCCTAGATCGCATCTTGCGTTGGGGTGATGCTAAAGCTTGGCATG
+TCAGCAAGTTCAGTGCCTGCAGGGATAGACACTGTAACCCCAGCAATCGCTTGTGCCACT
+GTCAGGGTTTGGGTTGTGCCATCAGCATTGGTGAGCACGATGCTAGCAATGTCAGCCGCG
+TAGTTAAGCCCGAACGTCC
+>ds2020-267_311
+TATCTAAGGAGCAGCACGTCCGCAAATGTGTCCCGGTTGTTGTTCGATCAAATGCCAAGC
+CCGGATTTTTATTCGTGGAAGGTGATGCTGAGGTGGTACTTTATGCACAACTTGTATGCA
+GAGGTTATGGGGTTCTATACCCGTATGAGAATATGCGTCAGAGAACATGACAACGTTGTT
+TTCTCGATTGTTCTGAAGGCTTGTAGTGAATTGCGGGACTTCAATGAGGGGAGAACTATT
+GCGGACGTGCTG
+>ds2020-267_312
+GACGCACTGACCGTGGCGGTAGCCCTCCATTCCTGAGCGCACAGGCGCTTTCTTGGATTT
+TTGCCGCTCGCTCAAAGGCCGCAACATCACCGTATTTAACTACCGCATCAACACCAACCC
+CAAATACGACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAAAC
+CACTTCACTTGGGACGTGCTGAGGTGTGCAGCGTTGCGACGTGCTGAGCCCTAGTCGATT
+GCGGACGTGCTG
+>ds2020-267_313
+CAGCACGTCCGCAAGGACACACTCTCAGCACGTCCGCAAGATTTATCTCCTCACACGTCC
+GCAACAAGGGCCGATTATTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACT
+GACCGTTCCTTTGATCCTTCTGCAGGTTCACCTACAGAAACCTTGTTACGACTTTTACTT
+CCTCTAAGTGACCAAGTTTGCCTAAGTTTTCAGCGGCCTGCTACCGTTGCCGGTACAAGC
+TGCCAATCCCAA
+>ds2020-267_314
+GACGCACTGACCGTGAAAGCCTCCCTGACGCACTGACCGTTTCGTATGCTCTGACGCACT
+GCCTTATATCCCCTATGGGGGATGGGACGGTCAGTGCGTCAGGGAAGTGTCAACGGTCAG
+TGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAACCCATTACCCGTTAGCAGT
+TGGGACGTGCTGAGGTGGCGAAATTTGGGACGTGCTGAGGGAGGGCGTATTGCGACGTGC
+TGCTCCTTGATA
+>ds2020-267_315
+CAGCACGTCCGCAAGCAGCCATAGGTCTGAGAAGCATTACCGCCAACTGGTGAATCATGC
+GTCTGAAGGCATTATTGTTGTGCAGAATCAGAAAATTGTTTTTGCTAATCCTCAGATATA
+CAAACTCACGGCACGCCAACCGGATTCTTTACTGGCATTCAATTTTACTGATTTAATTGA
+CGAAGCTGATCGGCTGATCGTACAGGATTACGAGCAGCGTTGCTTACAGGGGGAACGTTG
+CGGACGTGCTG
+>ds2020-267_316
+GACGCACTGACCTTTGTCACCACGTTTGTGATCAACGCGTAGAAACTCAGCTATTGCACC
+GAATGCGCACTTAGAGGGCTGCGTTCGTATGCAAAGCCTTTGTCCTCTCTGGAGTGTGAA
+ACGAGTTATTTCCAGTGACGTCGTCCCTAGAAGCACATCGTCACCGTTGTGCAGTGAAGA
+GCCGACTTCTTTCATCGGACCCAACATGAAGTCGGTGTAAACGGCATTTCGGACGAGTTG
+CGGACGTGCTG
+>ds2020-267_317
+CAGCACGTCCGCAATCGACCGCCATTAGCTTGGGACGTGCTGAGGAGATGGAGCTTGCGG
+ACGTGCTGAGTGCAGAATAGTTGCGGACGTGCTGCTCCTTAGATAGGAAGTAAGGACGTT
+CGGGCTTAGAATTATCCCTGGCGTTCGGCTTCCTACAGCGAGTGGAAAGCCCGAACGTCC
+TTACTTCCAGAAGTGCGTCAGCGGGTCGCATACGGTCAGTGCGTCAAGGATGTTTCGACG
+GTCAGTGCGTC
+>ds2020-267_318
+CAGCACGTCCGCAATCTGGACCCCTTTCCTTTGTTTCTACATCCCTATCCCAAAAGACTG
+AATTGAGTTCGTATAGGCATTTTGGATGCCTCTATTGAAATTGCCCTTCTGGCTATATTT
+TCTGCTACTCCGCTCATTGCAGAAAGTATTCTACAGGGTTTAACAACAGCTACCCAATAT
+TCGGGAGATCCTTTACCCGAACCCATAAGTGTATCTGTAGTGCTGAGTGTAACGTGTTTG
+CGGACGTGCTG
+>ds2020-267_319
+CAGCACGTCCGCAAATGAGTCCCCCTAGCTTGCGGACGTGCTCTGGAAGTAAGGACGTTC
+GGGCTTTATGGGAGCTCTGAGCGCATTCTGTTTTTCAAGGGTAATTCCTAGCCTTTCCGG
+ACCAGAGTTGGGCGTAGTTCCTGGATTGAAGTCTGCCTGAGAAGCTTGTACAGCAAGGCT
+CTAAGGTTGCGGCGTGCTGACGTATAGGGGTTTGCGGAGTGCTGAACTCACCAATGTTGC
+GGACGTGCTG
+>ds2020-267_320
+GGAGGCAACTTTCCCGTATGAGCATTCGGTACATGTATCAGTCCGTGGAAGAGTGAAAGG
+GTCACCACTACTGAGGATCTCCCCCCTAATCTTAGATAGGTCGTCTGAGGGTTCGCCGCG
+GTTCATTGCTGTGCTTACACACTAGGCTACCCTTCTCCGAAAGCTCCGCGGGACCACCTA
+CCACTAGTCTTCGGCCGGAGGGGTTTATTGCACAAAAACGCCAGTCCGCAAGCCCGAACG
+TCCTTAATCT
+>ds2020-267_321
+GGACGTTCGGGCTTTTTCAGTTGGGTATGAAGCCCGAAGTCCAAGGAACCTTGTAAGCCC
+GAACGTCCTTACTTCCAGACACTGACCGTCGGGGGACAATTACGGTCAGTGCGTCAGGGA
+AACCTAAAGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAATCCTT
+TATGGTTGGGACGTGCTGAGCGGTAGTGGTTTGCGGACGTGCTGAGGGAGCGCAAGTTGC
+GGACGTGCTG
+>ds2020-267_322
+GGACGTTCGGGCTTAACATTGACTCTGGGTAACTGATGTGTAGGATAGGTGGGAGCCTGT
+GATCCGGCGTCGCTAGGCGTCGGTTAGGCAACGTTGAAATACCACCCTTCAGTTGCTTGG
+AGCCTAATCCCCGAGGGGGAGACATTGTTTGGTGGGTAGTTTGACTGGGGTGGTATCTAA
+GGAGCAGCACGTCCGCAACAGCGCCAGAGTGATTGGGACGTGCTGCCCGTGTCATATTGC
+GGACGTGCTG
+>ds2020-267_323
+CAGCACGTCCGCAAAGCCCGCGATGACTTTGTCGTTGTACAGACGGCGGACCTTTTTCAC
+GTTGCCTTTCATTACGGTATTGCCCAACGTGGCCTGACCATCACCAGCGATGACCACATG
+GCCGTTACGGCGTACGCTTACTATAGTTGTCACGAGCTGACCCCTTGGTTACGAATACAG
+AGTACAAACCCCGTACAAAAGTACGGGGCATAATGCAATTATAGATGGCTGAGGTGTTGC
+GGACGTGCTG
+>ds2020-267_324
+TTTCGATCTAGCTAAGGAGGAGCAAGTCGGCAATGAAGCCGCTTTGTATGAGGCGCTTGT
+TTCACGTTTGGGTGGAGAATATCTTGATGTCGCCTTCGATGCTGTAGGAGGGCCACATAT
+TGAACAGATTGCAAAAGCGATGTCTGTGGGAGGACCCGAATGCAACCGGTCAGTGCGTCG
+CCTTAAGCGATCCGCAAGTAGGTAGGTATAGTTGCGGACGTGCTGAGTACAGGTCACTTG
+CGGCGTGCTG
+>ds2020-267_325
+CAGCACGTCCGCAAGCTGATTCTCCTCAGCACGTCGCAATATCATTAGCCTCAGCACGTC
+GCAATAATCGGCCTTTTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGACGCACTGA
+CCGTGCGCTTCGCGCTCCCCAATTGTTCGCGCCGAAATTTTCTGTAATCCAAAATGACCC
+GCTGAGATTCGTTGTCCAAATAGTCAAATTTGCGTGATTTGATGGCGTAATAAATGTCAA
+AAATAGACAA
+>ds2020-267_326
+CAGCACGTCCGCAAAGCGGCCCGCTAGCCGTCCGCAACTATCTTCCCCTCAGCACGTCCC
+AACTAGTTCCAGATTGCGGACGTGCTGCTCCTTAGATAAGCTGGAAGTAAGGACGTTCGG
+GCTTGTGGCTCCATCTTATTTAAGGAGCAGCACGTCCGCAAGTGCCAGCTCCTAACGTTT
+GGGACGTGCTGAGGGTACCTACATTGGGACGTGCTGAGGGCAGTGAGATTGCGGACGTGC
+TGCTCCTTAG
+>ds2020-267_327
+CAGCACGTCCGCAAGACATCACCTATTGCGACAAGTTAATGGACACTCCATACACTGCAT
+CCCCAATTGGCCGTTTAGAAGCCAATGGGCTAAGTGCTGGGCTTTTCCCGTTTCGCTCGC
+CGCTACTCAGGGAATCCTAGTTAGTTTCTTTTCCTCCCCTTATTAATATGCTTAAATTCA
+GGGGGTAGTCTCATATGAGTTGAGGTCGCAAGGGAATGGGTTTGCGGTCGTGCTGCTCCT
+TAGATAGAT
+>ds2020-267_328
+CAGCACGTCCGCAATGTTCACCATTTCCATAAACAAATGAGTACTATCCTCGACTGCTAC
+TAACTTTAGTGCGTTCTCAGTTCTGCCTGACGCTCTTAATATTACGATTGACGCCGGCGC
+CTGGTTTGGCCTCAATCGCAGCCTGACATAGTTATTTGACCTTAACGCTGAAGCGCTCGC
+CGTAGCCATCACTATGCCGTGCCAATCATAACCAGAACCTCCCACTGGCGGCGTATTGCG
+GACGTGCTG
+>ds2020-267_329
+CAGCACGTCCGCAATATAATATCTCTCAGCACGTCCACAACTTGATTCTTGCGGACCTGC
+TGCTCCTTAGATACGCTTAGGCGACGCACTGACCGTGTGTAAGCGACTGGGGTACGCCGT
+TCTGGCAAATCTGTTTTATTGATGCAATATCGAGATTATTTGCTGTCCCAACAAATTAGT
+GCAGAAAATATTATTTATATCAATTTTGAGAGTTTTGAGTACCAGTGGGTTAAAGTTGCG
+GACGTGCTG
+>ds2020-267_330
+GACGCGCACTGCCGGCAGCCCGGCCCTCTGCTCTGCCCACCCGCGAAATAACCAGCACGT
+CCGCAACCATGATCCCCTAGCACGTCCGCAAACTAATTGGACTCCACGTCCGCAACTGAT
+TGGTGCTTGCGGACGTGGAGTCCAATTAGTTTGCGGACGTGCTAGGGGATCATGGTTGCG
+ACGTGCTGACGAGATCTTAATTGGGACGTGCTGAGGGACTGCGACTTGCGGCGTGCTGCT
+CCTTAGATA
+>ds2020-267_331
+TTCCGATCTATCTAAGGAGCAGCACGTCCGCAATTTTCGTTCCTCAGCACGTCCGCAAAG
+ATCCAATCCTCAGCACGTCCCAACCGGCTATGGTTTGCGGACGTGCTGCTCCTTAGATCT
+GGAAGTAAGCCCGAACGTCCTTACTTCCAGATCTAAGGAGCAGCACGTCCGCAAACGACA
+CTGACTCAGCCGTCCGCAACCCCTTCCCCTTCAGCACGTCCCAACCTTCCAATACTTGCG
+GACGTGCTG
+>ds2020-267_332
+CAGCACGTCCGCAAATTTCTCTCTTTCCAAAGTTCTTTTCATCTTTCCCTCACGGTACTT
+GTTCGCTATCGGTCTCTCGCCTATATTTAGCTTTAGATGGAATTTACCACCCATTTTGAG
+CTGCATTCCCAAACAACTCGACTCTTCGAGAGCACACCACAATGCATCGGTAGTCCGTGT
+CATATACGGGATTCTCACCCTCTACGACGCTCCGTTCCAGGAGGGGGGTATGCGTTGCGG
+ACGTGCTG
+>ds2020-267_333
+CAGCACGTCCGCAAGAGCCCCGTCTTCCTTCTCCTATTTCAATTCTTGACAAAGCTGGAC
+GAGCACATCATGCAAGTGTTCATATAGAGGATGGTGGAATAGTTTGAGTCTTGGCTCTTG
+TTTCATGTTGACAGTATCAGGTTCTTGATTAAGTTCCTCTGATGTGCTAACAATTTCCTG
+ACTTCATTTTATATAATAGATAGTGGAATAGTAGAAGATACCATGCATGGCCTATTGCGG
+ACGTGCTG
+>ds2020-267_334
+CAGCACGTCCGCAAGATCATGGTCCTCTGCTTTAGACTCGTCCCAGCCCATGGTCACCAT
+GAACTTCAACGCTCGTTTGTTGTAAGGGACATTGACTGTGGCTGGCAATTCAATTGAACG
+TGAAACCCACAGGGCCCGGTCTTCGCCAACTTCACGGATTAGGTCAACCTCATCCCTAAT
+CCACGCAAGGACTACGGAATACAACTTGAAAGGAGCAAATCCAGCGAACTTGGATTGCGG
+ACGTGCTG
+>ds2020-267_335
+CAGCACGTCCGCAACGAACCTCGAGTAAGACAACCAACCCTGGAGGCCATGGCTTGGCTT
+TATCCCGTAGGTAGTAAGAACAGAGAGAGCCTTCTGTGCTAGCAATACAGAGAGGTGGGG
+ATTGAATGAGGCGAGCGCTGACTGCAGCAAGACCACCAGACCCTAAAAAGAATAATAACA
+ACGTTCAGCAAGCCGAAGCCAGCCAGACAGGCACCACCAGATACAGGGCTTGGATTGCGG
+ACGTGCTG
+>ds2020-267_336
+GGACGTTCGGGCTTGGCTTCTAGGGTTTCTGTCAGGGTGCCGATCTGGTTGAACTTGATC
+AGGATCGAGTTGGCGATCTTTTTGTCGATGCCTTCTTTCAGGATCTTGGTGTTGGAGGAT
+TCCCTGAAAGCCCGAACGTCCTTAATCTAAGGAGCAGCACGTCCGCAACCCTTACCCAGT
+GACACTTGCGGACGTGTGAGGATCCGGCCATTGCGACGTGCTGACCCAAACTCTGTTGCG
+GACGGCTG
+>ds2020-267_337
+CAGCACGTCCGCAACTTCAAGGGTGTGTTTTCTTTTGTACCTGCGGGTTATTTTGCTTGA
+TTACATACATATACATGGAATAAAGCAGTTTTACTATCTACTTTGTGACCTGCTGAAGTG
+TTTTTGGTATCATTTATATTGCATTTTTGCAGATAATAGGAAATACAAAGGAGTTTAAGC
+AGAAACTGAAAGATAGCATCAGAAGGAAATCTGATTTGTTTAAGAATGGTAATTTGCGGA
+CGTGCTG
+>ds2020-267_338
+CAGCACGTCCGCAAGCTTTTTGGGGTGTCGAGAGATACCTACACGTCCGCTATTGAGTCC
+CTTGGGTCTTTTTCGTTGACTGAGGTTGAAGAAATTGTAGAAAAATACAAGAAGATGTGT
+CTTACTCCCCTCGAGTGCATGAGGAATTTATTATCTTTCATGTTGCAGATGAGGTGTGGT
+GCGAGAGGCCAAAAAAGAATGGATCCAAATAAAGATTTGTAGCGGCATCATGGTTGCGGA
+CGTGCTG
+>ds2020-267_339
+CAGCACGTCCGCAATACGAGACCGCTCCCAATAGATATTTGAGCATATATTCATGCCCTT
+TACCTGATGAACCAAGCAAGTTTGAACGCCAAATAAACAGATTGCGTGGGAAGTTGGCAG
+GGTTATCTGGGCTTTCACAGGCAAAACTTAATGAGCCATTTTGTAGGCTTTCGACCACAT
+AATCTTCCACTTTCATGCCTTTTGCTTTGGCTTCATTGGCAAAGGAGAGTGAGTTGCGGA
+CGTGCTG
+>ds2020-267_340
+GGACGTTCGGGCTTCTCGCACTGGGTCTGGAGCTGGGTCACGTGCTATCCTTAGGTTAAT
+AATGTTAACAATAAGTCAGTAATTTTTAAAAAAACACAAACTGATAGCATAAAAAAAAAG
+AATGGCGCTAAACCATTCTTTTTTGAAAATGTTTAGTTTTTATATCCACACGCATCAAGT
+CAATTGACGATGATTGACTTTGTCTAATTTTAACGCTTCCAACTATATGCTTATTGCGGA
+CGTGCTG
+>ds2020-267_341
+GACGCACTGACCGTTATAGGGCCTATTACACGGTCAGTGCGTCGGAAAAATGGGAACGGT
+CAGTGCGTCAAGGGACGCCCTACGGTCAGTGCGTCGCCTTAAGCGCTTAAGGCGACGCAC
+TGACCGTAGTTTAATGCCTGACGCACTGACCGTAACCATCTGCCTGACGCACTGACCGTG
+AACCTACCCGTGACGCACTGACCATTTCCCCCCGGACGGTCAGTGCGTCGCCTTAAGCGA
+CGTGCTG
+>ds2020-267_342
+CAGCACGTCCGCAACCCTCTATTGTTATCCATGGATCCTTTATTTATACTTATTCATTTA
+GAACTTATCCATTTAGAATAGAAGTATTGATCCAATAAAAAAAATTATGTTTCGTAATCT
+CATAATCCAATTTTTCAACTTTTCATTGATTCTTGGATACAAATCACGAGAATGTATATT
+ATTCCTCGAATTTTTTATTGAGAGGTAAAGGATTAAATCCAGGGGGATGCGATTGCGGAC
+GTGCTG
+>ds2020-267_343
+CAGCACGTCCGCAAAGGACTAACCTTCAGCACGTCCGCAAGTCAATACCTCTAGTTTGCG
+GACGTGCTGGGGAATTCCGGGTTCATGTGAACAGTTACAGTCCACAATCCCAACCAAGAA
+GGTGGTTCAATGTTTACCCAGACCTCTCGGCCAAGGATAAAACACACTGATACCTTCATT
+GTAGCGCGCGTGCAGCCCAGGACATCTAAGGGCATCACAGAGAGGACACATTTTGCGGAC
+GTGCTG
+>ds2020-267_344
+AGCAGCACTGACCGTCTCTGTTGCCATGACGCACTGACCGTCCTCATGCGACTGACGCAC
+TGACCGTCATGCACCACCTGACGCACTGACCGTTAATTATTGCCTGACGCACTGAACGTG
+GATTGTACGGTCAGTGCGTCGCCTTAAGCGCACGTCCGCAAATGGTAGGTAATTGGGACG
+TGCTGGGGTCTGGAACTTGCGGACGTGCTGGGGCCCTTCAGTTGCGGACGTGCTGCTCCT
+TAGATA
+>ds2020-267_345
+CAGCACGTCCGCAACTGATCACCACTCGAGGGTTTTGGCCTGGCCCTGCCCATTCTGGTG
+GGTCGTTCGTCGAGTGGCTCGTCTGGCGCTTCACTTGGATTGTTGTTAACGCAACTGCCG
+TCGCTGAGTCTGTCAATGCCGAAGTTCGGAAAAGGCATAGTGATAAAATATCACCAGACT
+CTGTCCGCCTTGCAGCAATATTCAGGAGTTTCTTTATTCAAGGTGTTGCTCTTTGCGGAC
+GTGCTG
+>ds2020-267_346
+GGACGTTCGGGCTTTGTGTTGCATGTTTATCAAAAACAAGCACAACAATTGAGCATCTTT
+GTAGAAACGCTACAACCGCCGCTACAATTATTAATTTTTGGCGCGGGGCAAGATTGTTTA
+CCCTTGATGACCATGGCAAAGGCTCGTTACTAAGCCCGAACGTCCTTACTCAGTATCTAA
+GGAGCAGCACGTCCGCAAAAGGAATATTGTGGACGTGCTGAGGGGCAGTAAATTGCGGAC
+GTGCTG
+>ds2020-267_347
+CTTCCGATCTATCTAAGGAGCAGCACGTCCGCAACAAAGAACGCCTCCCTTCTATAACCA
+TTTCTTTACAGAAGGCATCTATTACCCGATCATAAAGATGTTTTTGTGATTTCAACGTAC
+AATTCACAACGATTGTAAAGTTAATATTGTCTCGATGAACAGCGTCTCGGAAACCTTTAT
+TAACTTGATGTTGTAAGTATTGAGTGAAACCCGGATGTGCTTGCGGACGTGCTGCTCCTT
+AGATA
+>ds2020-267_348
+TCTGGAAGTAAGGACGTTCGGGCTTTTCGTAGTGGCTCGTTGGGAGAGGGTGGGTTGTCG
+TAGCTGAGGGCTTTTCAGGGTGTCAGGTTCCGATTCGGAGCTGGTGGTGGAGGTTGGTGG
+GTTGGTAGTAACGGAAACTGCATCTGATATCGATGGTTGCTTGGTAGGTGTTGGTCTTGG
+TCTAAGAGACATGTTGGACTGTGGCAGCGGAGGTGGCGGAGGCCGTGACTGTTGCGGACG
+TGCTG
+>ds2020-267_349
+CAGCACGTCCGCAATACTAACGCTGTCCCCCCTCAGCTCACCCTAGCCCCGGGCCTTTTG
+CTCTTCTAACGTAAGCTCCAAGGCTTCACACCAAGTCTTCACTGACATAATATGCATGCT
+TAAGTAGGGTCAGGCAGAACCGTTGTTGCCTGATGGGAACTTCCCCCATATTGCTATCAA
+TGTCTTCATGTCGCACGACCTCTTAACATTACACCACTGAAACCAAATCCTTTGCGGACG
+TGCTG
+>ds2020-267_350
+AGCAGCACGGCCGCAAGATCCATCTGATGATCGATGTTGGGTATTTTACAATTTGCTTTA
+TTACATTATCATTATATAGGCTCGCCCCAGTTCGCTATTCTTGTGATTCCGAATGCTAGC
+TGGTGGGCTTTCAAAGGTATGGGACGATCAGGATGGCTTGGTCCAGCTCCCTTTAATCTT
+TAGATCAATCATATGCCCTCCCCAACCTTTTCTATCTAGTAGGGCGATATGATGCGGACG
+TGCTG
+>ds2020-267_351
+GACGCACTGACCGTATAATGACCCATGGACGCACTGACCGTCTTCTTATGCCTGACGCAC
+TGACCGTGTGGTCACTCTTGACGCACTGACCGTTGAACTACTGTGACGCACTGACTATGT
+CGACCACGGTCAGTGCGTCGCCTTAAGCGTAGCACGTCGCAAACTTCGGCCCTTAGCACG
+TCCACAAGATCCCAACCGTGGACAATTGCGGACGTGCTGAGGGATACTGCCTTGCGGACG
+TGCTG
+>ds2020-267_352
+AAAAAGGCGACAGAGGCTATTGCCCAGGTAAGCTCCCGGGTGGGACAAATTGTGAAGCCT
+ACCGAGTGCATCTATTCGACTTGCTTCTTGACGTACGGAAAGGAGATGATCCTGAGAGGC
+GCCTACTTGCGGACGTGCTCTCCGTAGATAGATCGAGGCGACGCCCTGACCGCTCGCAGT
+CCTCGACGCACCGACCGCCCCTTCGCCCCTGACGCACTGATCGTGACATGTACGGTCAGT
+GCGTC
+>ds2020-267_353
+GACGCACTGACCGTTCTGCGCTGGCTTTTTCTGAATGAGAACACGCTGACGCCGGTTGAA
+CATACTTCCTGGAAATTAAGTGCGCTGCGTATTTTTCTGCTGTCCGGTTTTCTTCTGGAA
+GGCGGAATTGCGATTCACAGTTCATTGCATGCCTATGCACAAGGCACTTACCCTGTACTG
+TGGGCTTATTCTAGGCGGTGTATAAAGCCCGAACGCCAGGGTGTTCCGCAAGCCCGAACG
+TCCTT
+>ds2020-267_354
+GGACGTTCGGGCTTTGGATTTTTGGTTTTTTCCTCTTTCTCTATCCCTATCCCGTAGGTA
+CAGCGTTTGAATCAATAGAGAACCTTTTTTTCTGTATCTGTATAAATGTATCTAATCGAT
+ATTATTACATTCCAATTCCTTCCCGATACCTCCCAAGGAAAATTCCGAATTGTATCTCAA
+ATTGCGGACGTGTGAGCGAAAGCCTTTTGCGGACGTGCTGGGCCCATGTATTTGCGGACG
+TGCTG
+>ds2020-267_355
+CAGCACGTCCGCAAACCCCCCTCTTAATAATCCCCGTAACCCCCGAGAGGAGCACGGGCC
+ACTTTGGCGTTAGGCCACGCCTTGCGATAATCCTCTCGCCCCAAGAGGACTAAATCGCGC
+CACTGCTCAAATGTCAGCCGCTTGGGAATTGGCACCTCAACACCCACATTGCTATAGTCC
+CGCGATACCATGCGTTTGAAGTTCGGGGGCCAATCGAGGGGCGGGGTCATTTGCGGACGT
+GCTG
+>ds2020-267_356
+TATCTAAGGAGCAGCACGTCCGCAAGGGGTGCGTCGCTGGCGCGCGGATTAACAACGACC
+ATCAACAAACAATCGATTCAGAACTGGCACGGACCAGGGAAATCCGACTGTCTAATTAAA
+ACAAAGCATTGTGATGGCCCCAACGGGTGTTGACACAATGTGATTTCTGCCCAGTGCTCT
+GAATGTCAATGTGAAGAAATTCAAGAAAGCGCGGGTAAACGGCGGATCCATTGCGGACGT
+GCTG
+>ds2020-267_357
+ACAGCACGTCCGCAAAGGTCGCCAGAAAAGTCAGCATAATCAGCCTCCGAAATCATCAAG
+CATGATGTTCTCATCTTCCACGCCAAGATATTTTAGCATCTTAATCACGGCGGCGTTCAT
+CATTGGTGGACCACACATATAGAACTCGCAGTCTTCCGGTGCCGGGTGCTGTTTGAGGTA
+ATTTTCATACAGCACGTTGTGGATGAAGCCCGTATAGCAGGGGAGTTTCCTTGCGGACGT
+GCTG
+>ds2020-267_358
+CAGCACGTCCGCAAAGCTCACTTCGTTGCTCTGTCTCTGTCTCGATCCCGCTCCCGTTCC
+TTGTATCTTTCTCGATCCCGATCACTATCCCTTTCTCTTTCTCTTTCTCTTTCTCGATTC
+CGATCCCGGTCCCTTCCTCTGTCCCTGTCCCTGTCCCTGTCCGAATATTCTCTGTCAGAA
+TACTCACGGCTCTGGCTGCGATGGGTCCGTAGATCATCACTGCTGGCTGCTTGCGGACGT
+GCTG
+>ds2020-267_359
+AGATACGCTTAAGGCGACGCACTGACCGTGGAGTCTCCCCTGGGGAACATACGAAAGCTT
+TGGAATATTATTTTCGGGCCCTAGAGCGAAACCCATTCTTACCACAAGCTTTTAATAATA
+TGGCCGTGATCTGTCATTACGTGCGACTATCTCCACTATAGAAATAAAAAAAGGAAATAA
+AGAAAAAATCCGTTAACGTTAGTAAATACTAGAAACAAAGTGTAGGCTTAACGGTCAGTG
+CGTC
+>ds2020-267_360
+CGCACGTCCGCAACTTTGGAGGAAGAATTAGAAAGTGGCTGTTGAAAGTTGGTCTCTTTC
+AATGGTCCTGCCTCAATAACAGGCTTGTCAATAATTTGGATCTCACTACTCTGAACTGTG
+TGCTTCTCAGTCTCAAGATCAACTGCCGCTGGTTGAGGAGCTGATCTGATGGTAGATGCA
+TGGGGAGGCACTAGGTCAGATTGAACTCTAGGCGGCACAGAAAGATGCTGTTGCGGACGT
+GCTG
+>ds2020-267_361
+CAGCACGTCCGCAATTCGACCCGCTTTTGGATAACAAGAAGGCGAGCTGATCTGCTTTGA
+TCAAGGAAAAAGCCCAGTCAGCCACCAACTCGGTGCAGGTCACGTGACCTGCAGCTCGGC
+CTTCGCTTTTTGAGGCTTCCTCTACCCACATCTCTATGTGCCCGCAGCACTTCCATATGG
+AGAAAGATAGGCTTACCATGTTCCATCAATAGCACCTAACTAATGGAACTTGCGGACGTG
+CTG
+>ds2020-267_362
+CAGCACGTCCGCAACCACCCCCCACTTTCGTTCTTGATTAATGAAAACATCCTTGGCAAA
+TGCTTTCGCAGTTGTTCGTCTTTCATAAATCCAAGAATTTCACCTCTGACTATGAAATAC
+GAATGCCCCCGACTGTCCCTGTTAATCATTACTCCGATCCCGAAGGCCAACAGAATAGGA
+CCGAAATCCTATGATGTTATCCCATGCTAATGTATCCAGAGCGTAGGCCTTGCGGACGTG
+CTG
+>ds2020-267_363
+CAGCACGTCCGCAAAATGTCCCCACTGATACCTAATCGATAACGAACCTGAATGGCTTTT
+TTAGGTCCAATTCCATCAATTTTTGTTGAGGCAATTCTTACTTGTTCATCGGCAACTGAT
+CTAGCTCCTGAAATATATGACATTCTTGATCCTTTCCTTTACTAGTCTTCTCGGCTGGAA
+TCAAAAATGGGCTGTCTCCTCTCTGATGATCTTTTCTATAGGTAGAACATTGCGGACGTG
+CTG
+>ds2020-267_364
+CAGCACGTCCGCAACGGTCAAGGGGCAGCACGTCCGCAAGGTATCCGGGCCATCATTTTT
+CCTTATTTCACTTACAAAATAGGCGTATCACCAACGCAATACGCCTTTGTATAGGTTGAT
+TGATAGGTTAGTTCACTGCATCTTTTAACGCTTTACCTGCCTTGAAAATTGGGGCTTTTT
+TGGCAGGTATTTGGATGGCTTCGCCTGTAGCAGGGTTACGCCTTTTTCTTTGCGGACGTG
+CTG
+>ds2020-267_365
+CAGCACGTCCGCAACTTTCACCTCGTCTTCTTCCATACGTTTCATCACTCTAGCACAAGC
+CTTGAGAGCAAAATTGTATGTGAAATGATCAGACCTAACATTCGTTTCCTGCATATAGTT
+GTAAATATGTATAGCTTTGATGGGGAAGACGCTGTTGGTGTAAGCCCTGATCATGTTGTT
+GCAGATGAGAGGGTCGTCCATGGTGGTCTCTTCGAACAGGGCTTAAGATTTGCGGACGTG
+CTG
+>ds2020-267_366
+CAGCACGTCCGCAAGTGGTAATTCCTCCCTGCTTAAGAGCCACAGCATGTACAACAAAGT
+TTGAACTTCTCAGCAAGATCTAGAAAGCCTGTCCCAACCCGGCTGCAGCCTCCTCTTGGC
+AGCCTCACCTTCAGGCCTTTGCTCCTACAGTTCTCTCTGCTTTGCATGCCTCTCCCATCC
+GCTTGTCCAACTTTTGCTCAACCTTGAACTTTTGCCCATCATAACTCAATTGCGGACGTG
+CTG
+>ds2020-267_367
+TCCGCAATTGCCGTCCCCCAGCACGTCCGCAATAGCAGTCCACTCAGCACGTCCGCAATA
+CGATCTCCCTCAGCACGTCCGCAAAGGGTAGTCAAATTGGGACGTGCTGACCGATGTGAC
+GTTGCGGACGTGTCTGGAAGTAAGGACGTTCGGGCTTAAATTTGCTTATGATGATATGGG
+CTAGTAGCGCAGCGGTGGCAACGCTTTTATCGATGATAGTGATCACCAGAAGCCCGAACG
+TCC
+>ds2020-267_368
+CAGCACGTCCGCAAATATTCCTGGGCAGCATGTCCGCAATTCGTATCACCTCACACGTCC
+GCAACTATACCCTGTTAATTGCGGACGCGCTTAAGGCGACGCACTGACCGTGTCACAACC
+CCTATGGCGTTTACCCTTTGGTTCGCCCCATCATTTGAAGAAGTCAAACAACGTAGAGCG
+GAACTTGCTTTGATAGAACGTGAGACAGGGGCGTGGAAGTGCGGACGTGCTGCCCCTTAG
+ATA
+>ds2020-267_369
+CAGCACGTCCGCAACATTTTATCCATTGGACGTGCTGAGAAGAGGCTTTTGCGGACGTGC
+TGAGTGGGCGGACTTTGCGGACGTGCTGCTCCTTAGATACTGTAAGTAAGGACGTTCGGG
+CTTCCGCATACACCTCTTGGTCACGCTCAAAGGTCAAGGTCATACCATCTTCAGGGACTG
+CCAGTCCTTGCACTTGTACTTCATCGCTCGGATGTAGCATCAGTAATAAGCCCGAACGTC
+CTT
+>ds2020-267_370
+TCAGCACGTCCGCAATCTTCGGTCCGTGCAGCATTTCCACGATATCGTTATGATCAATTA
+ATGGGACTTGGCCGGAAAGTGTTCTTGCCTCTATCATTAGCTCGGGTAGTCCCCGTTTCT
+GGTGTTTCAGTCACCTTTCAATGGCTCCCTTAATTATGCGCGAGGAATTTTCCTCTGGAA
+GCGGGCTAGTCCCCGAAAATGCTCGTTAAAGTTGGGGGGGCAGTTTGTTTGCGGCCGTGC
+TG
+>ds2020-267_371
+CAGCCCGGTCTGACTCAATCGTCTTCCGACTTGGGAAGAAGTGCCCCCGAAGCACTCCAT
+TCATCTGGTGATGAAGAATCTCCTATCGCTTCATCTTCCGCTGCCCTTTCATTCTCTTCA
+GTTGTCTTCCTTCTTCCGTGTGGAGGAATGCCGATAGAACTGTGGATACCTCAGCTTTGG
+GAGAGACCTCCGTTTTGGTCTTCCTAGAAAGTGAGGAGGCGCCAGATTTTGCGGACGTGC
+TG
+>ds2020-267_372
+CAGCACGTCCGCAACCGCATGCGATCTACGGGTGAAAGGGGGCGCAAGCTCTTGCTATTA
+GATGAGCCTAAATCAGATTAGCTAGTTGGTGGGGTAAAGGCCCACCAAGGCGACGATCTG
+TAACTGGTCTGAGAGGATGATCAGTCACACCGGAACTGAGACACGGTCCGGACTCCTACG
+GGAGGCAGCAGTGGGGAATATTGGACAATGGGGGCAGTTTGCGGACGTGCTGCTCCTAGA
+TA
+>ds2020-267_373
+CAGCACGTCCGCAAGCTATACATGCTGCATATCTTTTCAAAGAGGCTGGAAACCAACAAG
+TGAATGGAATTGTACCACCGAAACCAAGTTCTGCTGGCGATTTTCCAATTGGACAGGAGC
+AACTAGTTTCAGTGACGAGGGATCATAATTTTCCCGCTCTGCAACAATATGGGGGGGTCA
+AAGGGCTGGGAGATTTATTAAAAACAAATCTAGACAAGGGATTACATGTTGCGGACGTGC
+TG
+>ds2020-267_374
+CAGCACGTCCGCAATGACTCTCTGTTCAATTGCGACCTTATAATGCAATTGCATTCTCCG
+GTCCAATTGCTGTTTTTGTTTCTGTATTCCTAATTTATCCGCTAGGTCAGTCTGGTTGGT
+TTTTTTGCGCCCAGTTTTGGTGTAGCAGCTATTTCGATTCATCCTCTTTTTCCAAGGGTT
+TCATAATTGGACATTGAACCCATTTCATATGATGGGAGGTGCTGTGTGTTGCGGACGTGC
+TG
+>ds2020-267_375
+TCAGGGTATGGAGCCACCGTCGCATCGGTATAGCATATCGAGTGGAAAAGGCTGATAGGG
+GTCACCACTCCCCGTCCTATTTCCAATGCGAAGAATCCCAGTTGAGTTAAGAAAACAGAT
+AGGTCGAACCTATCCCAAGCATTTATAGCCCTCGTGAATTCTATCTAAGGGGTATCCAAA
+CCACCAACCCCAACTAGATCCAACCAATGCCATTTGTAAAGCCCGAACGTCCTTACTTCC
+AG
+>ds2020-267_376
+GGACGTTCGGGCTTCATTGACTCTTGGACGTTCGGCTTATCGTCCCTACTAGAAAGCCCG
+AAGTCCAGGCCCCTAATTAAGCCCGAACGTCCTTATAAGGAGCAGCACGTCCGCAACTGC
+TGCGCCCTAGCACGTCCGCAAGACGCAACGCCTCAGCACGTCAGTGCGTCAGGATGTAAG
+TGACGGTCAGTGCGTCAGGGCAGAACAGACGGTCAGTGCGTCGCCTTAAGCGAGATCGGA
+AG
+>ds2020-267_377
+CTGGAAGTAAGGACGTTCGGGCTTACCGGATTGCCCCCATCAGCGAAGCCAAACGCTATG
+AGCAAGCATGGCTAGGCAAAATCAATGTCGTCATTAAGTTGCCAGCTATCACGTGGGGGC
+ACAGTGGTATAGTTGCTGTCTTTATCTAAGGAGCAGCACGTCCGCAACAACTGGGATTTT
+GCGGACGGCTGGAGGGCCTGCATTGCGGACGTGCTGAGTGTCAATGTGTTGCGGACGTGC
+TG
+>ds2020-267_378
+CAGCACGTCCGCAAATACAACGGATTACTGAGGTTCTTTCCAGTTCCACGCGTACTTATC
+TGAAACTATACCTATCTTCGGTGCTTTGGAGAGGGAGTACCCAAACAAAGATGAGTTAGT
+TGAGGAGATGACGGGGGGTTCTGGAGGGGTTGACTGATGAAGAAACTTTAAACTTACACC
+TACCCCGCAGATGAAAGGTTTCTTACCTCAGCGCTCAAAGGAAAATGCTTGCGGACGTGC
+TG
+>ds2020-267_379
+CAGCACGTCCGCAATCATATAGGGGTCTTTGCGGACGTGTGAGTCGGGTCAAGTTGGGAC
+GTGCTGAGGGGGTACTAGTTGCGGACGTGCTGCTCCTTAGATACGTTCGGGCTTGTGGAA
+AATCGTAGGCTAAATGATTGTTGTCGCTATTTAATAGCGGATAAAAACGCTGTCCTTCAT
+GCCCTTTTACCACCGCGGCATTGTCTTTATAGGCGGACCGTGTTCAGTAAGCCCGAACGT
+CC
+>ds2020-267_380
+GACGCACTGACCGTGGCATTTCCGATGTTGATTAAACAATCATTCCCAGATGTGAATCCG
+CTTAAAGTGGCGTTTTTAGGACCTTTGGTTGGTGCGTTATTCCGTCCGTTCGGTGGCTGG
+CTTGCTGACAAATTGGGCGGTGCAAAAGTCACCTTAATCAACTATGGCGTGATGGCTATT
+GGGACGTGCTGAGGTGGTGGATATTGCGGACGTGCTAAGTGGCTGGGCTTGCGGACGTGC
+TG
+>ds2020-267_381
+GGACGTTCGGGCTTTGATGACCTCCTCTCGTGTTACTGCCAGCTTGTCAATGTAAGCTTA
+TCAAGGTTAAAATGTTGTTTTTTAAGTTAAGCCCGCTACCTATTTGAGCCGTTTGTCAGT
+TCGTAGCCAGTTAGCGTATTACCCCACGAGATAAGCCCGAACGTCCTTATCTAAGGAGCA
+GCACGTCCGCAAAGTATATTCGCTCAGCACGTCCGCAATAGGTACAGCCTTGCGACGTGC
+TG
+>ds2020-267_382
+CAGCACGTCCGCAAGGTCTCATTCATCCGCCCTCATGATTGGGTGAGCCACGAGGGGGAG
+AGAGACAATGTGGAGGGGTCGGATGACGTGGACATGGTTGCGGCGGGGCGCTCTAACTCT
+GACTCCGAGGCAGCCGAGGAGGAATCCTCGGAGGATAGTGATGATGAGGCCACGAAAGTG
+GAGGAAAGGGGAGTGGGGGGGGCCAATCCCCCCTCCACGGTGATTTCATTGCGGACGTGC
+TG
+>ds2020-267_383
+GGAAGTAAGGACGTTCGGGCTTGTTGTCCCCTCGGACGTTCGGGCTTGATCTACGGGGGG
+ACGTTCGGGCTTGTTACGTAACCTGGACGTTCGGCTTAGAGACCACCGTAAAAGCCCGAA
+CGTCCTTACTTCCAGACTCTAAGGAGCAGCACGTCCGCAACTTCTAGGCCTTAGGGGTTG
+GGACGTGCTGAGTGTATGGTCCTTGCGGACGTGCTGAGGGTCGGCCAATTGCGGACGTGC
+TG
+>ds2020-267_384
+ATCTAAGGAGCAGCACGTCCGCAATGGCCACTCACTCGCTTGAAGATGCCGAATAACCGC
+CGGTTCTTTAGTACTTGGTTGGAATACCCAAGAGATCCCACTGGATAAGGCCTATTCCCT
+GCTCGTAAATTAACGGTTTAAGTTCATTTTTTCTTACTGTCGCAAGCCATTCTTCCACTC
+TATGATTATGATATGATTCACTTTCAAACGGAACAGGGCCTCTCATTTGCGGACGTGCTG
+A
+>ds2020-267_385
+CAGCACGTCCGCAAATCCAGGGTGGTGACTTGGCGATGGGCGGCGGCGTCTGGGAGCCTA
+AGCTTGACCTCAACCTCCATTAGAGGTTTGAGAATGTGAGACATAATACGGCGAGTTATA
+TTTTGGTGTTTGGGGTGCATAACTTTCAATTAGAAGGGACGGGCCTTTGCGGACGTGCTG
+AGCCTTAAATAATTGCGACGTGCTGAGTGCAATGAATTTGCGGACGTGCTGCTCCTTAGA
+T
+>ds2020-267_386
+CAGCACGTCCGCAAGCAGTCGCACCTTCTCCTTTGAGCACTCCACCCGCCGCCGCTCCTT
+CTCCTTTGAGCACTCCACCCGCTGCTTCACCTTCTCCTTTGAGTACCTCACCTTCTCCTT
+CGGGCACTCCACCCTCGGCTGCTCCTTCTACATCTCCGGTCGCAGACTCTCCACCTTCTC
+CCCCATCGTCTTCTCCTGAATCTCCAGCCAATTCCCCTTGCGGACGTGCTGCTCCTTAGA
+T
+>ds2020-267_387
+GCGCACTTCCGATCTATCTAAGTAGCAGCACGTCCGCAATTGAAGGGATCTCACACGTCC
+GCAAAGGTCGTTCAGTCAGACGTCCGCAATATGCCTGTCATTGGGACGTGCTGACGGGTC
+CGCCGTTGCGGACGCGCTTAAGGCGACGCACTGACCGTGTCTTTTTGGCTGACGCACTGA
+CCGTTGGTAAGTCCCTACGCACTGACCGTTGTCGACAGCCTGGTGGGACGGTCAGTGCGT
+C
+>ds2020-267_388
+CAGCACGTCCGCAATCATCCGCCCATGCACATTTAGCACTTTGGATCCTGGTGTTGAACT
+TCCGCCCCAGACGTAATGACTCCCTAGCCACTTTCAAGCTGTGTGTGCCGATAAGGACAT
+CGTCTCCGTTGTGCAGGCTGTCCCCTACTTCTCGTGCCCCTTTAGTGATCTTGTCCGTAT
+AGATGCTGTTCAATACTGAGTTGATGAAAGTGGTCACCCCCATCACCTTGCGGACGTGCT
+G
+>ds2020-267_389
+CAGCACGTCCGCACCTGGCATGAGATGGTTGGTACCTAAGAGGATGCAGGGGATTGGAGC
+AAGTGGTGCGGTTGACATGATACCAGATAAGCCAATGCTTGGAAGCGCGTGTACACTAAC
+AGAACTGCAAGAAATTGTTGACAAACTGCAAATCATCCACCCCCCACAAATCAACCACAA
+TGGAGCGGAAATGCTGGCCAATGTATTGGCTAATGATAGCGACCTACTTGCGGACGTGCT
+G
+>ds2020-267_390
+GACGCACTGACCGTAAATCAGCCCATGAACTACGGCAGTGCGTCAAGGTCAGTATTACGG
+TCAGTGCGTCACGGGGGCGCAACGGTCAGTGCGTCAGAGCGTTATACAGGTCAGTGCGTC
+GCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAATGTTTACCACTCAGCACGTCCGCA
+ATATTTCCTCACTCAGCACGTCGCAACCCCCAAGCCTTGCGGACGTGCTGCTCCTTAGAT
+A
+>ds2020-267_391
+CAGCACGTCCGCAAATTTCTGGGGCAGCACGTCCGCAAGAAGGTTTAAACGTCCGCAAGA
+CTGTATGGTTGCGGACGTGCTGCTCCTTAGATACTGGAAGTAAGGACGTTCGGGCTTGTC
+CATACAGGTAGCGGAGTTGAAGAAAGGGGTCGGTTTAGGACCGGAATCAGCTTCACTTCC
+CTGGCCCGTTTCCGTACCCGTTCTCGGCGGCCGGGAGCGGGTCCAGTAAGCCCGAACGTC
+C
+>ds2020-267_392
+CAGCACGTCCGCAAGTTGTCCGGCTTAAATCTTTAGCCCCTAACTTAAGTGCCGCTACAG
+CTCCATTTTCTATTACTTTTTTTGTTCTATCACATAACCACATTCCTTCGAAGACTGATA
+GTTGTGAAATTTCATATATGTTGTCTTCATCTAAGTAATATAGAAATTTGAAACTTGGTG
+TTGCGTCCGTTAAACGTAGATCAGTGAAGTACGCACCCATTCGTAGTTGCGGACGTGCTG
+>ds2020-267_393
+CAGCACGTCCGCAAGATTTTCAGGTTAGGGTAATTGTAATCCACAATTTTGAAATATCGA
+GCAGTGGCCTCAAGTTCATTTTCTTCTGAAGCAAAGTTCTCAGCACGGCGGTATTCCAGA
+GCCATCTTGCGTAAGTCCTCCAGGTCTTCATCAACCATTATCTTCAGGTTTCGGATCCCT
+TGTTTAAAATCTGAACCACAAAGGACCCACTCTTTGAATCCCATGCGTTCAGCTATGGGA
+>ds2020-267_394
+GACGCACTGACCGTCCGCCCAAATGTACGTATTTGGCAATCACTTGCTGATGGATGGGGA
+AATTACCGAGCGTTGCCCCTGCTTTACGGTCAGCAAAATAATGTTGCAGGGAGCGTGATG
+GGCACGGTCAGTGCGGATCTAAGGAGCAGCACGTCCGCAATGCTACTTGTATATGCTTGG
+GACGTGCGAGTGTTACTCCCTTGCGGACGTGCTGACGAAACTAATGTTGCGGACGTGCTG
+>ds2020-267_395
+GACGCACTGACCGTTGGACCCCACCTAGTCCAACCGAACCGGATAAATCGGTGACACGGG
+ATGCTGAGCTATTAATGGTAGGCAAACACATCAACGCCAACGACTTGACGGTGATTGTTG
+CAGGTGATTTTAACGATGAGGCGACGGTCAGTGCGTCGCCTATCTAAGGAGCAGCACGTC
+CGCAAAGGTACCCCTCTTGGATTGCGACGTGCTGACGAACAGTATCTTGCGGACGTGCTG
+>ds2020-267_396
+CAAGCGCCTCCGCAGGCACTCTTGCAATAGGAGAATATGCTTTTCATTCACCACTCTAGT
+CGACGGAGACAACTACTATCGGATTCAGTTGAGCCAGCCTTATGAGGGCCTTAGTGCGCT
+AGGTGGTAGTTCAGCTGTAAGTGTCAACCAGTCGGAAGGAGAACTCATAGCAGGGGGGGA
+ACCAATTTCAAGGGGAGAGAAAGTGAGATAATGAAGGGACGGGGAGAAGCCCGAACGTCC
+>ds2020-267_397
+CAGCACGTCCGCAAATCATTCTCCGTTTGGGACGTGCTGAGGACGTAATATTTGCGGACG
+TGCTGAGGGATAACCGTTTGCGGACGTGCTGCTCCTTAGATACTGGAAGTAAGGACGTTC
+GGGCTTCACTCATGCATTGTACCAATATCAACCTTAGCCATGACCCTCTCCTCAAACTCA
+TTGAGCCTTCTCTCAAACATGCCCTCAAGTCTCTCAGGGGGTTAGTAAGCCCGAACGTCC
+>ds2020-267_398
+CAGCACGTCCGCAACGGGTAACTCGTATATTCTTCTCATCAAAGCCACCAAAGACTTTCC
+TGTTGCTTTATTCTCACACGTTTCCTCAATAATTTTTTCTCTCATGATTCTCACCGCCTC
+TATAGCCCACAATCTTTGCTGTGCATCGTAAGATGAGTGGTCCAATGACACCCTCCAAGC
+TTTAACTTTGTTATGTCTCTCTCTCTCCTCTGCTATCGCGGGCCCTTTGCGGACGTGCTG
+>ds2020-267_399
+CAGCACGTCCGCAACTTTCTTCGCCTCTTTTTTCGACAACCAGTATAGAAAGTATCTCGC
+CCCTCTGTAATTCTTATCCGTCCCCAGATGCTGAATGAGCTAATCCTGATCTTTCTCTCA
+TAGGGTGAGAACAAGCTCGACCACTCTTAAGCTAGCCCGAAGCTTGATCCCGCGGCCCCG
+ATGCTACACATCAGTTCTGAACTCTACACATAAGTTCCTTGGCATTGCGGACGTGCTGC
+>ds2020-267_400
+ATCGAAGGAGCAGCACGTCCGCAATCAGGGACCTCGTTTCTGAACAACTGACCCACGGTG
+AATATCCTGTGTCCTACTCTGAGTGCTGGCAACATCAATGCCTGGCTCATCGTTATGTCG
+GTAGGCACCACCAATCCATGTTTCTCCACGTTATCGCTCATCGTCGCTTTGTGGTTCACA
+GCCCCCATGAGGTCACCTACCGGCACGTTTCTCAGCATACCAGCCTTGCGGACGTGCTG
+>ds2020-267_401
+CAGCACGTCCGCAAGTCTTCCCTAGTACAAGCAACTAAATTCAGTTAGCCCTTTTCCTTG
+GGAATGAACTGGATTTAGTTGCTTGTACTGGGGATTGGCTTAGCAGGAAGATTGGATATG
+ATTCTACTCGAGCGAACCCTGCAATGATTATAAGAGCCCAAGTGAGTCTTCCTTATTTTA
+CTGGAAGTGCTTTAATTTAAGGTGAACTATAAGACGAAGAGTTAATTGCGGACGTGCTG
+>ds2020-267_402
+TATCTAAGGAGCAGCACGTCCGCAATGGCAAAACAATCCCGAAAGAGAGCAAGATTTACC
+AACAGGTAATGTAACGTGGCAAGCATTGAGCAAAGTTGCTGGACTAAGAGAAGTAGATAA
+ACGGCGTTTTATGGGATTATTGGGAAAAGTTGTATTTGGTGAGAATGGGAAGATCACACC
+GTATTTCACATCAAACGACAAAGTTATTGAGGAAGTGGACCCATCTTGCGGACGTGCTG
+>ds2020-267_403
+CAGCACGTCCGCAATGACCCTTACCCTAAACAATCTTATCCGGTAAAGCGAATGATTAGA
+GGCTTATTGGGGACGAAACGTTCTCAACCTATTCTCAAACTTTAAATGGGTAAGACCTAG
+ACTTTCTTGATTGAAGTCTTACAGGTTTAGATGTATGTTGTACTTAGTGGGCCACTTTTG
+GTAAGCAGAACTGGCGCTGTGGAATGAACAGAGCTTGCTGACGTGCTGCTCCTTAGATA
+>ds2020-267_404
+GCACGTACGGTAACGAGGGGGGTTCGCGTCTATACGTGTAGTGTGGTGGTTGGGCCTACC
+CACCCTATTTGTTCCATGATCTATGGGTCTACTGGAGCTACCCACTTCGATCAATTAGCC
+AAAATTTTGACTGGATATGAAATCACTGGTGCTCGATCTAGTGGTATTTTTATGGGGATT
+CTATCTATCGCTGTAGGATTCCTATTCAAGATCACTGCAGATCTTTTGCGGACGTGCTG
+>ds2020-267_405
+GACGCACTGACCGTTATTTCCGACCTGCACGAATGGAGTAACGATTTCCCTACTGTCTCC
+ACCATGAACTCGGTGAAATTGCATTACGAGTAAAGATGCTCGTTACGCGCAGCAGGACGG
+AAAGACCCCGTGACCTTTACTACAGCTTGGTATTGGTGTTCGGTGTGGCTTGTGTAGGAT
+AGGTGGGAGACTGTGAAGCTCAGACGCTAGTTCGGGTGGAGTCATTGTTGAAATACCAC
+>ds2020-267_406
+GGACGTTCGGGCTTCAGTTTTTTGGTGGTGGTGATGTTTGGATCGTTGATCTTGGTGTTG
+GGTTTTTGTTTTGATCGATCTTGATTCTTGCTAGAAAGTGATCAATTTAAGGCAGAGATA
+GATCACAAAGCTTCAGAAAAAGAAAAATGCTTGGAAATGGGGTGGTGGGGATTTTTTCAG
+AGTCAGTGAACAAGTGGGAGAGAAGAGCACCTTTGACTCCATCTCACTGTGCTAGGCTG
+>ds2020-267_407
+GGACGTTCGGGCTTCAGGATATGCTTAGAGAAATGTTTATTTGCTGAGATACTGGATGCT
+TACCGAAAGAGGGGAATTGCACGTAAGAAAAGAGAGAATCTTCATAGACTGGCTTCCACC
+AATCGAAGTTTCGCGCATTTCAGATGGTGGTAAAGTGAGACACATAAAGAGCTCTTCCTC
+ATTCAGTCTGATTATTCAGTAAGAGATGGTTTGACCCTTTTTCTTTTTGCGGCGTGCTG
+>ds2020-267_408
+CAGCACGTCCGCAACCCGTTTCGCTCCAAACCCTAAAAAATAGGGTAAGGCAAGGTAAAG
+AAAGTCAAGAGCAAAGGCAAGGTCAACGGGCGTGACACAGCGGAAACACACCAGCAAAGG
+CATAAGCAACAATATTGGCACCATAACAGGCAGGAGCAATACAAGGCACTGGCACCAACA
+AGAGTAATACAAGGCACTGGCACCAGCAAGTCAAGGTAGGGAAATTGCGGACGTGCTG
+>ds2020-267_409
+CAGCACGTCCGCAAGAGTTCCGCCCTCATCATCATCATCGAAGTCCTCAAACTCCATGTC
+AAACTGCTCTGCCAAAACCCTCCACAAGTGCTTCCACTTATACAAATCCCCATTGCTGCA
+ATTGAAAGCCTCATTCTTGGCATAAGGATCAACTGCTGCCCATATCTCATGCTCAGCAAT
+CAGATCAGCATCTGAGGCATCCCAGTACCCGTACCAAAATCCCGTTGCGGACGTGCTG
+>ds2020-267_410
+CAGCACGTCCGCAAGCACAAGATCCTCGGCGCGGAATATAATCCCAAAGTACTCCAAAGA
+CTCAATTATAGTAAATCAAGAAGGTGGTAAGACCCTTGCAGAGTTCCCCAACAGCATAGA
+GCTGGGGAAGCTCGGACCCGGTCAAGATCCGAACAACAAGGAGCACTCAACTACTAGTCT
+AGTCTAGTAGTTGTTTTTTTCTATTAGTTGCGACGCGAACCCAATTGCGGACGTGCTG
+>ds2020-267_411
+CAGCACGTCCGCAAAGTGAGGCCCCTTCTGACCCCTTCTTTATTGAGCCCCAGTCACTGG
+TGGATGGTTGAAGTCAGTCCTCCCCCTACACGGGGGCGAGAGTTTGGCACCTCTCGGACT
+GTTCTAGATCTCGGCATCAGAAATCATGTCGGACGTACCATCTTCGTTCCGATCTCAGCG
+AGCAATGTTTTCGCTTGTCTGATTGAAGGAATATGACTGCTTACTTGCGGACGTGCTG
+>ds2020-267_412
+CAGCACGTCCGCAAGCGTCTTTCCCCCCCTTTTTGTCTGTATGAATTTCTGACCGCGCGG
+AATCTCCATAGCCAATTTTCCATTTTTGATTATGAAATCATAGGGTGCCTTTGGTAAAAC
+TCTTATTTCACACGATCCAGGAACTTCCATAACGTTGGCGTGATTCAGTTTGAGCAACGG
+ATCCTGACGTGATACATCTTCGTAATGAAAATAGAGTGGAATGCTTGTGGACGTGCTG
+>ds2020-267_413
+CAGCACGTCCGCAATTTCTTCCTGATTGTAAAATTGAATTAGTGAGGTCCTTTGCGTGAA
+CCACATTAATTGCATATTTGCATCCTATGATAGCCAAGGAGGTTAGAACCTCCTTGCTCA
+TAATGTGATCTACATCCCAGTATTCTTCGCAAAAGAAGAATCGGTTATGGCTAAGTCCTG
+ATTTGCTAGCTTTCACTAGCATTGCCATGCTGACCTGGGCCAGATTGCGGACGTGCTG
+>ds2020-267_414
+GGACGTTCGGGCTTAAGGCTGGTGTTAATAGCGGAACTGACGGGGCGACAATATCAGCAT
+CAGTTAAGGGACAGGCAAGTAACCAATACTACTTGAATAATGGAACTCATATCCTACCAA
+ACTATTCGTCAGCAGACTTACTAATAGATGAATGGTTATCAATTTACGATAACACAGAAT
+TAGTTATAAAAGCGATGAGGACTACTTACGGAACATGAAGATGAAAGCCCGAACGTCC
+>ds2020-267_415
+CAGCACGTCCGCAAAAGTCTTCTCATGCGGGCGAAGGAGATGCATTTCTGGTACTGGTAG
+TACTGGACAAGCTCTCAGGGAATAATCTCTTTCTTATTTCTGCCTTTCTTTCCCATGACG
+ACTAGGAACGGGCAAATCAAAAATTTCACTTTGAATTCCGGACCTCAACATCCTGCTGCT
+CATGGTGTTTCACGATCAGTATTGGAAATGAACGGAGAAGCTCTTGCGGACGTGCTG
+>ds2020-267_416
+CAGCACGTCCGCAACGTTTTAGGGGTGTAATTTGCGGACGTGCTGACGGCTTGGTCTTGC
+GGACGTGCTGACACCATTACCTTTGCGGACGTGCTGCTCCTTAGATACGCTTAAGGCGAC
+GCACTGACCGTTGCATGAGATATAACACGGTCAGTGCGTCACGGAACGGAGTACGGTCTG
+TGCGTCAGGGATACGACCACGGTCAGTGCGTCAGCAGTATGAAACGGTCAGTGCGTC
+>ds2020-267_417
+TATCTAAGGAGCAGCACGTCCGCAACATTCATGCCCTCAGCACGTCGCAATATCGGCCCG
+GTCAGCACGTCCCAACTCTCCCACCACCACCAGTACCTTACCATGCTTCCCCACCTGATC
+ACTCTAAACATGATCTAGTGCCGCCATTACCTCCAAATCATTACTCGTATGCTTCACCAA
+CAAGAGAACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAT
+>ds2020-267_418
+CAGCAGTCCGCAAGTATTACTCAGTGTACTCCATTTGGTCCTTGTCGCTGAACCTCTTTG
+ATTTAGATGGAGGGGGACTTCCTTGATAGTCATTATCATAAATACCTTCATAGTTTACCT
+CCGCTGCAACAGCATTGTAGTAGTCCTGCCTCTTGCACCGGAAAACTTCTACATACCTCC
+GCCCCATGTTCTGACGATCTCTATGAAGAGCAAACTCAACCTGTTGCGGACGTGCTG
+>ds2020-267_419
+CAGCACGTCCGCAACAGACGCAGAGTTGAAACTCTCAAATTGTTTGGTGACGATCTTCAA
+CCAACCTACGTTTATATCGACAAGTCGAAAAACTTTTTCATCGGGAATGCTGCTTCCGCG
+AAATACGAGACAAATCTTAAGACTAAATCAGATGATGGTTGGTTGTATAAAGATATAAAA
+CGTTGGGTAGGTGTGAACAAACACAACTTTACGGTGTAGCGTTTGCGGACGTGCTG
+>ds2020-267_420
+AATGATAAGGAAGTGGAAAGCACCTTTGGCAAATGGACCTTGAGCCAGGCATCTGAGACA
+GGCAATAATGATGAATGGGATGATAGTTTGCTAACTAAGGAGGAAGTGGAGGCAAGGTTG
+CAGAAGAAGGACGAAGCCCGAACGTCCTTACTTCCAGACACGTCCGCAATTCCTAATCGG
+CACTAGGTCGGGATATTTGCGGACGTGCTGAGGAATCTGGCCTTGCGGACGTGCTG
+>ds2020-267_421
+GACGCACTGACCGTTTCCTAATCCCTGACGCACTGACCGTAAGGCTCCTCGTGACGCACT
+GACCGTAGAAGGCACCCTGACGCACTGACCGTAATTCACAGGTTCGGCGACGGTCAGTGC
+GTCGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAACCCCAATGCCCTCGCACGTCCG
+CAAGTGACTCTCGCCACACGTCGCAACCATAAGGGGGTAACATTGCGGACGTGCTG
+>ds2020-267_422
+CAGCACGTCCGCAACACACCCATCGTGTAACGCTCTCTCTCTCCGACGCAGTCATCTTCC
+TCCCTCAGCCATCCAAGCTTAATCCCACAGTTCACATCCACGAGGTACTGTTCACGTTCC
+TTTTCTTAGAAATTTGGGGTTTTTGTGTATTTGGTTTATGGTGTATGGATTTGTATTAAA
+TTGGTTGAGGGGTTTCTTCCAAATTGGTTTAGGGTTTGCGGGTTGCGGACGTGCTG
+>ds2020-267_423
+GGACGTTCGGGCTTTTCGTCGTGCCTTTGGTATCATGCTACCGGCGTATGGCAATGAAGT
+GATTTTTATGCTCAAAGGCAGTGCGCTGGCATCGACCATCACTTTGATGGATATCACCGG
+TGAGGCAAAGACTGAAGCCCGAACGTCCTTACTTCCAGTATCTAAGGAGCAGCACGTCGC
+AAAAAGGCCCCACGTTTCTTGCGGACGTGCTGGGGTATGTCCCTTGCGGACGTGCG
+>ds2020-267_424
+GGACGTTCGGGCTTGGTGTAGGCTGTGGTCGGCTTTGTTCTACTTGTCGTTGCTTTTCGA
+CTTCCAATTGTGCATGTTGCTCTGCAAAGCTTTTTCCGCTTTCCATTGCTCGTACTTACT
+CATGGCGGAACCCCTACTAGAAGCCCGAACGTCCTTACTTCCAGAATCTAAGGAGCAGCA
+CGTCCGCAATTCATTGAAGATTGGGACGTGAGTACGTACACTTTGCGGACGTGCTG
+>ds2020-267_425
+CAGCACGTCCGCAAGTGTGTCGAACTCCCCCTCCCCCCCGCCAATAAGTCTGTCTTACAT
+TTGTGCAGTAAATCATGCTCAAACGCCTTCAATGGCTTAGTGTAGGTCTCTTATGTACAA
+TTTAAAATCCTCAATAAATGTGCCTAACTGAAAGTTTTAGCTCTGTGCCTCCTCTCTCAT
+ATAATCTCTTATTTGATTACTGATGCTTAACCTGACGAGATTTGCGGACGTGCTG
+>ds2020-267_426
+CAGCACGTCCGCAAACAGCACCGCTCAGCACGTCCGCAAAATCCTCCGCTCAGCACGTCC
+CAATGCGATAAGGCTTGCGGACGTGCGCTTTAGGCGACGCACTGACCGTAATCCCTCCTT
+TCGAAAATCCTGCTTAGCCGGAGCTCTCACTGAGAAGGCTGGCCTATAGGAGACTGCATT
+ATTGGCAGATACTCTGAACTCCATTTCTTTACGAGGCTTCCTAACCCTAACGCTG
+>ds2020-267_427
+GGACGTTCGGGCTTCTTTAGCTTCATACCTATCCTCAGAATCAGAACTCTTTTCTCTCTC
+AGAGCGCCGACTATCACGGTCTCTCTTATCTTTATCTTTATCTTTATCCCTGTGTCTCTC
+TCCATTCCTCTCTTTTTCACGTTGCCGATCTCGATGACTCCTCTTGGATTCCCCCTCCTT
+CCTGGATTTATGCTTGCCCTCTTCCATTTCTTTCTTCCTGATACACGACGTGCTG
+>ds2020-267_428
+CGAAAAAACCAAATTCAGCTCTACGTAAGATGGCCAAAGTACGTTTGAGCAATCAACATG
+ATACATTTGCTTACATTCCAGGCGAAGGTCATAATTTGCAGGAACATTCTATGGTGTTAA
+TAAGAGGAGGTAGAGTGAAAGATTTGCCAGGTGTGAAATTCCATTGTATTCGAGGAGTCA
+AGGATTTGCTGGGAATTCCGGATCGAAGAAGAGGGGCTACAACGGTCAGTGCGTC
+>ds2020-267_429
+GGACGTTCGGGCGTCTATTTACGGATGGCAGCCCAAGGCGCAATCTTTCAGGATCATGCA
+CGTCCGATGTTTCCGCCATGGCCCGGGACCCGATGAAGAAAGCCCGAACGTCCTTACTTC
+CAGTAGGAGCAGCACGTCCGCAAATGTACTCCGCTCAGCACGTCCGCAACGTGTCACCAC
+TCAGCACGTCCCAAGTGTCCACTGGCTATAGATTGCGGACGTGCTGCTCCTAGAT
+>ds2020-267_430
+CAGCACGTCCGCAAACGCTCACGCTTCAGCACGTCGCAATGTTCGTCCGGTCAGCACGTC
+CACAAACCCTGAATTGCGGACGTGGCGCTTAAGGCGACGCACTGACCGTGCAGCCCCTGT
+TATATTGTCGGTGCAGGGCTACTTGACCAGTGAGCTATTACGCTTTCTTTAAAGGATTGC
+TGCTTCTAAGCAAACCTCCTGGCTGTCAGTGCTTCCCCACTTCCTTTTCCACTTA
+>ds2020-267_431
+GGACGTTCGGGCTTTCACTCCCAGATATAAGCCCGAACTCCAGGATGCCAGGCAAGCCCG
+AACGTCCAGACAGAAGAATAAGCCCGAAACGTCCACCGGAACGCACAAGCCCGAACGTCC
+TTACTTCCAGTATCTAAGGAGCAGCACGTCCGCAAGTCACCCATCGTGCGGAGAGTGAAT
+TATAATTGCGGACGTGCTGAGGGCGGTTTTTTTGCGGACGTGCTGCTCCTTAGAT
+>ds2020-267_432
+CAGCACGTCCGCAACCTGCTTTCCCTCCGAATAAGCAAAATAAGTTTATACACCTAATTT
+TGTTCCTGCCGATTGAATAAGAATCAAATACAATCAAGTGGAATAAAATTCTAATGAAAT
+ACAAAAATTTTTAAAATTAAATTAACTAAAGAGAGAAGGTAGGAAGGGGGCAAATACGGT
+CAGTGCGTCGCCTTAAGCCCGAACGTCCAGCCCGCATGTCAAGCCCGAACGGCC
+>ds2020-267_433
+TATCTAAGGAGCAGCACGTCCGCAAACGCATGCACATTGGACAGCGATTGGTTGGGTTGC
+CCAAGGTACGGCTTTAATTGTGTGGGGAGTAACTGAGCGCTACCGTTTAAGCCGATATAT
+TGGTGTGGTTTTAGTTTTACTTAGTTCTATTGCGCTGTTTTATCAGGTGTGGGTAAACGA
+AGAGTTCCCAACGCTAAGCACAAGCATCACAGCCAAACGATTGCGGACGTGCTG
+>ds2020-267_434
+CTATCTAAGGAGCAGCACGTCCGCAACAATAATTCCTTATTGAAAAATTCGCTCACAGGG
+CTTCTGCAACTGGGTAATGCATGCTTGTGAGCGAATTTTTCAATAAGGAGCTCCCACAAT
+AAGAATGTGGGTCTGGGCTGCCAACCACAAGGTCACCAAAATCATTGTTTGTGTCAACCA
+ATGTTTCACGGGAATCCAGATATCTGTGAGACCAATTCGAAAGCCCGAACGTCC
+>ds2020-267_435
+CAGCACGTCCGCAATTTTGCAGCCATGTACGCCCTGGCCATGGCTGGTCTGTTCACGGTT
+TTGAGGTGTTCCGTTGCCTGCTCTTCAGCGGCCAATATCTCCTTGTATGACTTAGGCGGC
+TCACCGATGGCAAGCGTCGTTCCCAGCGCCTTTGCCATAAGGTTAGACAAATCCCCCGTC
+CTCACGATTTGAGACCCCCTGGCGGCGCCCACCCATGATGTTGCGGACGTGCTG
+>ds2020-267_436
+GACGCACTGACCGTACCTGTAACCATCAATACTTTTTCTTGCAGTAATAATTCCATCATA
+AACTGCATATCATCTTCGATTGGATAAATGTCACGGTCAATTTTTGGGAAACAATAAAAC
+GCCCCTTGTGGCATGGTGCACGAGATACCTTTAATGGCGTTTAGACGCTCGATAGCGATG
+TTGCGCTGCTGATACAGGAGCCAATACGGAACGGTCAGTGCGTCGCCTTAAGCG
+>ds2020-267_437
+GACGCACTGACCGTCGGACATTCCTTGACGCACTGACCGTTCCTGCGCTGGGACGCACTG
+ACCGTTATACCCCAAATCAACGCACTCTCGTACGAAGGCTAGCGATACGGTCAGTGCGTC
+GCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAGTACCAGGCTGTTGCGGACGTGGAG
+TAAGAGACATTGCGGACGTGCTGACCCCACCCCATTAAAATTGCGGACGTGCTG
+>ds2020-267_438
+CAGCACGTCCGCAACTGGCACCTTTTTCGGATGAAGACGAAGACTGTATTTCCGAAATCT
+GTCAAACACTTTCTTCAAATTCACCGTCTTCTTAAGCCCAAGACTTGGCGATCATGTCAT
+CGACATAGACCTCCATTTCCTTGTGAATCATATCATGAAACAGCGCAGTCATGGCTCGCT
+GGTACGGCGCCCCGTCATTCTTTAGACCAAACGGCAACACTGGCGGACGTGCTG
+>ds2020-267_439
+GACGCACAGACCGTCGATATGGCTCTAGCATAGGCAGTGCGTCCCGGGCACCTCACGGTC
+AGTGCGTCAGGAACATAATAACGGTCAGTGCGTCAGGGCATACTCTACGGTCAGTGCGTC
+GCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAAGGACTATCTCTCAGCACGTCCGCA
+ACTTCTTTGTCGTCAGCACGTCCCAATAACTGGTGGATGCTTGCGGACGTGCTG
+>ds2020-267_440
+TCAGCACGTCCGCAAGCTAACCTTTGTAATTATTGTAATTTTTCTTTACTCTCTTTTCAT
+TTCAAATTTATTCAATTTTCTTTGAGCTTTCTCTCTCTAGCTCTTCCAATTTCGACGTTC
+TCTTTGTTTGAACACCTCCTTCTTTTCTTCCACCGACTTCCGTCATTTCCCGCGTCCCAG
+TTTTCTTCACTGATAATTCTTCCTCCTCCTCGTCGGATCCACGGTCAGTGCGTC
+>ds2020-267_441
+CAGCACGTCCGCAAGTTGAGTTCAGTGGTGTAAACGAGTTGTCCAGTGTGGTAACGGTAA
+GGGAGTACAGTAATGCCAGGTTGTGGAAATCTGTTGTTTGGAAGTTCGTTGTCGTCTAAG
+TGACGATAAAATTCGAAGGGTTCGTTACGGTCAATGTTCGCTTGAGTGTAGCGTTCATAT
+GTTTGAGAGAAGGTGTGTTCGTATTCTGATGTGCGATGACTTGCGGACGTTCTG
+>ds2020-267_442
+CAGCACGTCCGCAAACCACGCCTTTTATGAGCAGCTAAGTCAGCTGCAGATTTTGCAACA
+ACAGATTGCATCTTTGACCACTAGCACCACCAACTAAAAATTGCCCAGCAAACGCTACAA
+GCCGATATTCAGCAGCGTTTTGCGACATTGGGTTTTGTGGATGACGCCGATAATCGCGCT
+GCGGTGTTGGTTGATACCGAGCGAGAAAGGGTTGAACTATTGCGGACGTGCTG
+>ds2020-267_443
+AAGCAGGTATACGGGTCAGACGTTTAGATGCAGGGTAGCCCTCTTCTACTATCCTGGTTG
+CCTTGACTTCCTGAACTTCAGCCAGATGTCCAAATTCAAAGGCTAACCAACACGAATCAT
+TTGCGACGGTAGGCACTTCTTTTCCGAAAGGCACAGAACACATTGCAGCCCTACCTATTG
+GGGGGGGGAGGGCACGGTCAGTGCGTCGCCTAAGCGCTCTTGCGGACGTGCTG
+>ds2020-267_444
+CAGCACGTCCGCAATGTGGCAACCGTGTACGACGTTTCCGATGACACCCTGTCTATCAAG
+TGCCCCAGTATCAGCATATTATTGGCGTTTGTGTTGATAAGGGACGTGTAATAGGAACCA
+CTCGGCATCGTCCCAAAAAGGTTGACAAGGTACCCCGAAGGATGCTCAAGAAGCTTCTTG
+AGAAGCTGGCGCTTTGACACAGATGACATAGCCTAACGTTTGCGGACGTGCTG
+>ds2020-267_445
+CAGCACGTCCGCAAAGGGCCGGGGATTGCGGACGGCTGAGTAGAGGGTAGTTGTTATTTT
+TGCATGCAAGCTACTGACGTCTTTTTTTTTGAGTGTTCGATGGCTTTGGAGAAAGGTTTT
+TAGGATTAGTGCATCAGGGGAAGATGATGCATCTGATGAGCATAAAGGTATGGAGGTTGC
+GGACGTGGAGGTGTAGCTTCTTGCGGACGTGCTGAGGTCAGTCGGGTTGCGGA
+>ds2020-267_446
+GGACGTTCGGGCTTTTGAGTTTCCCTGGACTTCGGGCTTGTTTCTGCGGCTGGACTTCGG
+GCTTTGTCTCTGGGGGGACGTTCGGGCTTATCTACACCCTGGAAGTAAGCCCGAACGTCC
+TTACTTCCAGTATCTAAGGAGCAGCACGTCCGCAACCGGCAAAACCTCAGCACGTCCGCA
+AGACGAACTACTCAGCCGTCCGCAAAGACCCCATCATTGCGGACGTGCTGCTC
+>ds2020-267_447
+GACGCACTGACCGTCGACGAGCCGATAGTACGGTCAGTGCGTCAGTTCTGTTCAGACGGT
+CAGTGCGTCAAGGTAGGGGCAACGGTCAGTGCGTCAGCGGAACTCGAACGGTCAGTGCGT
+CGCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAAGTTATATACGGTCAGCACGTCCGC
+AATGCGGTCTCCCTCAGCATGTCCCAAACCCAGTGCGTGTTGCGGACGTGCTG
+>ds2020-267_448
+GACGCACTGACCGTAGCTGCCTGCTTCTTGACTTACATTCTTGGCCCCTTCCCTGGCGAC
+CACTACCATTATGCGATATAAAGTGAAATCCAACCTAAATTCCCAAACAACTTGAGGTTG
+CTGACTCATCATGTGGGTCAAAAACTGAACTAATTCCACATTTCCAGTGCAGTGAACTCC
+ACTTAATATAACCATTTTAGTGATTTAAGGTAAGTGTTTACGGTCAGTGCGTC
+>ds2020-267_449
+GACGCACTGACCGTTCTCTTCAGGATGACGCACTGACCGTTGCCCTTTCGATGACGCACT
+GACCGTCCTGAGACAGTTGACGCACTGACCGTTCCATTATCGCTGACGCACTGCACGTCT
+GACGGTCAGTGTATCTAAGGAGCAGCACGTCCGCAATAGAGTCCCCCTCAGCACGTCCGC
+AATAACTAGACGCTCCACGTCCCACGACCCTGGCTTATGTTGCGGACGTGCTG
+>ds2020-267_450
+CAGAACGTCAGCAATCGGCGTACCCTAGCGCGTCCGCAAGGAACAATCCTTCAGCACGTC
+CCAACTATCGTGCAGCACGTCCGCAAGAGTCGTACCCCAGCACGTCCGCAAGTAACAATC
+CTTCAGCACGTCCCAACTATCGTGCAGCACGTCCGCAAGCGCCGTACCCCAGCACGTCCG
+CAAGTAACAATCCTTCAGCACGTCCCAACTATCGGGGCATTGCGGACGTGCTG
+>ds2020-267_451
+CAGCACGTCCGCAAACCCAAAGCTCTCACTGCATCTTCCATCTCCTTCCTCCTCCCCTGC
+ACCGAAACGACGCCGTACGTACCCCTTCCCAACATTTCCAAACTCTCACGACCACTCGTT
+TTCCGTCTCTCGTCTGATCCGGAACCGGAACTACTCGACAATACGATGTCGTTTTCTGTA
+GACGAAAATGACACAGATAAAACCTTAGCCGGAACACATTGCGGACGTGCTG
+>ds2020-267_452
+CAGCACGTCCGCAAAGCTCCGTTGGTTAGAGCACTGCCTTGATAAGGCAGGGGTCATAAG
+TTCAAGTCTTATTAGACTCACCATTAGATGAGCTTAGTAAGCGCAAGCGAACTTAGCGAA
+ACTTATGTACCGCTACTTAATTACTGTAGCTGGTTAAAGTCTTATGTATCTTTACTCAAT
+TAAGTAACGACTCAATTAAGTAGCGGAGTGCGACATGATTGCGGACGTGCTG
+>ds2020-267_453
+TTGACAGAGACGGCACTCACAGGAATTAGTCTAGCAGCATGGTAGAAAGTCTTAGCCCAC
+AATTGCTTAAGTGGGGCAAAGCCCCCTATGTCTGAAATGAAATGGGAGCGCTTATACTTC
+TGCCATGTGCGGACGGGATTAGTCATGAAAGCACCAAGCCCGTATTTCTTTTCCCATTTT
+CCTATGATGTAGTTGAACGGGACCAGATTTGCGGACGTGCTGCTCCTTAGAT
+>ds2020-267_454
+CAGCACGTCCGCCACTGATCCGCCATTGTGAGCGGGCTGGCCGACGCGCGACCAACTCCC
+ATCCTATTGAAGCTGCTGATGTCTGTACAGCGGTAAGTGGGGGTGTCTGAATGCGGTACT
+CGGAAGTGAAATTGCACAGGTGCCAGCGAGGTACATAGCGTCACAGCTGCTAACGTTGCA
+TCAGGATTACAAGCAAGCGGTGCCGGAGGAAAAACGGATTGCGGACGTGCTG
+>ds2020-267_455
+CAGCACGTCCGCAACCTCACGCCTCTCAGCACGTCCGCAACCTCCTCTTCCCCCCTGAGT
+GGGAGGGCTGTAAACTCCTCTTTGTCCTTACCGACAAGTCCCTTGTCAACGCATTCCACT
+TCCCCCTGATTCCCACTCAGCAGAACTCCATGCTACACAACGCTGCGGCTGAGGCTCTCA
+TGCATCTCAAGTGCACCATCCACCTCAGCCCCATCATCAAGCCCGAACGTCC
+>ds2020-267_456
+GGACGTTCGGGCTTTGCGTGAGGGGTGTTGTGGGGCCATGTTGGACTCTTCTGCCGGAGG
+GTCGCGCCGCATGATGCTGGGAGTTGAACAGTCTGGGAAGTCTGGTGTAGAAGCCCGAAC
+GTCCTTACTTCCTATCTAAGGAGCAGCACGTCCGCAAAATGACAAGGTGGTTGCGGACGT
+GGCCCAAGTGGAATTGCAACGTGCTGACGGGCTGGGGTTTGCGGACGTGCTG
+>ds2020-267_457
+CAGCACGTCCGCAAGGCCTTTGGGGTGTATGACGGGCACGGTGGGGCTGAGGTGGCGAGG
+GCTTGCAGAGATAGGATGCATGAGTTGGTGGCGGAGGCAGTGGAACTGGAAAGGATTAAT
+AATAGTAATAATAAGAAGAAGAAAGATCCGGTGGATTGGGATTGGGAGAGGGTGATGGAG
+GGGTGTTTTGGTAAAATGGATGAGGAGGTGAGCGGGATTGCGGACGTGCTG
+>ds2020-267_458
+CAGCACGTCCGCAATTCATAGCCCCTCACTATAGAAGCTCCCATTGGAACTATGAGTACC
+CCAAATGAATGGGTGGCACATAATAGACCCAACTTCAATCGGTTACGTTGTTCATCACGA
+ATCTCTCACGTCAGCAAACATGTAAAGAGAGAGATAGAGACAATGTTTTATACAACACAT
+TGCCCGGGAGTTCCTTCCAGATGAAGACTACGAAGAGGTTGCGGACGGCTG
+>ds2020-267_459
+GACGCACTGACCGTATTAATGCATGTTGTAACGGTCAGTGCGTCAGCGCGTCGGGAACGG
+TCAGTGCGTCAGCAAGAGTTATACGGTCAGTGCGTCGCCTTAAGCGTATCTAAGAGCAGC
+ACGTCCGCAAAGACCACGGGGTCAGCACGTCCGCAAGTGAGGCCTACTCAGCACGTCCCA
+ACTTACATTCCCTCAGCACTCCGCAAAAGGGTTCAAGTTGCGGACGTGCTG
+>ds2020-267_460
+CAGCACGTCCGCAATGGTATTAGTCTGAGAGGAGCAGAGGTAAGCACGTTAGAGCGTTCT
+TTTTTCACCTTTGTTTCTCATATAGAAGTCAAACTGAATGCATCTAATTTTGCTTCTCAG
+GCAAAAATCTATGGCGCACTACAACAGTCGTCAATTCGGATGGTCGCGCGTGATGTTGCA
+ACGTGGCAGGACTTTGATGCCTGCTCTGCTTTGGGATTTGCGGACGTGCTG
+>ds2020-267_461
+CAGCACGTCCGCAAACACTTCTGGGCGCCGTCGCAAAATGGTCGTGATATTGGGACGTGC
+TGAGGAGCGAGCCATTGCGGACGTGCTGCTCCACGCTTAAGGCGACGCACTGACCGTCGG
+TATACCCTTGACGCACTGACCGTCCTCACACATCTGACGCACTGACCGTCGTAGCAAGGA
+TTTTACGGTCAGTGCGTCACGCGACCTGCTACGGTCAGTGCGTCGCCTTAA
+>ds2020-267_462
+GACGCACTGACCGTAGTCTGAACACTGACGCACTGACCGTGATTGCGGGGTTAGAACGGT
+CAGGCGTCAGGGTAACGTTAACGGTCAGTGCGTCAAGGCATAGATTACGGTCAGTGCGTC
+GCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCAACCACAGGCCGGTCAGCACGTCCGCA
+ACGGCACTTTCCTCAGCACGTCCCAAGACCTAATCATTTGCGGACGTGCTG
+>ds2020-267_463
+CAGCACGTCCGCAACCCAGCCTTCCTCATTCACCACCACCACCGCCACATTCACCACCAC
+CACCAATTTATCCGTATCCATCACCTCCACCTCCCGTCCATTCCCCACCTCCCCCAGTGT
+ACCAGTCCCCTCCACCACCACCACCACTTTGTATGGAGCCACCCCCTCCACCTTCGCCAC
+CACCACCAGGTATTGAGTACTCACCGCCACCTACTCCTTGCGGACGTGCTG
+>ds2020-267_464
+CAGCACGTCCGCAAGCCGATACTTTTATAGCACCTTTAGCTGACTGGCTGTCACACTTTT
+TGCCACTCGGCCAATCGTTAGACCTTGAATTAAAATGGAAAATACCACAATCGCATAAGT
+CAACGTTAATAACAAATCTCGCTCGGCCCCGGCAGGTAATTGTAATACTAATGCCACTGA
+AATACCGCCTCGCAGTCCACCCACCAATCATGCTTTGCGGCCGTGCTGCTC
+>ds2020-267_465
+CAGCACGTCCGCAACTTGTCCCCTGTGCGCTTACCCAGGATCGTAGGTATACCCTCTGGT
+GTGGTGGACACGAGTGGGTCGTCTACTGGACAACCGCATAGGAAGTTCAGGATAGACAAC
+CTAATCGCTTTTGCATGGGCAATGCAAAACTTTAGGCCCCTTTTGTTATTAACTGATTCC
+AAGTAATCAGTTAGATCATCCAATACACGTGCTTTATTGCGGACGTGCTG
+>ds2020-267_466
+CAGCACGTCCGCAAAATATGCGCGGTGGAGATAAGAAATGATGATTAGAGTATTGGTCGT
+TGACGATCATGATTTAGTCCGAATGGGCATCGTACGGATGCTGTCAGATAGCCCTGACAT
+CGATATGATTGGTGAAGCTACTGATGGTGAAACCGCGATTATCAAAACCAAACAATTAAA
+CCCTGATGTGGTGTTACTTGATGTACGGAATGTACATTGCGGACGTGCTG
+>ds2020-267_467
+TTAGATTCGCTTAAGGCGACGCACTGACCGTTGTTATGCTGGTATACTATGTGTATATGT
+TTAATAGAACTACTTCTAACAACCTATGCATTCGGTTATCGTTTCCAATTGGATGATCCA
+TTAATGCAACTGACAGAGGATTATAAATGGATCAATTTTTTTGATTTTTACTGGAGATTG
+GGAATAGATGGAATTTCTATAGGAAGCCCTCAGCTTACGGTCAGTGCGTC
+>ds2020-267_468
+TAGCACGTCCGCAACATGCCGCCCATGATAAAGCACTGATACTAACCACCGCGGATGCAT
+TGGTGGTCTTCTTTGAAGTCTGGTGGTGTTGATGTCGTGGGGCCTGATGTGTGGTTCAAG
+TGATGGGGTGACGCAGTGAGGTAGCCGCGCCACTTAGTGGATTGGTGGTGTAAGCGTGTA
+GGCCGTGTGGTAGGTAAATCCGCCGCACTTTATGGTTGTGGCGTGGTGCG
+>ds2020-267_469
+CAGCACGTACGCAAGAAGCATGGGGTATTGAAACTTGGCAGGGGGGTGTGGAGCTTGAAG
+AAGTGATGCGGCCGGTACCTAAGGATGCGGCGGCTGGGTTACGTGGTTAGGAGGATGGGC
+CGGGCTGCGTTCGAGCTTGGTTTGAGAAGTGCGACTGGATTATGCCCGACCGGGTTTTTC
+AAATATAGCTTGGGCACGGCCAGGATACGGAGGTTTTTGCGGACGTGCTG
+>ds2020-267_470
+GGACGTTCGGGCTTCACTCCAATCCTAGCTTCACAACCACCACCACCCACAAGCCCTCCC
+ACTCCCTCTCTACCCCCACTTTTCTCAAATTCCCAACCGAATCCCCAAATCCAAGCCCGA
+ACGTCCTTACTTCCAGTATCTAAGGAGCAGCACGTCCGCAATACACATGGGGTGCCCCGC
+AAAACCACATCGCTCACACGTCCGAAATGTATTCACTTGCGGACGTGCTG
+>ds2020-267_471
+GGACGTTCGGGCTTAGCGCACACCCTCTCAATCAGATTCCAGAAGATTCTTTGAGCTCTG
+ACTGCAGGAGTGCCTATGATCTGCTCGCCATTCTTTGCTGACCAGAGAACCAATTGTTAT
+TATACTTGCAATGAATGGGGCAGTGGCATGGAGATTGATAACACTTTCGGACGGGCTGAC
+AGTATGCAAAGTGCGGAAGTGCTGACAGCATAGTTATTGCGGACGTGCTG
+>ds2020-267_472
+CAGCACATACGCAATTGTCATCCCCTCAACACGTCCGCAACCTATACCCCCTTGACTTTG
+CGGACGTGCGCTTAGGCGACGCACTGACCGTGTATACCCCCCTCTGACACACTCTAGCCT
+TGCAGTCTCCAATGCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCAGACTTACAAAAC
+CGCCTGCGCACGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCT
+>ds2020-267_473
+CAGCACGTCCGAAAGTTATTCTTTATTGCGAAGTTCCAGTCTGTTAGCCTCAATCGTGAG
+TTCCTCCTCATCTCTGGGGAATCCGATCTCGATCTTGACGTTTCCCTCAGACTTGTTTCT
+GAAGTGGGGCATTTCAACGTGAGCGTCTTTGTAGCACCCAGATTTGAAGACCATAAAATC
+ATCTTCACCTTTGGTTGCCACATAGATCACTGACTTTGCGGACGTGCTG
+>ds2020-267_474
+CAGCACGTCCGCAACCGGTCTCGGCTGCTTACAGATAAATTATTGGCTTAGCATGAGAAG
+CTTGTGGCATGGGAGCAAAATCGACATGAGTTTAGCACCGAAGAGAAAATTGAGTGTTCT
+TGGGAGAAAAAGGGGTATTAAGGTAGGAGATGGAGAGTTTGCAAAGAGGTTTGGCTGAGA
+AAGGAGGGAAGGAAAGGAAAAGATGGCTTGGGCGATTGCGGACGTGCTG
+>ds2020-267_475
+CAGCACGTCCGCAATTCTGGGTCCTTGTACTGTAGCTTGACTTAAGCAAGCTATTTACTT
+AAAAAAAAACCGTCTTGATCTACGGCCATAACATCTAAAATCTTTTGTAATCGAGACCGA
+TACCGATACGCGCGAACTGGTTCTCGCCGTTCGGAAGGCATCGGTGGAGTCTATTCATTA
+CTTGTTTAAGCACCTCAATAACGACTAGGGCGGATTTGCGGACGTGCTG
+>ds2020-267_476
+CAGCACGTCCGCAATCTATAGGCCCTATACCCAAGTCAGACGAACGATTTGCACGTCAGT
+ATCGCTGCGGGCCTCCACCAGAGTTTCCTCTGGCTTCGCCCCGCTCAGGCATAGTTCACC
+ATCTTTCGGGTCCCGACAGGCATGCTCTCACTCGAACCCTTCTCAGAAGATCAAGGTCGG
+TCGGCGGTGCAACCCTCAAGAGGCATCATTAGTTGCGGACGTGCTGCTC
+>ds2020-267_477
+CAGCACGTCCGCAAACCAATATCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGC
+CAAGGCAGGCAGATCACTTGAGGTAAGATGTTCGAGACCAGTCTGACCAACATAGAGAAA
+CCCCATCTCTACTAAAAACACAAAAAGCTTGGCATAGTGGCTCGCGCCTGTAATCCCAGT
+TACTCTGGAGGCTGATGCAGGAGAAGCCTATAGAATTGCGGACGTGCTG
+>ds2020-267_478
+CCGCAAGGTAATAAGTCTCAGCACGTCCGCAAAACCCCGGGCCTCAGCACGTCCGCAAAC
+CGTAATCCCCCACTCGAACGTATACCCATTAAGCCTTGCTCTACTCCTCTCCTTCCTCAC
+TTGTTCTCACATCAATCTCCAACCTTTTTATTGGATTTTCATCCTCTTTCACCTCCTTGC
+TCCTCATCCCCCAGATCCCCCCACTCCACCCAACAAGCCCGAACGTCCT
+>ds2020-267_479
+GGACGTTCGGGCTTGGAGCTTCCCATGGACTTCGGGCTTTGCCAAACCCCTGGCGTTCGG
+GCTTCAATTATAGCCTGGACTTCGGGCTTAGCTCACCGCTTTTAAAAAGCCCGAACGTCC
+TTACTTCCAGATCCGCAACCGTGTTAGGGTGGAGCAATTGCGGACATGCTGCCCCTAGTT
+TGCGGACGTGCTGAGGGATGTTATTTGCGGACGTGCTGCTCCTTAGATA
+>ds2020-267_480
+GACGCACTGACCGTAGGTTCCCGACTGACGCACTGACCGTAGTTAATTCCCTGACGCACT
+GACCGTCTTCAGCGCCCCACACGTCCGCAATCTTTGGTCGGTGGCGTCTTGACCTAACTC
+GCATTGGTTACGGTTCAAAATCTGGTCTTCAATGGCGTTTCTAACGTATGGGTCGATATC
+GTAATACAACTCTAGCATGGCGGGGAGGATACCACTTGCGGACGTGCTG
+>ds2020-267_481
+CAGCACGTCCGCAATCGTACTTTCGTTCTTGATTAATGAAAACATCCTTGGCAAATGCTT
+TCGCTTAAGTTAGTCTTACGAGGGTCTACGAATTTCACCTCTCGCCTCGTAATACTAATG
+CCCCCAACTGCTTCTATTAATCATTACCTCTTGGTCTAAAAACCAATGAAAGTAGAACAG
+AGGTCCTGATTACTAGCAAGCTATTGCGGACGTGCTGCTCCTTAGATA
+>ds2020-267_482
+CAGCACGTCCGCAACGCACTCGGGTTCACTTCTTTACGGGTCGGTTACCTGCGAAGCGGA
+GGTTGCCAAACACCTACACCAGAGGGGGCAAGTAGCCACCGATGATTACGGGACTCTTGG
+CCCTGACCAGGCCCTGTTGCTTGCGAATGTATACAGGGTTTTCGGACACACGCTGGAGCT
+GCAACACTTTAAGACTCAGGAGAGATACGGACCTTTGCGGACGTGCTG
+>ds2020-267_483
+TAAGGACGTTCGGGCTTAGAGATGCGGGTGCTGATTCTGATAATTGGGGGAGGAAGAAGG
+AGGAGAGTAATGGTGGGTCTGGTTTTGATCGAGAAAGAAGAGTTGGGTTCGTGTCCAATG
+GTGGTGGTGCGGATTCTGAGGTTTGGGGGAAGAAGAAGGAGGAGAGTAATGGTGGTCCTC
+GGGGTTGTTTGCGGACGTGCTGAGGCGACTATAGTTGCGGACGTGCTG
+>ds2020-267_484
+CAGCACGTCCGCAAGCTTCCTCTAATAAAGCGGGAAATACCTCTTGGTGCTCATATGGCA
+GTGTTACATCTTTCATTGCATCTTTGTAGTTTTTCATGTGTTATGTCTTCTAACTATGTT
+ATCATGTTGAATATAGGGTTGGGATCCCTCCATTATGGATTCTGACATTTGCTATTTCTT
+ACAGGATTCTCCAATTCTTGGGATGCCAACAATTTTGCGGACGTGCTG
+>ds2020-267_485
+AGACGTTCGGGCTTTTTAGATCCCTTGGACTTCGGGCTTTTTCCCGTCCCTGGAGTTCGG
+GCTTAACTCAGGGGTTAAGCAAGCCCGAACGTCCTTACTTCCAGAAGCACGTCCGCAAGT
+AACAGAGGTTGGGACGTGCTGAGGTGAGCCCAATTGCGACGTGCTGAGAGATTTAGGGTT
+GCGGACGTGCGAGTGCATTTATTTTGCGGACGTGCTGCTCCTTAGATA
+>ds2020-267_486
+CAGCACGTCCGCAATCGGAACCGGTTCGGAAGAATTCACAGGTAAGGGGCCCAGGTGTGA
+AGCCGTTGAAGCAACCGAAACCCAAGGCTAAGGACCCAAATAAGAGGGAGATGAGTATGG
+AGGAGAAGCACAAGTTGGGAGTTGGGTTGCAGAGTTTGCCGAAGGACAAGATGGAGCAGG
+TGGTGTAGATGATAAAGAAGAGGGGCGGAGTGCGGACGTGCTCTCCTT
+>ds2020-267_487
+GGACGTTCGGGCTTCTAAGGGAGTGTAGGTGGCTCATTAAGTCACATGTGAAATCCCCGG
+GCTTAACCTGGGAACTGCATGTGATACTGGAGAGATACAGCCAAGCCCGAACGTCCTTAC
+TTCCAGAGCAGCACGTCCGCAATCAGCCCGCCCTCAGCACGTCCGCAAGCCGTATTTCCT
+CAGCACGTCCACAATCCCCGCATTTGCGGACGTGCTGCTCCTTAGATA
+>ds2020-267_488
+GGACGTTCGGGCTTCCATGCTGCAATGGCTGGTACAGAGAGTGGCGAGCCTGTGAGGGTG
+AGCGAATCTCGGAAAGCCAGTCTCAGTTCGGATTGGGGTCTGCAACTCGACCCCATGAAG
+TCGGAGTCGCTAGTAATCGCAGATCAGCAACGCTGCGGTGAATACGTTCCCGGGCCTTGT
+ACACACCGCCCGTCAAGTCATGAAAATAGGTAACAAGCCCGAACGTCC
+>ds2020-267_489
+GGACGTTCGGGCTTGAATTCGGCAGTGGACGTTCGGGCTTTTACATTACGTGGCGTTCGG
+GCTTAGAACCCTGGCTGGACGTTCGGCTTTCATTACCGGGTTATATAAGCCCGAACGTCC
+TTACTTCCAGTATCTAAGGAGCAGCACGTCCGCAATATTTCACAGCTCCCGTCCGCAATG
+CGCAGTTGCTTGGGACGTGCTGAGAAGAGTCCAGTTGCGGACGTGCTG
+>ds2020-267_490
+GGACGTTCGGGCTTTACCCCCCCACTCAATAATCCTACCGATATGTGTAAACAAATAATT
+CACAGCCTTATCTTGCGCGCAATTAAAGAGCATAGGGAAAGCATTTCGCTTACTGGAAGG
+GTCCTGCTCGGAGGCCAAGAACCGATCGATGATCTCCGGCGCGCTATCCAGCAATGTCTC
+CCCCGTGGTTTGCGGACGTGCTGAGGGAACAGCCTTTGCGACGTGCTG
+>ds2020-267_491
+GGACGTTCGGGCTTTCTGCCGCCCCTAAGGATCATATAAGAAACCATCTAGAATATGAAT
+CTTGAGAGTACACACGATGCTTGTAATGACCTAGCCATTCTACAATTAAAAGTTCGACTA
+GAACTGTAACCAAGGCACAGCTCGAAGCCCGAACGTCCTTATCTAAGGAGCACCACGTCC
+GCAAGACGTCTCACTTCCACGCAACTTAACTGCATTGCGGACGTGCTG
+>ds2020-267_492
+CAGCACGTCCGCAAAGTGTCTGGGATAGTCTTTGACTGTGATACAGGCATACCAACGGTT
+ACGGCTGTCTTGCACCAACTCGCAAGTGTTGATTTGATATAGGCTAAGGTTGTAGCTGTA
+CCATAGGTCAATGATTAGTTTCTGCCCTTTGGCTAAAGATAGTTGTAAGGTGGATTTTAA
+GCCCTTTTTGCCTGTTTGGTGAGGGATACCGCATTGCGGACGTGCTG
+>ds2020-267_493
+CAGTACGTCCGCAAGTGTCGGGTCTTGTTTTCTTTTGGGTTTGAGGTTGTGGAGGGAGTG
+AAAGGGGTGGTTGATGAAGATGAGGAAGGGGTGTGTTTGGGGATTTGGAGAAGAGAGAGG
+GCTTGGAGAGTGCAAGTGAGTGTGTTTGGGATTGATCTTCTGTGAATGGGTTTTCTGCTG
+AAGAAAATTGAGGTGGAGGAGGAAGAGGGGGGGTTGCGGACGTGCTG
+>ds2020-267_494
+GGACGTTCGGGCTTGACACCATTCCTGGACGTTCGGGCTTGGACGCGGGACTATAAGCCC
+AAGTCCAGATACGAATCGAAGCCCGAACGTCCTTACTTCCAGACACGTCCGCAAAGTTAC
+CGGGGTATGTTGCGACGTGGGGGAGAGGGAGATTGCGGACGTGCTGAGTATGAAAATTTT
+GCGGACGTGCTGCCCGCGAGCTGTTGCGGACGTGCTGCTCCTTAGAT
+>ds2020-267_495
+TCACTCCATCATAGTCTGATAGATCTTTTTAAGAATTGATTAATCGGACGAGAATAAAGA
+TAGGGTCCCATTATACATGTCAATATCGACAACAATGAAATTTATAGTAAGAGGAGGTCC
+AGATGGACGGTCAGTGCGTCGCCTTAAGCGAATCTAAGGAGCAGCACGTCCGCAATACCG
+CGTCGATGTTGCGGACGTGCTGCCCAGAATCTCTTGCGGACGTGCTG
+>ds2020-267_496
+CAGCAGGTCCGCAACGTCGGTTTTGTGTCCGTATCGGCGGTGCCAATCGGTTGCGAGGGG
+TGTGTAGAGCGATTCGAGTCGGTCAAACACTGCGCGGAAGGTTGTTCGATTCGCTAAGAA
+ATAGGAATCGGTGGCGAAGGGGGCTTCAGCGTTCACGTGCCATTTATATGGGTAGTGGGG
+CTGCACATCATAGATGTGGGCAGGTCGTCAATTTTGCGGACGTGCTG
+>ds2020-267_497
+CAGCACGTCCGCAACTGAAGGTTCTTTCTATCTATGATCTTTCTATCTCTGTGCAGCTAC
+TTCACGCCATTCAAATAAATAGCTCATCCTCCAAATTCCAGACCCTTTTGGTTTCTGCAA
+AAATGTCGAGAGCTCAACCACACAGATGGCTCTCCCTACTCATCCTCTTCCTTGTACACC
+TTTCACACACATCTCACGCCGACGTGGACTCTGTTTCGGACGTGCTT
+>ds2020-267_498
+GACGGCACTGACCGTCTAAGTGTAGATAGTGTAGATGTATCGCAAGCTATGCCAACTATC
+GATGACGCATCTATGATGTTTGCCGCAGGCACAGGTGAGCTAGCGGATAAACACATCTCT
+GAGCCTATAACGGGTGTAGAGATGGCTGTACAGGACGCGGCTATTGGGACGTGCTGGCTG
+GGGTGACGTTGCGGACGTGTGACGCGTGCGTTGTTGCGGACGTGCTG
+>ds2020-267_499
+TAAGGAGCAGCACGTCCGCAACGAGTTAGGGGTCAGCACGTCCGCAAGTCGACTACGGTC
+AGCACGTCCCAAGTGGAGCCAATTTGCGGACGTGTCGCTTAGGCGACGCACTGACCGTTG
+GCGTATGGGGTACGCACTGACCGTGTGTCATCCCATTAGATACGGCCAGTGCGTCAGGTA
+AAAATCTACGGTCAGTGCGTCAGCCCCCCGAGAACGGTCAGTGCGTC
+>ds2020-267_500
+GACGCACTGACCGTGATTTATCCCCTGGACTACGGTCAGTGCGTCAGGCAACACTATACG
+GTCAGTGCGTCAACCCGTTCCTAACGGTCAGTGCGTCGCCTTAAGCGTGGCAGCACGTCC
+GCAACCAGATATCGATCATTGCGACGTGCTGACCGTACAATGATTGCGGACGTGGAGGCA
+GATGGACTTGCGGACGTGCTGAGCGAATTCCCTTTGCGGACGTGCTG
+>ds2020-267_833
+CAGCACGTCCGCAAATGAGGTTCGCTAATTTCTGCAGGAACAGGGAAGGTGGCTTAGAAA
+CCAGCCATTGAGAGAATAATGATACAACAAACAAACACTAATTGGACAATACTAGAAAAA
+ACCATGAATACGGAGCTCAAACCTGATTAAACTTTGAAAGCTGATCAACAGCATCATTTC
+CACCCAGTGCCGGTTGCGGACGTGCTG
+>ds2020-267_834
+CTCTCCCGATCTATCTAAGGAGCGCACGTGCGCAACAGGCCCCCCCTCGGAAAGAGAGGG
+ATTCGAACCCTCGGTACGAAAAACTCGTACAACGGATTAGCAATCCGACGCTTTAGTCCA
+CTCAGCCATCTCTCCCACGTCCGCAAATCCGGGTCGGTATTTGCGGACGTGCTGAGGGTC
+GTATAATTGCGGACGTGCTGCTCCTTA
+>ds2020-267_835
+CAGCACGTCCGCAATCGGCGCACACTCAGCACGTCCGCAAAGTGGTTTGGGTACAATCTA
+AAAAAAACGATTCCACATGAGGGAGAACCGGACAATTTCCCTCTTGAGTAATGGGAAATG
+GGAAGCGGGCTAGTCCCCGAAAATGCTCGTTAAAGTTGGGGGTTACAATTCACCCTGTGA
+CTAATTCCTTCGGTCGCGGACGTGCTG
+>ds2020-267_836
+GGACGTTCGGGCTTAACAACCCCCTTGGACTTCGGGCTTGCCTGTTCACCTGGACGTTGG
+GCTTTATTGTTGCGATGAAGCCCGAACGTCCTTACTTCCAGTATCTAGGAGCAGCACGTC
+CGCAAGTGAAGCCGACTGAAATTGCGACATGCTGAGGGCCAGTAGATTGCGGACGTGCTG
+AGGGCCCGGTGGTTTGCGGACGTGCTG
+>ds2020-267_837
+CAGCACGTCCGCAACAGGAAGTTCTTAACCGTTGTTCCTGTGGTGCTGTACTTGATAGCC
+TCACACACAACTGACTACCAGCACCCGATGCTCTTTTTCAACAGTCTTGCAGTCATTGTG
+CTAGTTATTGCCAAATTCTCCAATATGCACAAAGTCCGGATCTTCGGAATCAATGGAGAT
+AAGGAGTTGGGCCTTGCGGACGTGCTG
+>ds2020-267_838
+CAGCACGTCCGCAAAGACTTACCCCTCAGCACGTCCGCAAGAACCATGCCCTCAGCACTC
+CGCAATCTGATCTCGGTGTAAGCTATTGCCACGTGAACGTGTCGAGCGCTTGCTAGATGC
+CGGTACGCCATTTTTGGAAGTCTCACCGATGGCAGCGTATGGCATGTATGATGCCGATAT
+CACGGGTAACGGCTTGCGGACGTGCTG
+>ds2020-267_839
+GGACGTTCGGGCTTCGAACAACCCTTGGCGTTCGGCTTACAACCCTCCATGAAAGCCCGA
+ACGTCCTTAAGCACGTCCGCAAGACTTGACTACTTCCGCAAACCTTTGAGCCTCAGCACG
+TCCGCAACGTAACAGGGATACATTGGGACGTGCTGAGGCTCAAAGGTTTGCGGACGTGCT
+GAGGGCTCAGACCTTGCGGACGTGCTG
+>ds2020-267_840
+AATTTCTAGCCCCTCAGCACGTCCGCAAGTTGGCACACCTCAGCACGTCCGCAACCATAC
+CCAGTTCAATTTGCGGACGTGCTGAGCGGTGAGGATTTGCGGACGTGCTGAGACGTACAT
+GGTTGCGGACGTGCTGCCGGGTACCGTTTGCGGACGTGCTGAGCGGTGAGGATTTGCGGA
+CGGCTGCTCCTTAGATAGATCGGAAGA
+>ds2020-267_841
+CAGCACGTCCGCAATTTCCACTGGTTAGCACGTCCGCAAAAGATCTTACCTCACACGTCC
+GAAACCCCAGCACGTCCGCAATTTCCACTGGTCAGCACGTCCGCAAAAGATCTTACCTCA
+CACGTCCGCAACCCCAGCACGTCCGCAATTTCCACTGGTCAGCACGTCCGCAAAAGATAT
+GACTTCACACGTCCGGAACCCCTTGCA
+>ds2020-267_842
+GACGCACTGACCGTCGAAATGTGGATCAACACGGTCAGTGCGTCAGGAAAACAGCGACGG
+TCAGTGCGTCAGGGGTATAGTCACGGTCAGTGCGTCGCCTTAAGCGTACGTCCGCAACAG
+TATGCCCTTAGCGTTGGGACGTGCTGACGGAATTGTGGTTGCGGACGTGCTGAGGTAGGA
+CCGCTTGCGGACGTGCTGCTCCTTAGA
+>ds2020-267_843
+CTATCTAAGGAGCAGCACGTCCGCAACAAGACTACACTCGCACGTCCTCAAAAGTGTTAG
+GGTGTCCCAGCACGTCCGCAATAAGACTACACTCGCACGTCCGCAAAAGTGTGAGGGTGG
+CCCAGCACGTCCGCAATAGGACTACACTCGCACGTCCGCAAAAGTGTGAGGGTGGCCGAC
+TTGCGGACGTGCTGCTCCTTAGATAGA
+>ds2020-267_844
+TGCCGCAAGTACAGACGTATCCCCATCCGCTCTATCTAAGCATCAGCACGTCCGCAAAGA
+TTATGGCCTCAGCACGTCCGCAAGACACATTCCCTCACACGTCCGCAACGGATAGGCCAT
+CTAAATTGCGGACGTGCTGCTCCTTAGATACGCTTATGGCGACGCACTGACCGTTGAAGT
+CGAGGTATCGATTGTTTCTCCTTCGCA
+>ds2020-267_845
+GACGCACTGACCGTAGTATTGTCGCTCTGACCGTACTACAGGGCTTTTTACGGTCAGTGC
+GTCACGGGTCCAGTACGGTCAGTGCGTCAGGCCCAAACAGACGGTCAGTGCGTCGCCTTA
+AGCGGTCCGCAAATTGCTGCCTTTGGGACGTGCTGAGGGATCACTGATTGCGGACGTGCT
+GAGGGAGTTGCACTTGCGGACGTGCTG
+>ds2020-267_846
+TACGCACTGACCGTGTCATCATGGTTACGCCTGACCGTTGTATAGACCCTGACGCTGACG
+CACTGACCGTGTCATCATGGTGACGCCTGACCGTTGTATAGACCCTGACGCTGCCGTACA
+AGTTCGGGGCTACGGTCAGTGCGTCGCCTAAGCGTATCTAAGGAGCAGCACGTCGCAAGG
+CAGAATCGATTTATTGCGGACGTGCTG
+>ds2020-267_847
+GACGCACTGACCGTAGTTCCACCCCTACACACACGGTCAGTGCGTCAGGGCTAGAGGGAC
+GGTCAGGGCGTCAGGATAGGGCAAACGGTCAGTGCGTCAAGGGTAGCTAAACGGTCAGTG
+CGTCGCCTTAAGCGAATCTAAGGAGCAGCACGTCGCAAACTCAAGCCCCTCAGCCGTCCC
+AAATGTATACTGGTTGCGGACGTGCTG
+>ds2020-267_848
+TCCGCAATTCTCCCGGCTTAGCACGTCCGCAACTGTTGGTCACTCAGCACGTCCGCAATA
+TCGAGCACCTCAGCACGTCCCAACAGAGACCCAATTGCGGACGTGCTGGAAGTAAGGACG
+TTCGGGCTTTAGACTCCCCCTGGACGTTCGGGCTTCAGGCTCTCCTTGGACTTCGGGCTT
+AACTCTTCCCGGAAAGCCCGAACGTCC
+>ds2020-267_849
+GACGCACTGACCGTGACGTTACCCCTGACGCACTGACCGTGGAATTAGCCCTGACGCACT
+GACCGTAACAATGCCCTTGACGCACTGCCGTATTTACTGGACTAGCAACGGTCAGTGCGT
+CGCCTTAAGCGAATCTAAGGAGCAGCACGTCCGCAATTGCGAGTCCGTCAGCACGTCCGC
+AACTGGCCCATGATTGCGGACGTGCTG
+>ds2020-267_850
+GACGCACTGACCGTTTAACTCGTCCTGACGCACTGACCGTTATCGTGCCCCTGACGCACT
+GACCTTACAATAAGAGCGACGGTCAGTGCGTCGCCTTAAGCGTATCTAGGAGCAGCACGT
+CCGCAAACCATATGTCTTAGCAATTGGGACGTGCTGAGGAATGCAGGCTTGCGGACGTCT
+GACGGGCGAATATTTGCGGACGTGCTG
+>ds2020-267_851
+TCTAAGGAGCAGCACGTCCGCAAATAACTTGGGATTGGGACGGCTGACTGGGGGCGTTTG
+CGGACGTGCGAGTGATAATGTGTTGCGGACGTGCTGCCTTAGATACGCTTAAGGCGACGC
+ACTGACCGTTACTTTTCCCCTGACGCACTGACCGTTAAAAATCTTCTGACGCCTGACCGT
+CAAGAGGTCGGTGACGGTCAGTGCGTC
+>ds2020-267_852
+CAGCACGTCCGCAAATGCGTTTACCTCAGCACGTCCGCAATCTCATGGGTGTTGCTTCGC
+TTAAGGCGACGCACTGACCGGAGTTACAGCTTTAGGTATCAGCACTATGGCTTTCAACTT
+AAATGGTTTTAATTTCAATCAATCTGTAGTTGATAGTCAGGGTCGTGTAATTAATACTTG
+GGCTGATATTATTAACCGGGCTAACCT
+>ds2020-267_853
+CAGCACGTCCGCAAGGTTTAATTCCTGTTAGTTGCGACGTGCTGAGTGATGTTTAATTGC
+GGACGTGCTGCTCCTTAGATTCGCTTAAGGCGACGCACTGACCGTGCTTCTAGGGGTGAA
+TAACGGCAGAGAGGCAACGGGACGGTCAGTGCGTCAAGGGGCACCGAACGGTCAGTGCGT
+CAGTGGGGAATGGACGGTCAGTGCGTC
+>ds2020-267_854
+GGACGTTCGGGCTTACACTTTTCCCTGGACGTTCGGGCTTAGTGGACCCTTGGCGTTCGG
+CTTTCTATCGCCTGTAGCAAGCCCGAACGTCCTTACTTCCAGACGTCCGCAAGGCTTGAA
+CAGTCACGTCCAGGCGATTGGGGTAGATTTGCGGACGTGCTGAGGGTCAGGCCATTGCGG
+ACGTGCTGAGAGGGATACACTTGCGGA
+>ds2020-267_855
+TATCTAAGGAGCAGACGACTTAAGCGCCATCCATTTTAAGGGCTAGTTGTTTCGGCAGGT
+GAGTTGTTACACACTCCTTAGCGGTTTACAACTTCCATGTCCACCGTCCTGCTGTCTTAA
+ACAACCAACACCTAGGGCAGCACGTCCGCAAAACAGTTAGGCTGTATTGCGGACGTGCTG
+AGTGAGCCTCCCTTGCGGACGTGCTG
+>ds2020-267_856
+CAGCACGTCCGCAAGGACCATGGCATATTTAATTTAATTCTAAAGGAAAAGTGGCAAGAT
+GTGTGGCACTCTGCTGAGATGGAGAGTCTTGGTGATGATAATATCACAGGCTTACCGGAG
+TGGATGAAGCATATCACAGCCGAGGAGTTGGGGCAATCCGTGTTGGATATGACGGGGATA
+AATAGGCAGAGGTTGCGGACGTGCTG
+>ds2020-267_857
+CAGCACGTCCGCAAACACAGCACCCTAGCATAGCAAAAAATCCGCCACAGGGCAAAAGCT
+ATATGCAAAACTAAGTCTGTGCAATGGGCGAAGTCCCACTGACTAAGTGCGAGTTTTCGA
+CTTGATATTAATATTTCGCTAATGCTCCAAATTCCCACAAGTCAAAACCTCGGCAGGGGA
+TGGACAACACCTTGCGGACCGTGCTG
+>ds2020-267_858
+CAGCACGTCCGCAATAGACCCACCATTATAAATCCCCCCACCCAAACCAAAAAAATAAAA
+GCTTTTATATATATGAGTTTTTATATTTTCTGATCTGATTGAGAGTACTTGTTCTGTTTT
+CTCAGTAACTGCACTCTCTTTCCTCTTTTTCCCGCGCTTTAAAAATCCCAACTTTTTCTC
+ACCCCCCGCAATTTGCGGACGTGCTG
+>ds2020-267_859
+CAGCACGTCCGCAATCCCAGGTAGCTTGCTTACTTATTGCTTGCACTAAGGGCAAGCGGG
+CCTTGTCTAGGTTGGAGCTATGAAGCTTCCCTTATTATTATGAAAGGGTTGTTTACTTGC
+TTACTTGTTTTGTTAGAGTAAGGTAGCTTGCTTACTTAGTGCTTGCACTAAGGGGAAGGG
+GGGGGAGATACCTTGCGGACGTGCTT
+>ds2020-267_860
+GACGCACTGACCGTTCCGGAGTACCTAACAACGTATCTTCACAGACCAAGAACTACGAGA
+TCGCCCCTTTCATTCTGGGGTGACGGAGGGATCGTACCATTCGAGCCTTTTTTTTTCATG
+CTTTTCCCGGAGGTCTGGAGAAAGCTGCAATCAATAGGATTTTCCTAATCCTCCCTTCCC
+GGGGGGTGTTGTACGGTCAGTGCGTC
+>ds2020-267_861
+CAGCACGTCCGCAACCAAGATGCTATGTGCCCTTCCACTTTAAGGAGCTGTTTCCAGATG
+CGTGGTGTGCTTTGCAGTGAGAATTTGTTGGAATTTGAGGATTCTTCTGTTTCAGGGCTA
+TTGAAAACTCCATTGCCTTTTCGACACATCTCCTGTATGATATCATAATACCATGTGAGT
+ACGCGAGCACTGTTGCGGACGTGCTG
+>ds2020-267_862
+CAGCACGGCCGCAATCGAAGCCGGCTCCTTCGGTTGACGTGACCGGAGGCGCTAAGCCTC
+TGGTCATACAAGCGTATAGCTTCCTCAATGACACATCGATTTGTGTCGACAAGTACGGCA
+TGAGTCTTACCCATGCTGCAGAGGCGCTTGATGCGCTGAAACGAGACCCTGATGAGGGAA
+AAAGACTCGTGGATGCGGACGTGCTG
+>ds2020-267_863
+CAGCACGTCCGCAATGCCTACGCCCTCCACAGGTAACAGATTAAAATCGTTTTATCCCCG
+AATTTTTCACGACTTTCGTTACAAAAAATTTGACTGAAAACGGCATTAATTTTGTAACCC
+TAAAACAACTGTCTAAATATAGCCCATCGATTTTTGAGCAGTTGTTTGATGATGAAACCC
+AATAAACGGAGATTGCGGACGTGCTG
+>ds2020-267_864
+GGACGTTCGGGCTTAGGCTAACCGCTGGACTTCGGGCTTGAAGGTGTGACTGGACTTGGG
+CTTATTGGAGGCAACAAGCCCGAACGTCCTTACTTCCAGTCACGTCCGCAAACGGTTTGG
+GTTGGGACGTGCTGAGGGGCAGTATTTTGCGGAGGACATAATGCATATTGCGGACGTGCT
+GCCCTAAGCCTTTTGCGGACGTGCTG
+>ds2020-267_865
+GACGCACTGACCGTCTACAGCCTCCTTAACACGGTCAGTGCGTCAGTTAAGTCCGAACGG
+TCAGTGCGTCCCCGAGAAACACGGTCAGTGCGTAGCACGTCCGCAAAAGTGAAGTTGTGG
+ACGTGCTGAGGGATACACAGTTGCGGACGTGCTGAAGGCATAACAGTTGCGGACGTGCTG
+AGGCAATAATACTTGCGGACGTGCTG
+>ds2020-267_866
+GACGCACTGACCGTTTTCTACCCCATAGACAACGGTCAGTACGTCAGGCCTGAGATAACG
+GTCAGTGCGTCAGGGAATTACCTACGGTCAGTGCGTCAGGCATTATGCGACGGTCAGTGC
+GTCGCCTTAAGCGAGGAGCAGCACGTCCGCAAATAACGAGGGGTAGGTTGGGACGTGCTG
+AGACATGTGTCCTTGCGGACGTGCTG
+>ds2020-267_867
+CAGCACGTCCGCAACAGGGAACAGATTATTAAAAGTATTTAAAGCCAGTGAAGTAACACT
+CATTGCCTTTATGGGTGAAATAGCCGATTGTGTGGGTGATTATTCATCATTCCATAGCCT
+TATAACTGATGGGCTAGATGATGGCGAAATTCCTGTTACCAACTTACAGACCATTAACCA
+ACGCGCATTATTTTGCGGACGTGCTG
+>ds2020-267_868
+CAGCACGTCCGCAATGTCGTAATCGTCCCTTTCAGACCTTGCTGCAAACGCCACACTCGC
+AGCCGATATTGCTAACCCAAGCGAAGCGAGCTTTTATAATGTCAGCGAAGCGAGCTTTGC
+TAACGTCAGTGAAGAGAATTTGCTAAAAAACGCTGCTTAAACCAAGTTTCAGCCGATTGT
+CATTGGTAATCGTTGCGGACGTGCTG
+>ds2020-267_869
+CAGCACGTCCGCAAGTCTGCCCTCAGCACGTCGCAAGATAGGCGGGGTGGGTTGCTGCTA
+CCCGGTGTCCATTGCGGACGTGCTGCTCCTTAGATATCTAAGGAGCAGCACGTCCGCAAT
+ACCTGCCGTCTGTTGCGACGTGCTGAGGAAAGACGACTTGCGGACGTGCTGAGGTGTTTT
+GTTTGCGGACGTGTGCTCCTTAGATA
+>ds2020-267_870
+CAGCACGTCGCAACAGGTTCCGGATGTGCTGAGCCACTCCCAATTGCGGACGTGCTGCTC
+CTTAGATACGCACTGACCGTCTCTTGCCGACTCTCCCCTAGCTACTATCGTATAAAAGAT
+GAAAGGCATTAATCTTCAAAGGTTAGATGAAAGAATTGTGGTTGGCGATATGCCGTTAGA
+ATTACGTCCACTACGGTTAGTGCGTC
+>ds2020-267_871
+ATCTAAGGAGCAGCACGTCCGCAAATATTTTGTCCTCAGCACGTCCGCAAGTATCATCCC
+TTCAGCACGTCCGCAAGCCACCTCCTGTCAGCACGTCGCAAATCAACTGGCATGGCTTTG
+GGACGTGAGGAGCCGCCTATTGCGGACGTGCTGCTCATTAGATTAAGGACGTTCGGGCTT
+GGTTGCGGTTGAAAGCCCGAACGTCC
+>ds2020-267_872
+GGACGTTCGGGCTTGTGGGTCAAATTAAAGAAGCCAAAGAAGCCCAGGCCCGTGCCAACG
+CTGAAGCCTACAATGCGCAGGCAGCCTCAGAAGCCCGAACGTCCTTACTTCCAGACGTTA
+GGGTCATAGTTTTGCGGAGTGCTGAGGGAATTAGCTTGCGGACGTGCTGACGGATCTCGC
+ATTGCGGACGTGCTGCTCCTTAGATA
+>ds2020-267_873
+GAGTTTCGTTTTAGGTCGGGGAGTCCGCTGTCATTTATACTCGTACAGTGAGTTTTATCA
+TTGATTAACAGCTACACGTTAATGAAGAAGTTGGCTATACTATATTCTATTGATTGCCAA
+CATCCCACGGTCAGTGCGTCGCCTAAGCGTCCGCAAGTTGGCGCTGTTGCGGACGTGCTA
+GGGCTACCAGATTTGCGGACGTGCTG
+>ds2020-267_874
+CAGCACGTCCGCAATCTGGGAGGGTTGAGACCAAGCCAAGGGCAGGGGCCTAAAGTATCG
+AAAAGGCAAGGACTCCAAGAAGAAGCCAAGCCTGAGGCCAAGAAAAGCGAGTTCAAGATC
+AGGAGCCAAAGCGGGCCGAGAAGAAAGAAGGAAGGCTTCATCTGCTCCAAGCCCCTAAAG
+AGGCTCAGCGGGTAGCGGACGTGCTG
+>ds2020-267_875
+GGACGTTCGGGCTTAAATGTGGCGATGTGTTAAGCCCGAAGCCAGGGAAACAATAAAGCC
+CGAACGTCCAGGGGTTATTCCAAGCCCGAACGTCCTTACTTCCAGGGCACGTCCGCAATA
+TCCCCGACCTATTTGCGACGTGCTGAGGATTGAACGGTTGCGGACGTGCTGAGGTGGGCC
+CGATTGCGGACGTGCTGCTCCTTAGA
+>ds2020-267_876
+TATCTAAGGAGCAGCACGTCCGCAATACTCGCCTACTCAGCACGTCCGCAATGCCGTAGT
+TATCACACGTCCGCAAGCAAGAACGACATGTTGCGGACGTGTGATATCTAAGGAGCAGCA
+CGTCCGCAACAACAGGTCGGTTGTGCGGACGGCTGAGAGATTCATATTGCGGACGTGCTG
+AGCCAACACAGCTTGCGGACGTGCTG
+>ds2020-267_877
+GGACGTTCGGGCTTTGTTGAAACCCTGGACGTTCGGGCTTAATCATACCACTGGACGTTC
+GGCTTATCATATAGGTTACCAGAAGCCCGAACGTCCTTACTTCCAGACACGTCCGCAAGG
+TCGAATATATTGCCGTTGGTTTGCGGACGTGCTGAGGCAAACGTAATTGCGGACGTGCTG
+AGACGATAGGTATTGCGGACGTGCTG
+>ds2020-267_878
+TCTAAGGAGCAGCACGTCCGCAAATTCACAGGGCTCAGCACGTCCGCAACTTAATCCCTA
+TCAGCACGTCCCAATCTATCCCCCCTTACTTGCGGACGTGCTGCCGCTTAAGGCGACGCA
+CTGACCGTCCCCGAACCACTACGGTCAGTGCGTCAGGGGGAAAGATACGGTCAGTGCGTC
+AGGGGCAAAGCAACGGTCAGTGCGTC
+>ds2020-267_879
+GACGCACTGACCGTTTAGATTGCCCTGACGCACTGACCGTCTAATTATAGCTGACGCACT
+GACCGTAGATATGGACGTAAGGACGGTCAGTGCGTCGCCTTAAGCGTGGAGCAGCACGTC
+CGCAATCCCTAGCCCGTGATCATTGCGGACGTGTGCCCGGCCAAAGTTGCGGACGTGCTG
+AGGCATATTACTTTGCGGACGTGCTG
+>ds2020-267_880
+GACGCACTGACCGTACTCTTTATGCTGACGCACTGACCGTTTGTGTTTTCCTGACGCACT
+GACCGTAGTCCAGACATTACTAGACGGTCAGTGCGTCGCCTTAAGCGGATCTAAGAGCAG
+CACGTCCGCAAATGAGATCGATTGCGACGTGCTGAGTGGTTCGAACTTGCGGACGTGCTG
+AGTGGAATCGAATTGCGGACGTGCTG
+>ds2020-267_881
+GACGCACTGACCGTCATAGAGCAGTTAACGCACCCTCGTACGCCCCGTTCTACACGGTCA
+GTGCGTCAGTGGTTGTACAAGGTCAGTGCGTCGCCTTAAGCGTATCTAAGGAGCAGCACG
+TCCGCAAAAGAGGAGCGCTCAGCACGTCCGCAGTTGGTTCTCTCTCACACGTCCGCAAGC
+TAAATCCTCTGAGTTGCGACGTGCTG
+>ds2020-267_882
+GGACGTTCGGGCTTGCAAGGGCCCCTGGACGTTCGAGCTACCTCATGAAGCCCGAAGTCC
+AGGGTAGGTACTAAGCCCGAACGTCCAGGAGACAAGAAAGCCCGAACGTCCTTACTTCAA
+GCACGTCCGCAATGATACCGTCCCAGCACGTCCGCAATTTGTAATCCGTCAGCCGTCCCA
+ACTCTCATTTCGTTGCGGACGTGCTG
+>ds2020-267_883
+GGACGTTCGGGCTTTTGCAACCACCTGACAAGCCCGAAGTCCACGGAATGGCGTAAGCCC
+GAACGTCCAGGGATAGGACGAAGCCCGAACGTCCTTACTTCCAGACTAAGGAGCAGCACG
+TCCGCAACTGAACTCCCTCAGCACGTCCGCAAATGGCACCCCCCAGCACGTCCCAAATCC
+CCGGCTATTCCCTTGCGGACGTGCTG
+>ds2020-267_884
+CAGCACGTCCGCAACAAGTCATTTCTCTTGCGGACGTGCGAGAAACTGAACCTTGCGGAC
+GTGCTGCTCCTTAGATTATCTAAGGAGCAGCACGTCCGCAAACCTGTGTCCGTCAGCACG
+TCCGCAATTGAGTGGCCCCAGCACGTCCGCAAGGGGCAATCCATCAGCACGTCCCAATAC
+ACCCAGGATGCTTTGCGGACGTGCTG
+>ds2020-267_885
+CCGCAATAGAGTTGCACTCAGCACGTCCGCAATGCGATGTTACTCAGCACGTCCGCAATT
+GCTAACATCTTGCGGAGTGTGAGTGAGAGATCTTTGCGGACGACGCTTAAGGCGACGCAC
+TGACCGTCTACTTGGGGGTCTAGGTCAGTGCGTCAGGGTACTATCGACGGTCAGTACGTC
+AGCATCAGTATTACGGTCAGTGCGTC
+>ds2020-267_886
+CAGCACGTCCGCAATGCGCGGTCCCTCAGCACGTCCGCAATAAGGGTGGGGTCGTTGCGA
+CGTGCTGCTCCTTAGATAATCTAAGGAGCAGCACGTCCGCAAATCATCGGCTCTGTATTG
+GGACGTGCTGAGGTGTGTTGGTTGCGGACGTGCTGAGTGACGTAAAATTGCGGACGTGCT
+GCCTGATTCGATTTGCGGACGTGCTG
+>ds2020-267_887
+CAGCACGTCCGCAAACTCAAACCGGTATGATTGCGGACGTGTGAGGCGTACTGCTTTGGG
+ACGTGCTGGGGGTCTTCCTTTGCGGACGTGCTGCTCCTTAGATTCTGGAAGTAAGGACGT
+TCGGGCTTCCCTCATGCCCTGGACGTTCGGGCTTACACTCACCCGTGGCGTTCGGCTTCC
+AAGCAGTATACGAAGCCCGAACGTCC
+>ds2020-267_888
+GGACGTTCGGGCTTTCTTACCAACCTACAGAAGCCCAACGTCCAGGGGGGGAGTAAAGCC
+CGAACGTCCACCAATTCGTGGAAGCCCGAACGTCCTTACTTCCAGATAAGGAGCAGCACG
+TCCGCAATCACAGTACCCTCAGCACGTCCGCAACAACTGCCCCCTCAGCACGTCCCAACT
+ACCCTGCCTTTTTTGCGGACGTGCTG
+>ds2020-267_889
+CAGCACGTCCGCAATGACAAAGCCCTCAGCACGTCCGCAATCCTAGTCGCCTCAGCACGT
+CCGCAAAAATGCCGAGCTCGTTGCGGACTCGCTTAAGGCGACGCACTGACCGTTACCAGA
+GTCATAACGGTCAGGAGTGGCGCTTGGACGGTCAGTGCGTCCCCGAACGGTCAGTGCGTC
+AGGGGTATATCAACGGTCAGTGCGTC
+>ds2020-267_890
+CAGCACGTCCGCAATAAGACCCTATTGTTGCGGACGTGCTGAGCGAGGCGCCTTTGCGGA
+CGTGCTGCCCATAGCGTATTGCGGACGTGCTGCTCCTTAGACGCTTAAGGCGACGCACTG
+ACCGTTGGCGAGGGGTTATTACGGTCAGTGCATCAGCAAAACTGGAACGGTCAGTGCGTC
+AATTGGCCACTTACGGTCAGTGCGTC
+>ds2020-267_891
+GCAACTGCGTTACCCTCAGCACGTCCAATGGTACTCGACATCTGTTGCGGACGTGTATCT
+AAGGAGCAGCACGGCCGCAAGACTGATTCCCTCAGCACGTCGCAAAGCCGCTCAACTCAG
+CACGTCCGCAACTGCGTTACCCTCAGCACGTCCAATGGTACTCGACATCTGTTGCGGACG
+TG
+>ds2020-267_892
+TCAGCACGTCGCAATCTATCAGTGGTTCATTGCGGACGTGCTATCTAAGGAGCAGCACGT
+CGCAATCACTCCCCCCAGCACGTCCGCAACAGCATCTAGGTCAGCACGTCCGCAATCTGT
+AACCGGTCAGCACGTCGCAATCTATCAGTGGTTCATTGCGGACGTGCTATCTAAGGAGCA
+G
+>ds2020-267_893
+AGTGCGTCAGCGTACCCATCACGGTCAGTGCGTCAGCGGCTAAAACACGGTCAGTACGTC
+GCCTTAAGCGTATCTAAGGAGCAGCACGTCCGCACTGACCGTGTCAATCCTGGTCTGTAC
+GGTCAGTGCGTCAGCGTACCCATCACGGTCAGTGCGTCAGCGGCTAAAACACGGTCAGT
+>ds2020-267_894
+TCTTCCGATCTATCTAAGAGCAGCACGTCCGCAATTATATCCAGGTATATTGCGGAAGTG
+CTGAGGTTGTCCGCCTTGCGGACGTGCTGACGGATTTAGGCTTGCGGACGTGCTGAGGCG
+TTATATGTTGCGGACGTGCTGCTCCTTAGATAGATGGGGA
+>ds2020-267_895
+CGATCTATCTAAGGAGCAGCACGTCCGCAAAACGCCATGTGTGACATTATTCGCCAACCA
+ACCATTGTACTTTGGTGCGCTGCTCCACACGCATTTGTGGGCTTTCAGGATGCTGAGGGG
+TCGGAACTTGCGGACGTGCTGCTCCTTAGATAGATCG
+>ds2020-267_896
+TACCTTTGCCGTGTTCACAGGGTTTCTGTGTCCTTTGCCGTGTTCACAGGGTTTCTGTGT
+CCTTGCCGTGTTCACAGGGTTTCTGTGTCCTTTACCTTACCTTTGCCGTGTTCACAGGGT
+TTCTGTGTCCTTTGCCGTGTTCACAGGGTTTC
+>ds2020-267_897
+ATCGAAGGAGCAGCACGTCCGCAACTGCTCTGCCCTGTCCGCAAAGACCATACGCTGAAA
+CTTGCGGACGTGCTGAGTCGGTACATATTGCGGACGTGCTGAGTGGCTCCTTTTTGCGGA
+CGTGCTGCTCCTTAGATAGATCGGAAAGAG
+>ds2020-267_898
+CAGCACGTCCGCAATTTTAATCGCCTCAGCACGTCCGAATGATTCGTCCCTCAGCACGTC
+CGCAACATGAACCCGGTGAGTCTTGCGGACGGGCTGAGGGACGAATCATTCGGACGTGCT
+GAGGCGATTAAAATTGCGGACGTGCTG
+>ds2020-267_1259
+CAGCACGTCCGCAACAGTTGGTCCTTGCTAACAGTAATGGCGACTTGTGGACACGCATGG
+GCGCCTTGCATGGACAAAGTTCTGCAGTGGCCTGACATAACGAACACGTTTATGTCATCA
+CTACTACTTGCCATGGCTGCACTACCACCAGAGTTATATGTACTAATGGTGGAGTGGAAC
+GGCTGGGCAAAGTGTGGCTCTATGGCAGAGTACATCGTAGAGGCAAAAAACCTGACGACT
+AAGATGAAGGCACTGGACAACCAGGTAACATTGGGTGACTTCGAACTCGACTTATCGCCT
+TTATTCGAGTGGGAAGTGCTAAATCACAGAGCGGTCTTGAAAGGCATCTATGACAAGGAA
+GTCACAGAGCGTAGAGATCAGAAACAGAGCATCAAGCTATCTGCTGCCGATCTGGAGGAA
+GAAATAGACAGCGTGTTTCAGGACGTGGGTTCCGTTCTAGACGCCAGGACAAAAGAGGGT
+GAAAAATCACCTCTGTATGCAACGTGGGATGATTGGTACGTTGACAGGGTGCAAACCACA
+CCAGCTGGGTCTGCATTCACAGTCAACAAGGACATGATGGAGGCAAGAAACATGCTGAAA
+GCCAATGGGGTCCAAAATCTGACCAAGACGCAAGTGATGGCGCAGATGAGGGACAAGCTC
+CCGCTGGCGTCTATCTTGGGTAGCGAGCCAATGATATTGGCCCAGATGTCATGGAAGTTG
+GAATGGTCAAAACTGAGGGCACTATTTTTAACGCGTTTTTTGCTGCTAGCATGGAGCACT
+TTCGCCCTGGGGCAGATAGAAGAGTATCTACCCAGTGACTGCCCCATAGGTAAAGCTGCC
+GATGCGCACAACGTGTGCAGGCGCGTGATGGAAATGTCAACGCAAGGAGTGGTAGCATGC
+ATAGATGCAAAGAACTTCAACATCTTGCACACCCACGAGATAATGTCAGCAATACTGAAA
+TCCGCATCAAAGATGCTAGGAGATAGGCTGTCTAGTGAGCAACATGACTGCCTAAAGTGG
+CTGGCGAAAGCGGAGCTGAACCAGAAAGTGCTGGTCAAGACAGGTGAAGTAACTGAACAG
+TTGCTCCAGGTCGGCAGGAGAGACGGGTGGATTAACAAGCTAACTAAAGGTGACGGCACA
+GTGGTAGAAGCGGCTGACGTGACGGTTGGAATGTTTTCAGGTACTAGGTTCACGATGCTG
+TACAACACAGTGCTAAACAGGGCGTACTACAAAGTGGCGGAGAAACGTGCGAAGATAAAG
+ACTTTATCACTTCATTCGGGTGATGACGTGTATGCTGTTTTCGCTAACTATATAGACGTG
+TACAAGATGAAGCGTGAGATGGCGTTAATCGGCTACACACTGCAGTTAGGCAAGTGCTTC
+TTGCAGGGAGTCCGAGAATTCTTGAGAATATCTCATAAGAATGCAAACACTTCTCAATAC
+CTAGGATGCCATCGGCA

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input_otu_s2.fasta	Sun Sep 08 14:09:19 2024 +0000
@@ -0,0 +1,2288 @@
+>ds2020-328_1
+GGTCGGGATAGACGTTGGAGCGCGGTCAGCCGAGACCCCTGACAGAGGAAAGAGTCTTGA
+GGAGTCCAACGTTCGGCCAGGCATAATAATTCGTGCCCACTAATCGAATCGGTTTACTCG
+CCCACCATGTCAGCGCCTTCGGGTTAGTTCTTTATGGAGTTATTTCTTGTTCTTTCTGTC
+ATAACAATTCTCCTTATGGAAGTCCCCCACAAGATTAAGAATGCTTGTTGCCGCGGCTGT
+CTTGGTTCTTCGTTTAGCTTTCTGGCATATTCTACGGAGCTTTCCACTCTGGAGCTGGCT
+TTCAGAAAAACCTTCATTCACTAGATGTGAAGCACCCCTATGGGGGAACCCTCTTACCCG
+CTTTCCTCCCCCCCCGATATGGGGGGCCTCGCTGTCGCCTTTGGCTCGAGCTACTTTTTC
+TCCTGGAACGGATAGCTTTCTGTCCAAGTCTATCTCCCAAAAGTCAGCCATGTAATTGAC
+TTCTAACGTCTAATTTTCTTTTTCACCGGGGGTCCCTGATCCCCGTTGAATATTCCTTCC
+TTCTGAAAAAGCTGTGACTCCTAAATTCTTTGATTGAATGAAATGTGGACTTGGTCACGG
+GGCAATCTTCTTTTTTAGACCCCGCTTCTCTCGGTGTTACCTTTTTCGCCTTCTCGTCTC
+GCTTCGCGTCGTCNNNNNNNNNNGGTCGGGATAGACGCGCCGCTTCCGTCTGTTTTACCT
+TGTTAGAATTCTCGGCGCGCTTGGCGTCGTCTTTAGAGTCAATTCTATTGGAATCTCCTT
+TCCCCTTCTTTTCTTCCCCCACGATGAAAAAAATAAATATTGCAAAAAGAACAATATTTC
+CCCCCGTGGTCATCATAGTGGTTCCTTCTGATCCTAGAAAACGATTAAAAAGAAGGCAAA
+AAAAACAAAGGAGGATCTGCTTTTTCATATTAAAGCGCTTTCTTTCTTTTAAAAATACAT
+CATAGTAAAGCGCTTCCTTTTAAAAAAGCATCTGGTTCCATCTTTCTTTCGTTAGTTAAC
+CCACCTTTTTCTAAAAGGGATTGTAGTAATTCTGGTTTTACACTATTTAGAATGGCTCTC
+TCATATTGAGAGATTCTGTCTAGTGGCATTCGATCACAGAATCCATTGACAGCTGCATAA
+ATGACTAGAATTTGTTTTTCAATTGGAAGTGGTGCATATTGTGGTTGTTTCAGTACTTCT
+GTAAGCCTTGCACCTCTATTGAGTAATGCCTGAGTCGCAGCATCAAGGTCTGACCCAAAT
+TGAGCAAAGGCCGCCACTTCGCGATACTGTGCCAATTCCAGTTTTAAACTACCGCAGACC
+TGTTTCATAATTTTCAACTGAGCGGCAGACCCGACGCGACTGACAGATAAGCCGACGTTA
+ATAGCAGGTCTAATTCCGCGATAAAAGAGCTCTGTTTCCAAACAGATTTGTCCATCAGTA
+ATGGAGATTACATTGGTTGGAATATAGGCCGATACGTCTCCAGCTTGTGTTTCAATGACG
+GGTAAGGCGGTCAAGCTACCTGCACCTGTCTGGTCCGATCGTTTAGCGGCTCTTTCTAAG
+AGACGGGAATGTAAATAGAAAACATCGCCTGGGAAAGCCTCACGGCCTGGTGGTCGGCGT
+AACAATAATGACATTTGTCGATATGCCACCGCCTGTTTACTAAGATCATCATAGATTATT
+AATGCGTGCATTCCATTATCGCGGAAATATTCCCCCATGGCACACCCAGAATATGGGGCC
+AGAAATTGCAGAGGAGCTGGATCCGAAGCGGTGGCTGCTACAAGAATGGAATATTCCAAA
+GCATTCGCTTCTGAAAGAATTTGAACTAATTGTGCCACAGTCGAGCGTTTCTGTCCAATT
+GCTACATAGACACAATACAATGTCTCACTCTCAGAGGTGGCCCTTGAGTTCAGTTGCTTT
+TGGTTTAATATGGTATCGATAGCAATAGCTGTTTTTCCAGTTTGTCGGTCCCCGATTATA
+AGTTCTCGTTGACCACGGCCTATAGGAACCAGGCTATCTACCGCTTTTAACCCTGTTTGC
+ATAGGCTCGTGCACAGATTTACGTTCAATAATCCCAGGGGCTTTCACTTCGACACGTCTT
+CGCTCGTGATCGCTTAGAGCCCCTCTTCCATCAATAGGAACTCCCAACCCGTCGACCACG
+CGCCCTAGCATAGCCTTTCCCGCAGGAACATCCACAATGGATCCAGTGCGCTTGACAAGA
+TCTCCTTCTTTAATAGCGGTATCACTACCAAAGACAACAATCCCTACATTCTCATTCTCA
+AGATTCAACGCTATTCCTTTCACACCGCTGGCAAATTCAACCATTTCCCCAGCTTGAATC
+TCGTTCAATCCATAAACACGTGCAATCCCATCTCCAACTGAGACCACTCGACCGATCTCA
+TCCACTTGAAAATTCGTGTAAAAGTTGGTAATTCTACTTTCTAATAGAGTTGTTAGTTCC
+GCAGCTCTGGTAGAGAATTCCATAATTTTTTCTTTTAAAGAAAGTCAAGGGAGAATTCCG
+CTTATTGTTTTTGGCTCGAAATAAAGCTAGGGTCCTGATCGAGCAACTAGTAGTCCTATC
+TATCCACCTCTCCAGAAGGGCTATTTGGGGTCTAATTTTCTTTCTATCTGACAGGACAAA
+CAAAGAGGAAGGGGTGGTTCTTTCATTGCATTGATAGAAGTCTAACTAGAAAAAGATCTC
+TCTATTACTTTGAGAAGAGAATCGTTGGTTTGACCGACGAACTACGTGGGAAATATGAGT
+TGAGAGGACAAGAGGATTCGATCTCCACGAAAGGCTAAAGGAACATAAAAAAAGCTAGAA
+TTTGTTGCAAACAGTGACCGAGATGCCAGGGAAAAACTGTTGTTTCACATTTCCGGAAAG
+ACCACCTATTTGTTCGTTTACCAGGTTCGGTACGAAATCATAAATAAGCTCTACCCCGGG
+CCATCGCCTTATGGCCTAGGGGCGTCTATCCCGCC
+>ds2020-328_2
+CCCCCCCTTTCGCCCTTTTTTATGCAGACGATTCCCCGATCGGGGAATCGTCTGCTTCCC
+TACGTATTAATCTTCTTCTTTTCTCCTTTTTCGCGTTTTCCTCTTATTCCTCTTTCGTTT
+TCCTCTTATTCTTTTTATACGCAATTTCTTTTTTAATTTCTTACTGGTCTAAGTCCCACT
+CCTCTTTCTCCCCGTTTTGCGTTAAGAATATTTCACATGGCATCGGTTTATAGCCTTTTT
+CCCTTGTCATCTCCTCTACAATCTTTTCTATTTTTTCATATTTCTTCTTATAAAATTCTT
+CCTCTTCTCTTCTCTTGCTTACTTGTATGGTTGCCGGAAATACTCTTGTTTCGCCTATTT
+GTATTTGTAGAGGCCATGTAGCATAGTCGTTTCCTTGTTGAGCCCCCTTACTTCTTTTAA
+CTTCCATGTAGCTTCTTGCTGTCCAATCCCTTTTATCGTAGAATATCCTTTTAATTTTCT
+TTGTTTCTGAGTTTTCGTCTTGCTCTCTCTCTCCTTCATTTTCCTCGTCGCTTCCCTCCT
+GGTTTTCCTCCTCATATTCTTCCTTACTCTTAAATAGCTGCAAGAATCTCCTTCTTTTTT
+TCTCCTCTTTTTCTTCTTTCTTTTTTACGGGTATACACGCAAAATCTAACAGTGCCATTT
+CCTTCTCTTGTTCGCCCCATGTGTAGCATTCCTCACCATCGATTGTTTGTAATTCAAACA
+TCAAATAACTTCCTCCCGCTGTGGTTTTAATCTTTTTTATTTTTACTTCATATATTTTTC
+CTTTTTTTGTTATAAAGATAACTTCTTTCTTTAGAATGTATTCTGCGGCCTCTGGGTTCA
+ACTCCCTTTGATACGGTATGTTTATATTTTTTATGTACTGCTTCCATTTTTTTTGACTGT
+TTTTCATCTCCTTAGGATCGTCCTCAATAGGAATAAAGGTTCCCACGGTTTTGTTGTATG
+TTAAGATGACTTCCGTTGGTGTGCTTCTTTCCTTAAAATAGGGGCTCTTACACGCTCTTC
+TCATTATACACCCATATAAGGTTGCTACTATTCTTTCTTCCTCCAAATGCTCTATGTTTG
+ATGAGAACCTAACCCTATAGAACCTTGCTCTAAAGGGTCCATGTTGTCTCATTATTTGAG
+GTAGTTTGTTGGCAATCATAACAATTGGTACATTTCTTTTCTTTTTGAATACTCTTGCAT
+ATTTGGAGTCTAATCTACATTCTTGTCCATCAAGTACCTTGAGAATAGTGTTTGCAAATG
+CCGTTCCTTCTGCTGTGGCGCCTATAAGGGAGCTCTCGTCGTTTGGTTCATGAAACTCAT
+CGAATGCCCATAGATCATAGTAATCATTTGCTCCCGTAAAGTCATTTCTTCTTGCACTGG
+CAAAATAAATTCTTAATACTTTTGCTAGTAAGTGGAATAGTAATGTTTTTTGTGTGCTTG
+GTTCGCCATATATGAATAGTTGCTTTGTTTTTATGGGTCTCTTGAAGCATATTTGACACG
+CTATCCAATCTATAACGAGGTACTTTTCTCTTAGCTCTTCCACGTCATACTCCCTTGGTT
+CCCCTCTTTTTATTAGATAGGATACAATTCTTTCTAGGGTGTTTGTCTCTATATCTTTTA
+GTATCTTTAAATCTTCATAAGCTTCCTTCATTCTTGGTAGATGCATTAAAACTTTCTTTT
+GTAATATATCATCTCTATATACTTGGTACCAATCCTCCGTCTTCTCTAGTCTTTTGAGTA
+TTTCTGATGGGTCTGGATTCCCCTGTGCTTCCTTATGTTGTTCATGTGCCTTTGCTAACC
+CTCTTGTTTGCTCTAAAGAGTATTCTCCCCATATTAATGGTTCTTTATCTTCCTTTAAAA
+TATATTTGCAAATAGTTCCCCATCCCTTATGTGCCTTTACATCTATACATCTTCCATCCC
+ACTCTTTGAATCCATTTCTAATTCCTTTTGCTAAATTGTTCTTTGATGCACTCTCATTCC
+ATACTCCAATGTGGTAATGAAATCCTTTCTCTCCGTGATTTTCCTTTGCTATTATGACTG
+ATCTGCATTGAAACATCTTGATGATTCTCTCCTTTATTACTCCCCTATCTATTTTTTTCC
+GTTCTGTCGTTTCCGCATGAATAAGTGTTATTAGTAAGTAGGGTCTTATAGTGTTTAGTT
+TCATGTTCATTGTGTTGTTTCTTTTCCGTGATTTCCTTTTCTTCTTTTGTTTGCGCTAGG
+TTATGGAGTTGCTGCTGTGAGTGGATGTAACTTCTAGTGGATGTAACTTCTAGTGGATGT
+AACTTCTAGGTGGGAGTGGATGTAACTAATAGGGGGGTCCGGGGGAAGTGGGTCCCCCCC
+GGGCAAGAGACAAGATAGGTAACTCCAACATCCTCGTATGAAGAGTAAACAGAAGGGAAG
+TGAGGCTCCCTTATACAGGAGCCGAACGTTACTTCAATACCTATAAAGTTAAGGTAGTGC
+TCTTTTTGTTAAATACAAGCAGCCGACAACCCCGCCTAGCTCTAGTAATAGGGGTTGTCG
+GCGTATCGTCTGATTCTTCGGCGAATCGTCTGCTTTTTTTCTTTTTCCACTCGTGAAGCC
+CCCCCTTTCGCCCTTTTTTATGCAGACGATTCCCCGATCGGGGAATCGTCTG
+>ds2020-328_3
+TTCCCTACGTATTAATCTTCTTCTTTTCTCCTTTTTCGCGTTTTCCTCTTATTCCTCTTT
+CGTTTTCCTCTTATTCTTTTTATACGCAATTTCTTTTTTAATTTCTTACTGGTCTAAGTC
+CCACTCCTCTTTCTCCCCGTTTTGCGTTAAGAATATTTCACATGGCATCGGTTTATAGCC
+TTTTTCCCTTGTCATCTCCTCTACAATCTTTTCTATTTTTTCATATTTCTTCTTATAAAA
+TTCTTCCTCTTCTCTTCTCTTGCTTACTTGTATGGTTGCCGGAAATACTCTTGTTTCGCC
+TATTTGTATTTGTAGAGGCCATGTAGCATAGTCGTTTCCTTGTTGAGCCCCCTTACTTCT
+TTTAACTTCCATGTAGCTTCTTGCTGTCCAATCCCTTTTATCGTAGAATATCCTTTTAAT
+TTTCTTTGTTTCTGAGTTTTCGTCTTGCTCTCTCTCTCCTTCATTTTCCTCGTCGCTTCC
+CTCCTGGTTTTCCTCCTCATATTCTTCCTTACTCTTAAATAGCTGCAAGAATCTCCTTCT
+TTTTTTCTCCTCTTTTTCTTCTTTCTTTTTTACGGGTATACACGCAAAATCTAACAGTGC
+CATTTCCTTCTCTTGTTCGCCCCATGTGTAGCATTCCTCACCATCGATTGTTTGTAATTC
+AAACATCAAATAACTTCCTCCCGCTGTGGTTTTAATCTTTTTTATTTTTACTTCATATAT
+TTTTCCTTTTTTTGTTATAAAGATAACTTCTTTCTTTAGAATGTATTCTGCGGCCTCTGG
+GTTCAACTCCCTTTGATACGGTATGTTTATATTTTTTATGTACTGCTTCCATTTTTTTTG
+ACTGTTTTTCATCTCCTTAGGATCGTCCTCAATAGGAATAAAGGTTCCCACGGTTTTGTT
+GTATGTTAAGATGACTTCCGTTGGTGTGCTTCTTTCCTTAAAATAGGGGCTCTTACACGC
+TCTTCTCATTATACACCCATATAAGGTTGCTACTATTCTTTCTTCCTCCAAATGCTCTAT
+GTTTGATGAGAACCTAACCCTATAGAACCTTGCTCTAAAGGGTCCATGTTGTCTCATTAT
+TTGAGGTAGTTTGTTGGCAATCATAACAATTGGTACATTTCTTTTCTTTTTGAATACTCT
+TGCATATTTGGAGTCTAATCTACATTCTTGTCCATCAAGTACCTTGAGAATAGTGTTTGC
+AAATGCCGTTCCTTCTGCTGTGGCGCCTATAAGGGAGCTCTCGTCGTTTGGTTCATGAAA
+CTCATCGAATGCCCATAGATCATAGTAATCATTTGCTCCCGTAAAGTCATTTCTTCTTGC
+ACTGGCAAAATAAATTCTTAATACTTTTGCTAGTAAGTGGAATAGTAATGTTTTTTGTGT
+GCTTGGTTCGCCATATATGAATAGTTGCTTTGTTTTTATGGGTCTCTTGAAGCATATTTG
+ACACGCTATCCAATCTATAACGAGGTACTTTTCTCTTAGCTCTTCCACGTCATACTCCCT
+TGGTTCCCCTCTTTTTATTAGATAGGATACAATTCTTTCTAGGGTGTTTGTCTCTATATC
+TTTTAGTATCTTTAAATCTTCATAAGCTTCCTTCATTCTTGGTAGATGCATTAAAACTTT
+CTTTTGTAATATATCATCTCTATATACTTGGTACCAATCCTCCGTCTTCTCTAGTCTTTT
+GAGTATTTCTGATGGGTCTGGATTCCCCTGTGCTTCCTTATGTTGTTCATGTGCCTTTGC
+TAACCCTCTTGTTTGCTCTAAAGAGTATTCTCCCCATATTAATGGTTCTTTATCTTCCTT
+TAAAATATATTTGCAAATAGTTCCCCATCCCTTATGTGCCTTTACATCTATACATCTTCC
+ATCCCACTCTTTGAATCCATTTCTAATTCCTTTTGCTAAATTGTTCTTTGATGCACTCTC
+ATTCCATACTCCAATGTGGTAATGAAATCCTTTCTCTCCGTGATTTTCCTTTGCTATTAT
+GACTGATCTGCATTGAAACATCTTGATGATTCTCTCCTTTATTACTCCCCTATCTATTTT
+TTTCCGTTCTGTCGTTTCCGCATGAATAAGTGTTATTAGTAAGTAGGGTCTTATAGTGTT
+TAGTTTCATGTTCATTGTGTTGTTTCTTTTCCGTGATTTCCTTTTCTTCTTTTGTTTGCG
+CTAGGTTATGGAGTTGCTGCTGTGAGTGGATGTAACTTCTAGTGGATGTAACTTCTAGTG
+GATGTAACTTCTAGGTGGGAGTGGATGTAACTAATAGGGGGGTCCGGGGGAAGTGGGTCC
+CCCCCGGGCAAGAGACAAGATAGGTAACTCCAACATCCTCGTATGAAGAGTAAACAGAAG
+GGAAGTGAGGCTCCCTTATACAGGAGCCGAACGTTACTTCAATACCTATAAAGTTAAGGT
+AGTGCTCTTTTTGTTAAATACAAGCAGCCGACAACCCCGCCTAGCTCTAGTAATAGGGGT
+TGTCGGCGTATCGTCTGATTCTTCGGCGAATCGTCTGCTTTTTTTCTTTTTCCACTCGTG
+AAGCCCCCCCTTTCGCCCTTTTTTATGCAGACGATTCCCCGATCGGGGAATCGTCTGCAT
+AAAAAAGGG
+>ds2020-328_11
+GGTCGGGATAGACGTTGTGGTCTGATTGTTTTTGTCTGGGTTGGGAAGCTCCCCCTTGTT
+AAAAGAGTCCTCTATCTGCACACTAACCTGGGAGACTTTCACCCTGTTTTTCTGCTTCTA
+AGCCGCTTTGAATTGGCCTGTGCCCGTTGATGAATCATCAATCCATTCAGCCGTCACGTC
+AGCCGAGAAGACGGACTTGCTGGTATCGTCAAATAGAGTATAGAAGGCTTCTTCCGCTCT
+AGTGGCGGGTTTATCTTTTCATTAAGTAGCCCCTCACCTCGTACACTGAGTCAAGCGACT
+TCTCCTTTTCTGTCATGAAGAGGAAGTGAGATGATGACAATGCGGCTGGGAAAAATCCAT
+ATCAATCCATTTCTTCTATATATAAGAGAATTGGATCCCGACCCAGACCTAATAAATTTA
+ATTATATGCTGATTTCATTCCACTAGTACCCGTAGCTTCTTTTGTTGGGTTGGTTGGAGT
+GCTTTAATCAAACACTTGACCGAGTAGATCATGTTGGGATCTTCACCATGAATGATCCTC
+CGGGCGAACATCTCATGGCACACCATTGATCAATAAGACAGGATAAATAGAATATACGGG
+GATAACCCCCATTCCTATCAGCGTGAAATGAAATTCATTCAATCAGTCCTCTCCTCCGCT
+CTCTCTGTCCCTGGCTTCTACTTTAACATACATACCTTCTGGCCTCAGTCGTTGACTTTG
+ACCCTTCCGCTCCTCCATTTAACAAGCAATTTCATTTAGTGGTTGTTCGCTCCTGAACGA
+AGCTATTGGGACAGCGGCTTTGATAGCGCTTTCTCAATGAGATAAATCATATCGTGGTAG
+AGCTCCTATCTGTGCTTTGACAAATCCCTCTCTGGCGTCATCTACTGGCTGACTGCACAC
+TGCCTTCTGCCTGACTATGGCTTTTATTAGAAAGCAAGATCCCTCCGTTTATCACTCTAT
+AGAAAGAACATCCCATACAGAGTCTTTCAACTAAGCTATTCGAGCCTTCACCTAAGCTCT
+CATCGATAGACCCCCTTTCTTTTTGGTTGTAGTCAGACACCTAACCGTTCAACCTCGTAG
+GCATCTTTCTATTAACCAAATCTGATACCGTCAGGTACGGAATGAAATAAAAGGACTTCT
+TCGGCCCCTGCGCCTAGTGGTGCTTTCGGCTTGAAAAACCACGTGAGTGCTCTTATTGGA
+CCAGAGCTTTGGCTACTCCCTGTTGTCTTTGAAAGAAATTTACTGAAACCTGATGCGCAG
+AACCCTTCGTACAAAAATGAAAGATCAATCTCAGGCCCAATTGACTCATCTTAGAAAGGA
+TTTGATGAGCCAGTAAGCTGAGCTATCAATGCCCAACTATCGTCTATCCCGACC
+>ds2020-328_12
+ACCGGCGTCATTTCCATCACTTGATCCGGTTTCTTAGGAAAAGCCATAGTTATGCTGCCG
+AAGTCAGCCATCGTTTGCGGAGATCCTCCTGGGTGTACCAACGCTGAGCTTACGCTTTCT
+CTCCCCACTTCGGTAGCTCGCTGCATCGCCATCTCCCTGTTGGCCATAACAGTCCTTATG
+CTGCTTCCTGACTTCTCCTGAGACATTTCTTCGCCTTCGTCTTCTTCATCGCTTGCATCT
+TCTACCAACACTCGTTCCATTTCTCTTGGCTCCGTATGCTTCTTATCTCCATCTTCAACT
+TTCGTCTTCTGGGCTTCGTTCTCCTGCTTTTCTTCCACTTGCTTCCCTTCTCTAGACTTG
+TCGCGCTTCTCGCCCTCTTCTTCAAGGCTCGGGTTTTCTTCTGCTGCGTCTCGATTCCTT
+TCCCCTGCTGTTTTCCTGTCTACATCGCTTTCGCGGCTTTCATCTCTTACGTCATCTTTA
+TCCTTCACCACTTCAGCATATGTGGGTTTGCTTGATTCGACACTTCTATTCGTTCCAGAA
+TCCCTCGACTGCTCTTTGGGCTCTCCGTCGTTTCCTTCGCATGTCGGCTCATTCTCTTCC
+GCGCCCATCTCACTCACCGCTTCATTTTCCACTAATCTAAGCGATGCTTTCTCACGCCTT
+CCTTTAGCCTCTGGCATGCGAGGGTGCTCCTCGGCGTTTTTGAATTTTCTAAACTTATTC
+AACACTCTTTTCCCAGCCAGCTTGGCTCTATCTGCGACCTTCTGGCATTTAATTTCAAAA
+TCAGCAGTCATTTTCTCATCGGCCTTTACTTTATCTCCTACAGAAGATAGCTCCTCGACC
+ATCGCTTCTGCGGTTTTGAAAGAAATATCTCCGACGTTAGCGCTCTCCAGAAGCTTCGTC
+ATGCAATTCATTGACATCTTCGTTACAAATGCGCTATCTTCATCTTCTGTACTCCATAAA
+TTAGATGAATTACGGCGGTCGGGATAGACGAAAGCGGGCCATCGCATTAGTGTCCGTTAT
+ATTCGCTAAACCTGCTTCAGTTATGAACTTACCTATGTGCGCTTCACACACATCATCTAC
+TAGAGCCATCCTCTCCGTCAAATCTCTGAGTGACGTCATCCCGAGGAGCATGATTAAAGC
+TTCCTCTTCCGGCACTCCAAAAGCCGCCGCCATCACCATCGTCTTGACGTCTTCTTCTTC
+CCATACTATATCTCTGGTTAGATTATACATCAGCCAACCCGAAGGGAAGATCCGCCTCGA
+TCTGAACCTACCTCCTCTCATCCCGTTCAAAGCCGACATCAGAGGCATGAACGCGTAAGT
+AACGTCCATCGGCTCCCCTTCCGTTTTCAGCATCTCGTGACGTCTATCCCGACC
+>ds2020-328_13
+GGTCGGGATAGACGACACTTTGCCATGGTTGTTGTGAAAGAAGAAACTCTTGGAGGAAAT
+GCCTTCTTAGCAATTGAATCAACTCCTGGTGATGAAGAAGAAGAAGGAGCTGTGAGGAAG
+GGAATGATTGCACTAGTCCCACACCCACGGACAGAAGGAATAGAATACGCTCTTTGAAGG
+ACGTTAATCAATAGGAGAAGATAGCCACGCACAGAAGTAGCNNNNNNNNNNATCGTAAAC
+GCTCTTCTTCCAATAGGAGTGATTCTTTGCCTTGACGCTGTGAGAGCTTCCGGTCCTTGA
+GTATGAGTACTCCTATCCGCTCTTGGGTTCATAACCGGTCCTATTGAATACGGTCTTCTC
+GGCTTTCCCTTTCCTCCTTGGCTTTGACTCTTTCGATCTCTGGTCTGCCTGTCTGTAACC
+AATGCCTGGATGACTGTCTTGGCTTTCTGTCTCGACTCTCTTCCTTCCTGGTGAAGACTG
+TGGTAGTGGTATCGGTTCTTTGCTTGGTTGATTGAATATCTCTTTCCTTGCCTACCTTAG
+TCTTAATCCGCCTTTAGGGAGTGAAGTGAACCGGGGGTGATCTAATAAGTTGTGAAAGAA
+TCGGTTTAGAACGTATCCGCTGTTTTAGCCATATCCGCTGCGCTCGTCCTTTCTTCCTAG
+ATGCTTTGAATATCCCCGCCATATTCAACAATTTTGCTTTCCAACCGGAGAGTCTTCCTT
+GCACTTTCTCTAAAAAATCTGCATAAGTTCTCCGAGAAACCCTTTCATGAATTAGTGGCA
+CGCCAAGATACTTCCCCGAGTTCTTTGTGACAGGCATCCCTACAATTCACTTTATTTAAC
+ACATCTCGAGAGGTATTCGGAGACACAAATACCTGGGAGTCTTTGGGCATCTCACAGTAA
+TGCAACGATCAAATCTTAATAAGATGTTGACCCGTTTTTCTTTTCTTTGCTGATTCCTCT
+CAATGAAATTTGCCATGTTGCACTAAGTTACTTACGGATGTATGCATGCAATCCGGGAAC
+ACTTTGGGGTGAACACCCATCCGAACAAGTAGGGTCAATAGTTCAGCATTTAGGCCGTAA
+CATTTAGCAAAAAAAATCTTTAACCCAACAAGTGCTCTCCGAACCAAGCTAGATAGTCTC
+CTATCACTAGGCTCACCAACCAACCTGGACTTTGATTTTTATTATTCCTACCGGATACCA
+AAACCATAAGGATTGTTTCCAGCCATGAGTTCCCATATGACATGACATAAGCGCTCTTGG
+GTGGGCTGGGCCATTCCATCAAATCTTTGAGAAGGGGCCCTTGCGTCTATCCCGACC
+>ds2020-328_14
+AACCGAATTACGGCGGTCGGGATAGACGGCGCCCCACCATCTGTTCTCAACGTTTGTAAG
+AGCAACCACTTAAGTGACTCCCTCTTTAAAGCCTAGTCCGTCAGCGACTTACTCCCTCAA
+TAGAGCCTAGTCCGTCAGCGACTTACTCCCTTCGAAGACTGCACCATTTCGGTCTTGAGC
+TCCCACCAGTTTTCTCCCCGAACAAGGTCCCGCACCTTTTGTCCAACATCGTCACCAACT
+CCCTTGCGCATATGCGCTTTTGCCACACCTCATGGCATTTGTGGGTCTCCCCCACTTATC
+TCGTCGACGCACCCTCACGTCAACGTGCCTCTGAAGCTGAGCTCTCTAACACTTTCGGCC
+TTCACAATTCACCAAGGTTCAATGCCATCCCTACTACGAGTAGAACATACTTCCGTAGCA
+TCCCCAAGGGAACAAGCACGACATCCTCCCCCAAGTTACTTCCTCTTTGGCCTTCCACCA
+AGTGCGGACTTAACACGTCCTCAGCCCCCATCTCACACAAAAGACTCCGGGATCAACCTT
+TGGAACACTCCCGCATTCCGCATTTTAGCTAGCAACCTTGTGTCAAACATTGTACTCCAC
+CCACACATTCTCCACAATTGCAAGAGCAACCACTTGAGTGACTCCTTCATTGAAGCCTAG
+TCCGTCAGCAACTTACTCCCTCAATGGAGCCAAGTTCGTCGGCGACTTACTCCCTGTCGA
+AGACTGCACTAATTCGGTCTTCAGCCCCCACAACTCTTCCCTGAACAAGGGTCTTGCACC
+ATCTGCTCAACTTGTTGCCAACAGAGTTTTTCTCAACCTTCACGGCATGCCACGGTTCGA
+GTGCTAGTTCATCTTCAACACTCTCACCAAACTCGCGCTCCCATTCTCCCCACATCCTGA
+ACTAAACAAGCAACATCACTTCGTCGCAAGTCAGAACCCCTGCCTACCCGACTTCCGGGC
+GCTTGGTGCACGGACTAGAAAACTAGGCAACCGAGCAGCACAACCAGCCATCATCCCACA
+TCTTAGAGTCATCCTGCTTGATGTCTTCACAAAACTTCAAGGCAAACTTTTGGCTACCTT
+CACCCTTCCATAGGATCCAGCACCAAGACGGGTTTCCATCAACCGTCACAACCTGATTCC
+AACTATCATCCACAGTGACGTTGGGTTCTTCAACCAACTTTGCAAATCCATTACCCAACA
+CCGTCAACCTGACCGTCTATCCCGACC
+>ds2020-328_15
+GGTCGGGATAGACGAAACTTCGGGCTGGTAAGGTCGGGACCGTGGTCGTCCGTCTCCGGT
+TTGCCGGCCGATAAGATCTCTGAGATTGACCAGCCAGCTGGGTTGGTTTGGCTATTCCTT
+TCTATTGAAAAGGAGTCAGCTGTCTGCGCGAGTCACCTTCTTCTAGGCTCCGCTGGACGA
+CACGGCATTCTCGTTTAAATATAGGCCGGCCGTACTTGTGATGGTTCCCAAGGATCCAAT
+ATGACCACTTAGGTCTACGTTGCCACGATATTGTTCTATGGAAGCGGGCGGGCTGTTAGT
+TAGAAGTTCGGCCCGGTTTTTTTGGTGTCGTAGGGAAGGGATTGACCTTTCTAACGCATA
+TTCAGTCGTACCGGCATGGCCCCACTGATTTGTTTTCGATCGGAGCATCAAGCAACGCAA
+CCCGGTTCTACTTGACTAAGCCCCGTGCTCGTCCAAGGAGGGAGTTTGCTTTACCCAACT
+CCCTTTTTGATAACAAGGCAGAAACCCCCGACCCGACATTCATTAGTTTCAAATGAAGAA
+TGAAGAGTACCCTGCCCCAGAAAGCACCAAATTACGTCTATCCCGACCNNNNNNNNNNGG
+TCGGGATAGACGAATGCGCCTACTCCTATAAAAAAAAAGCGTGACTTTACTAAACAAGCA
+AGAAAAGCCCTTTCTATGTTATTAGTAAAGCGCTAACGAGCAAGAAAACGGATGCGCGTT
+AGCGCAACGGCTTTCGCGCAGCTCAATCCCTTGCTTTGTTCTATAGTTAGGGGCCTTTTC
+AATAAGGCTCGCGTAGGGGCGCTCACGTTTTTTGGCTTCCCTAAAATCTAATTTTAAGTT
+GGTAAAGACCCACCCCTTGTTTCAGTCAGAATGAGTCCCCGGGACCCCGGGACATTGGCT
+TCCGCCAACAGTGGACTATTAAGGATCGCATCCCGCGCATATTCTACATTATAGCCTGCA
+ACTGATTCAGCTTCCGCTTCTGGGAGATCAAACGGAGCTCGATTAGTTTCTGCTAGACGA
+GAAATGAAGAACATAACCAATACAGGGAACAGGGGAATACCGGACCATATCTGCTTTTGC
+GCCATGACAATCTCACTCCAAATGCCCGTCTATCCCGACC
+>ds2020-328_16
+CTACCCGGTTATTTTACCAGACATAGCGGGTTAGTATCCGTAAGCTATAACTCCCGCCCG
+TTGCCAGAGGCCGTTTAGTCCGGTAGACCTTTTAAAGTTGTTTTCTCTGTGTTTTTGTTT
+TTTTTAAAAAATAAACCTCACATACAGCAACTGGTTGCCAGCCGATGTCACTCGGCCGAC
+TACATCCCGTCCCTGTCCAAGGTTTTTAATACTGTGTTTTTGAAATTTGTAGTTTTAAAG
+ACGTTGTTAGGAAGTTGAGGGCTAAGCGCTACTACCTTCCACACTACGTCACGTCCCCCG
+ACTTGCTCTTAACAAGTCAAGCCGACGGACAGTAATCCGTCAACCGTTTAGTGATTCCAA
+TCTACCTTGTCGGGAGGTCTCTTTCCACACAAGTGCTACTGCCATCATTTTCACACGTAA
+TAGTTGTATCACTAGGGGATATCCATATGGTAAGCGTACCGTCAGTCGAGGTATAGATTG
+TTTCTCCTTCGCAGTCAGGCGTGTATGTGAAGGCCTTGTTACAGAACGTTGAAAACGTGT
+CTGCGCCTGCATAACCGCCTGCCGCGACTATAGCATATGTAACTATGTGACAGTCTACGT
+TGTTCTGATTACACGCCAAGTTGTCTACGATATAAGTTGCGGCGCCAGATGACCCTGCGA
+TGATCGAAGCTACACTCGGGCAAACGAAGGCGGCTAGTCTGCTCTGTGATCCTAATCCGA
+TAGTAAGACCGTTTCCCAGAGACCGGCAGCTATTGGTATCACGCTTACTGTGAGGCGCGG
+TATCAGTCGGGTCAGTACCCATGAGCATGTTGTGGACGTATTTGTGCTCCTCCTCATTAC
+TCGTGTCCACAATTATCACCTGTCTGCTCGTGTTGTTGAGGTCGGGCACCATCCACCTCA
+TCTCCCACATTGAATCGCTGCCCTTCGTCAGTGCGCCAGCGCTGTCTACGTATAAAAAAG
+CCCTGGCGCCCATTAGTCCGAGTGACCAGGCCAGCAGGAACAGCCCCATGTTGAACATTG
+TTATCTCAGACGTGTATCACTCAATGGTAGTGGCGGCCGTTGCTGTGGATTATCCCGACC
+AAGGCGCACTCCGTCTATCCCGACC
+>ds2020-328_17
+GGTCGGGATAGACGGCTTCGAACCTTCTACCGGCGATACGCTCCTGGCCTTAATTGGCCG
+GGTCGTGCCTCCGGTGCTGTTACTTTGAAGAAATTAGAGTGCTCAAAGCAAGCCTACGCT
+CTGGATACATTAGCATGGGATAACATCATAGGATTTCGGTCCTATTCTGTTGGCCTTCGG
+GATCGGAGTAATGATTAACAGGGACAGTCGGGGGCATTCGTATTTCATAGTCAGAGGTGA
+AATTCTTGGATTTATGAAAGACGAACAACTGCGAAAGCATTTGCCAAGGATGTTTTCATT
+AATCAAGAACGAAAGTTGGGGGCTCGAAGACGATCAGATACCGTCCTAGTCTCAACCATA
+AACGATGCCGACCAGGGATCGGCGGATGTTACTTTTAGGACTCCGCCGGCACCTTATGAG
+AAATCAAAGTTTTTGGGTTCCGGGGGGAGTATGGTCGCAAGGCTGAAACTTAAAGGAATT
+GACGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGGAAAC
+TTACCAGGTCCAGACATAGTAAGGATTGACAGACTGAGAGCTCTTTCTTGATTCTATGGG
+TGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGTTAACGA
+ACGAGACCTCAGCCTGCTAACTAGCTATGCGGAGGATCCCTCCGCGGCCAGCTTCTTAGA
+GGGACTATGGCCGCTTAGGCCAAGGAAGTTTGAGGCAATAACAGGTCTGTGATGCCCTTA
+GATGTTCTGGGCCGCACGCGCGCTACACTGAGGTATTCAACGCGTCTATCCCGACCCCCA
+ACGAAATCGTCTATCCCACCNNNNNNNNNNGGTCGGGATAGACGCTAGCGCCTGCTATAT
+TCAACGAGTCTATAGCCTTGGCCGACAGGCCCGGTTAATCTTTGAAATTTCATCGTGATG
+GGGATAGATCATTGCAATTGTTGGTCTTCAACGAGGAATTCCTAGTAAGCGCGAGTCATC
+AGCTCGCGTTGACTACGTCCCTGCCCTTTGTACACACCGCCAGCTCGCGTCTATCCCGAC
+CGCCGTAATTCAGATCGGAAG
+>ds2020-328_18
+GGTCGGGATAGACGATGACCCTCACTGCAGGACCGTAGAGTGTCCATCGGCTAGACCTAC
+TGAGCGGTAATTTTGCATAAACAATTGCAAACAGCCCGTCAGTGACTACACTTAGGGATA
+AGTGAAGTGATTTTGAATTAGAGCTACGTTAATTCCATCATTTGTAATATAAATACTAGG
+AAGGCACAATCCTAAATAAAGAAATGAAACTAATAAAACATCAAATTAGTTTCATAATTT
+TAGCGGTCTCTTCAGTGTGCAGTGTGTTGTGCGAACAAACATGTGATGCAGGCTGCAACC
+AAGCATACCAAAACTGCTTAATAACACGCGAAAGGTGTCAACAAGCGTGCAACCCTAACA
+GAATATACTGTGGGAATAACGCACCCGGCACATCGCAGACCTGTGATAATTTAATAGCCT
+GCGAAAACGGCTGTAGCCCTTGTGAAGAGATTTATAGGTCATGTGCTAATGGATGTGACA
+TTTGTGAAGGCAGCGCGGAAATGAAAAAACGTAGTCTTAACTATGACGTGTGCTACACAT
+ACACAAACTGTAAAGTAGTTAAAGTTGCGTGCAATCAAAAATGTAACGGCAACCAACAAG
+CACTTCAAGTGTGCAAGCAGTGCGTTAGCAGATGCCTAATAGCAGAAAAGTGTCGGGACT
+GTGTTTCAAAACAAATCCTTGGGTCCGACCCCGACCCAAAACAGACATGCATAACAGCAA
+AGCAGTGCAGTAAGGCAGTAATAGCAGCCGCAGGTATATAGGCACCAGGGGCAGCTATAC
+ACGAAAGAAGAAACTATGCGGCGACGGCTATAAACTCAGATCTTAGGAGATGAAATAAAG
+AACAGGCGTTCTAACCGTGAAACGAGTAGGACAATCCAGAAATGCAATAGGGGCAACGTT
+AGACTTAAATCTTCGGAAATAGGGTAATGGCGATACAAGCGCTCCACCGTGAAAATCGGG
+AATCCACTAAAAAACATGCAAGGGGACTATACGTCTATCCCGACC
+>ds2020-328_19
+GGTCGGGATAGACGAAGGTTCCGGGTGTCTTCCAGTGGTCTTCTAGCGTTAGAAGAAGTC
+GTGTCCGTCCCGGACATCTGCAATGTCCTCCCACGCTTTTTTTTAATATAGGACAAACTG
+AAGGAAAAGACTGACCCATTCGGTTACTTTCGCGGTCGCCCTCACTGAACCGACTTGAAT
+CTGAACTACGATTCAGATCAAGTCTTACCGACATCGGATTTCCTTTTCGTGCCATATGCG
+CTTTTACTTTACTTTACTTTACCCCTTTTGATTCCCGGTCCAATATTTGTTCTCGAAAGT
+CTTCGTTTTCGTTGCTCTAAGGTACACCCGAGCACCTTTTGGTGATGCGATGGTTTGATC
+CTATCCTCTCTCTCGCTTAAAGCCTTCAAACAAAGAAAGCTACTCCGCTATATATACTAA
+AAATTTTTCATATACGAGATTTCTGTTCCATTCCCCTCCTGCAGCCAAAGTGTTAGCGGC
+TGTAGCATCCACCGATAATGTGTGGAAGAGGGTAAGCTTTCTATGTGGATAGGACGTATC
+AACACCTTTTGCATCTTTTAAAGGAAATATATAAGAATGAATAATATTGTGTTGGGTCCT
+GAGGATCAGGATGGCCGAAGATCAAAACCTAAATGTGCCAGGGGTTGATCATCGAAGCCA
+GGGACGATGAAGGAATTTGAGCGCTGATGTAGCTAACAGCCACCTTCATAGTCGATTCAT
+TAGGGTCGCCACTCGTCTATCCCGACCNNNNNNNNNNGGGCTGTTAAGCCTCACAGCTAT
+GGGACTTCCTAAAGAAAACCGCAATCGTAGTTTATCAACCACTCACAAGACCACCGAGAT
+CTTCGGCTTAGCTCCCAAAGGTAATCCACCCGGCCCTTGCCCAACCTATACAAGGGGAGC
+GGAAGATAACGAAAGGGAGACAAAGTCCTAACTAAATCATAACACAAGAACCTCCGTCTA
+TATCATAACACAAGCTACCCATTAGCCTCGTCTATCCCGACC
+>ds2020-328_20
+GGTCGGGATAGACGTTAACATTGGCTACTTAAGCAATATTGGACACCAAGCACTTCGTGA
+AGGAATTTCCAATTAGGGATGAGGAAGAGGAAAGTAGCTCGACCAAAGGGAGAGGAAGAG
+CAGTGGTTGACAATCATTTGCCGACTCTTGCCCAGTTCAACTGATAAGGAAATTGAAGTC
+AAGAGGGGCTTGCCACCTGGTGAGATAGTAGTAGTGCCTATGCATGCAACTATTGGAGAC
+CNNNNNNNNNNAACGGCCGCCACTAATGTGTTTTTGTTCAGCGTGTGAGGTTTTGGAATT
+GGAATTGGAATTCGAGGAGTGCGCTGAGGGATACTTCTTTTATCACAGAGTGGTTTGTGG
+TTATCGGAATCGAAGGCTTGGATGAAATGGAGGATATGGAAGTACTTTTTGGAGTAGTTT
+TTTCGGGAGCAGGAGTTGGTGTGAGTGGAAGTGGGATAGATTTAGACACGCCTTTGAGGT
+ACGAAGGTGGATCTGATACTTGGATGGTGAGATGTGAGTGTGGTGCTAGAGATGACGATG
+GGGAGTTAAAGAGGTTAGCTCAAGACTTTTCCAGGAAAACCGAGACCAAGTTTGATTTCC
+ATAAAGAAAACGTTTAAAATTCACCAAATGAAAAAGTCTCTTGTTCTTTACTATAAACTC
+AAAGCATTAAAATAATTGATCTTGTTTGGAAGTTTTTACTTTAAAAAGCAATGATAAGAC
+CCCGTATTTGCGTCTATCCCGACCNNNNNNNNNNTTGCAAAACTTGCTTTAAGATAACTA
+GAAAGCTAGACCTACAGGTGCTCTGAATTCCCACAAAATTTGCTGTACATCTGCCAAATC
+ACATCTCGGTCTCTCCTCTTTCTTGTTAGTCCTTGGCTCGGGCTGGCCCTTTCGGATTAG
+CTTGTCTTCCTAGCTGCCTTTCTTTCCCCTGCCTTATGACTCTCGTACATAGAAGAATGA
+GTGGCAAAGCACTCGACCCGTCTATCGCGACC
+>ds2020-328_21
+GGTCGGGATAGACGAATATCAGCCCTGTAGATTCGTTCCCATGGTTCGATCCTTCCCAGT
+AAAACGCGGCGTGTTCGAATTCTGATCGCTTTTACGCGAGAAAGGGGGACCACCCTCTAA
+GCCTAAGTATTCCTCAATGACCGATAGCGTACAAGTACCGTGAGGGAAAGGTGAAAAGAA
+CCCTATTTAGGGAGTGCAATAGAGAACCTGAGATCCGATGCGAACAATCAGTCGAAGGAG
+CGGAGCTTAGAGCCTTTACTTTATATTAGTAAAGCGCGCTCACTCTAACGGCGTACCTTT
+TGCATGATGGGTCAGCGAGAAAATGGGAACAGCGGCTTAAGCCATTAGGTGTAGGCGCTT
+TCCAGAGGTGGAATCTTCTAGTTCTTCCTATTTGACCCGAAACCGATCGATCTAGCCATG
+AGCAGGTTGAAGAGAGCTCTAACAGGCCTTGGAGGACCGAACCCACGTATGTGGCAAAAT
+ACGGGGATGACTTGTGGCTAGGGGTGAAAGGCCAACCAAGATCGGATATAGCTGGTTTTC
+CGCGAAATCTATTTCAGTAGAGCGTATGATGTCGATGGCCCGAGGTAGAGCACTCAATGG
+GCTAGGGTGGCCCCATTTCGCCTTACCAACCCCAGGGAAACTCCGAATACAGGCCTAGAT
+CGTTTGTACAGACAGACTTTTGGGGTGCTAAGATCCAAAGTCGAGAGGGAAACAGCCCAG
+ATCGTACGCTAAGGTCCCTAAGCAATCACTTAGTGGAAAAGGAAGTGATCGAGCGATGAC
+AACCAGGAGGTGGGCTTGGAAGCAGCCATCCTTTGAAGAAAGCGTAATAGCTCACTGGTC
+TAGCTCCATGGCACCGAAAATGTATCAGGGCTCAAGTGATTCACCGAAGCGACGAGACCT
+TGAAAGCTTCTTTTTCAAGTGTCAGTAGCGGAACGTTCTGTCAATGGGGAAATGTTTTTG
+GTGACAACACGTGGAGATATCAGAAGT
+>ds2020-328_22
+GGTCGGGATAGACGTGCGTTCTCCTTATTGAAAGCGCTAACGCGCATCCGTTTTCTTGCT
+CGTTAGCGCTTTCAATAAGGACTTTTTTTAGGCTTATAACATAGAAAGGGCTTTTCCCAA
+CCAACCTAGGTTATGGGCTAGCGCGGCTCGCTTCGCTTTTGTTGCGGAGCTCGCTGCTTT
+TCATTTTGTTAGGAGTAGGTGCTTGCCCTTTGTTGGGTTTGGGTTGGGGGAAGAGGTCAT
+TTCCATCGCGAAGGATTCAATCCAGCCACAGGTTCCCCTACGGCTACCTTGTTACGACTT
+CACCCCAGTCGAAGACCCCACCGTGGTATGCGCCAATAAGACCACCAAAAGCCTTTGTGG
+CACTAGTGGTACACAGAAGTCATGGGTGATCATTGGTCCGATGCTTCGGGCGAAACCAAT
+TCCCAGGGTGTGACGGGCGGTGTGTACAGGGCCCGGGTACATATTCACCGCGGCATGCTG
+ATCCGCGATTACTAGCGATTCCAACTTCATGTTCCCGAGTTGCAGAGAACAATCCGAACT
+GAGGCAATCTTTCCGGATTCGCTCCGCCTTACAGCCTTGCTTCCCATTGTAATTGCCATT
+GTAGCACGTGTGTGGCCCAGCCCATAAGGGCCATGCGGACTTGACATCATCCCCCTACGT
+CTATCCCGACCNNNNNNNNNNGGTCGGGATAGACGACTCTAGCCCCTATCTCCGTCTATC
+CCGACCAGTGAGGTGATACGTCATCCCCACCTTCCTCCAGTATATCACTGGCAGTCCCTC
+GTGAGTGCGGCACGCACCTTTTTGTTTGTTTCGGAGCCGTTTTGGCGGGGTGTACTAAAC
+TCACTACGTACCACACCACCGGGCGGCTCGCCTGAATGCCTCGTACTTCGACTCAGCCAA
+CCCCGGCGTCTATCCCGACC
+>ds2020-328_23
+TGAATTACGGCGGTCGGGATAGACGGGAGCTACTACTCATGCAGCGGCAAGGACCCGCAA
+CTCTCGAGGGGGCCACCAACCGCCCGAATAACTCCTTTACTCAATGGATAGCGCTTATCC
+TCTTTCAATCAACAAAATGAGAAATGGGGGAGAAAGAAAGAGAGAAAGAGGTCTTTATTG
+AAGAGGCTTTGCACCTGAAATAGGACTAATGAAGATCCAGAAGAATGGGTCTGGGCTTTC
+GAAAAGATGAAGATGCAAAGGGTAAAGAGAAAAAGTCTTTTGAACAACCAACCTGACATA
+AGGATTATAGCTCGCCCACTTAGAGCAGATGGTGATTCTCGGACGGGGAAAAGCGGCACT
+CGAAATCTATTAAACAACACCAAGAACAAAGCCATACCATGCCCTCGGGATAAACTAGTG
+ATGATTGCCATGAATGCTGCCCTCGAGGATGTGTACAAGAGGGTCTTTGCCGATTCCTAT
+CAACATGGTGCACCTCTCAAGGGTGAGACTTTAACCGAATGAATGGGGATCAATTGATAG
+ACATTTTGATTGAGGAAGAGAATCCAATCCAGGATGAATGCTTTTTTCGTTCGCTATGTG
+CTGACTAGATGCGTACTCGCGCGATCGATCGATGCACGGGGGAATTGCGTGAATGACGAG
+ACCGGCCTAACCTAAAGTAAAGGCTCTTCCCTCTCTTCATGGCGAATCTTGATTGACTGA
+CACTAGGAGCCGACTCGGAGAAACAAGAAGCATGGCATGAGATTCGCGGCGGAATTAATT
+CCGATAGCGAATTACTTGATTCGATGGATGGAGGGAGAGCCCTCCAACTCAAGCACAAAA
+TCAATGTTGAATCAACAATCATCGAGAGCGAGAAGGGCCCCATGACGTCTCTCCCGACC
+>ds2020-328_24
+GGTCGGGATAGACGCCCCGGTTGAGTTTGAGAGCCGTGTGATGGGTGACTATCCTGCACG
+GTTCGGGGAGCACTTTTTGTCTGCGTTGGTGAATGGAAGCCCCCACTATCAAGCAAGAAA
+GAAGCGGCTCTTCCCACGGCGGAGTCCCCATTGACTCTATTTATTATTATGGTAAATCAG
+TGTATCAAGATGTCAATCTGAGATCTTATTTCGGTTCAATACGTCCACCTACGAGACTGA
+CCTTTGGCTTTCGTCTCGGTACGTGTATTATAATAAATTTTCCCAAAAGAACATTCATTC
+ATTTCTTTCTTCCCCGTCGACCACGACGACTGAAACGACACGAAAAATCCAGACCCGGAA
+AGGGAACGGCCGGTGGGGGGCAGTCGGGAAATGCGGGNNNNNNNNNNGGTCGGGATAGAC
+GGTGGTGGGCATTTGGTAAAGTCGGGCCGATCGGGTGTCTTCATTCAAGCGACGATACAG
+AAGAAGAACGAAACGAAGTGAGAGGCCGGGGGGCAGGGAAAAGAGTCGAGTCGATCAGGC
+TCGACGACCGGGAGAAGCAAAACGAAATTAGGATTTGGCCGAAAAAGAAGCAACGCTATG
+GATACCATGACCGATCACCATCGATAAAGAAGAATCTTTCTAAATCACTTCGGGTCAGCA
+GGGCCTTCAAGCACCCGAAATACGCCGGGGTTGTAAATGACATAGCGTTCCTGATAGAAA
+ATGACGACTCCTTCAGAAAAACTAAGTTATTCAAGTTCTTTTTGCCAAAGAAGTCCCGCT
+CCGACGGCCCGACGAGTCATCTACTTAAAAGGACCCTCCCTGCAGTGCGCCCCTCCTTCA
+ATTATTTGGTCATGCAATACTTATTGAATACAAAGAACGGGCATCGTCTATCCCCACC
+>ds2020-328_25
+ACTCCACCTAGACTCTTAATCTTAGACAATCTGTCACCGACCTTAACATAAAAGGATGAG
+CCCGGCCTGTCTATTTATATGCATTGGCTTAACTCATTCCTATACACTGCAAAGAACACA
+AAATTAAAACAGCCTGGTAAGGGCTGTACAAGGGAACGAAAAGGGAGTTTGTTTGATAAG
+AAAGAGTTTGTGCTTAGTTAACAAACATCGAGTTTGGAGTCGGGGCAGCGTGGATACGAG
+ACTATTGAAGTTAAGTTTGGAATCATTTTGGTTTTCTATCTTCAGATTACCAAATTGGAG
+AATCACCAAGGCCTTTCAGCGATTCGACGCGCCCCCCTAAGCTAGACGCTTCACCTACCC
+AGAGAATAGAATGAGTCGCCCGCCTAGTCTTACTAAGAGTTTGAATTGCTCCGGGCGAAT
+GAATCGCATTAGTGTGATTTGGCTAGCAGAATCGCCCTTATATTATATATATTTTTCAAC
+CAGGTCAACGCATCGCCACTACGGAAACGAAATTTCCTTAGTCCTTTTTCTGTGAAACAA
+AGCCAAGTCTTTTCCGCCTTCCATCCCGCGTTTCCCTGCTTGAGACTGCTTTTTATTAGC
+CCAGTCATGAACCACCCCGGTTGGAGCCATGGTCTACCCGGCAGTGCTTCATAGCCCCCT
+TGCTCTTTGTCTAATCTTAGACTAAAGGTACGGCATCCTTTTTTGTTGTTTTTCTTTTGG
+CCGTAGGTTGTACGCCAGCCATATGTAGCTTGAACTGTGATGGCCACAATGCTTAGCTAC
+CCAAGATGCCTTTGGTTGAATGTTCACACCCGTCTGCACTTCCTACATTCATTCCCGGAA
+ATTGAAACAAAACAGGAAAACTGGAATTGTAACCCCCCGGCGCGTCTATCCCGACC
+>ds2020-328_26
+GGTCGGGATAGACGATAAACTGGGCTTCTCAGCTTGAGTATGCGTAACATACACAGCGGA
+GGCATCCACCTCAACTTGAGACAGAGCATTTATAGGTTTCACTTTAATAGACCTAAGAAT
+ATGTCTTTTTGTCTTAACAGGAGTCTTCTTTCTATAGAAGAACTTAGACAAAGCATATAC
+CGTATCAGCAGGATTTCGGTATGTAATCGTTTGTTTCACATGATCACCTTTCAAAACATG
+GTGCTTCAGGAGAAACATATCATTCCTGGAAATAAACGGTATTTGTTCAGTGTCACCAAA
+GGCTATAACCTCTGATAAACCGGCAATTGCGTCTATCCCGACCNNNNNNNNNNGCGGTCG
+GATAGACGCAGCCCCCTCACCTCTTCTTCAACCTCATCTCCCTCTTTTGTTTCCAGCACC
+GGCAATTGTGGCAGCAGCATATATGCACCCAGCATGTTGCATGAAACACTCATCAAACAA
+CATCTTCTTTGCCTTGGGAGCATTGTTTGTCATCAGATAGGAATCGCAAGTTCGAATGAA
+CCTGCTTTTAACTAACTGGGATCCCTCAACAGCTTCTTTCAACTCAATTGCAGAAGATCT
+GTTGGAAGTCAAGAGTAGGTCTATATCATCTCCAACCATGGAGGCAATAGACTTGATCTT
+GGTAGTTTTTCCACAACCAGCAACACCGTCCATGATTGTGATTGAAAAATCACAATTCAT
+CTTCAAAGCCTTTTCCAGTGAAGGTATAACCTTCTCCACTGATGAGAATACACAAGAGTC
+ATCAACAATGACAATTTCGTATTCTCCGACAGATCGTACGCAGGCAGCGGACACATTTCC
+GGCATCATCCCACCATTCCGTCTATCCCGACC
+>ds2020-328_27
+AACGGCCGCCACTATACGAATACCATAGGGGGTAGAGCACTGTTTCGGCTAGGGGGTCAT
+CCCGACTTACCAAACCGATGCAAACTCCGAATACCTATGAGTACTATCCGGGAGACAGAC
+TGCGGGTGCTAACGTCCGTAGTCAAGAGGAAAACAATCCAGACCGCCAGCTAAGGCCCCA
+AAATCATAGTTAAGTGGGAAACGATGTGGGAAGGCATAGACAGCTAGGAGGTTGGCTTAG
+AAGCAGCCACCCTTTAAAGAAAGCGTAATAGCTCACTAGTCGAGTCGGCCTGCGCGGAAG
+ATGTAACGGGGCTAAAACTATGTGCCGAAGCTGCGGATTTGACATTAGTCAAGTGGTAGG
+GGAGCGTTCTGTAAGCCGATGAAGGTGTATTGAGAAGTATGCTGGAGGTATCAGAAGTGC
+GAATGCTGACGTGAGTAACGACAAAACGGGTGAAAAACCCGTTCGCCGAAAGACCAAGGG
+TTCCAGTCCAACGTTAATCGGGGCTGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCG
+TAGTCGATGGGAAATCGGTTAATATTCCGATACTTGTTTATAATGCGATGGAGGGACGGA
+GAAGGTTATGCCAACCGCGCGTCTATCCCGACCNNNNNNNNNNGGTCGGGATAGACGGAT
+GAGAAGGTTAAGTCAGCCTGGCGTTGGTTGTCCAGGTGGAAGGATGTAGGTATGTATCTT
+AGGCAAATCCGGGGTACTCTATACTGAGATCCGATAGCAAGCTGTACTTGTACAGTGAAG
+TGGCTGATACCATGCTTCCAGGAAAAGTCTCTAAGCTTCAGTTACACAGGAATCGTACCC
+GACTATACCGTCTATCCCGACC
+>ds2020-328_28
+GGGAGGGATAGACGAACAGTATGAGCCAATGGACCTATCAGATGCTAGTAGCGACGAGAC
+GGTTGGATGAAGGTTATAGATCAGAATACATAAGCGCAATGATCGTAGAAGCAGTTAAGC
+AAAACAGAATAAGAACCGTGAAGACTTTAGAGATAATCTCGGGGGCTCGAATGACAGAAG
+AAGAAAATGAAGTTTTCGGAAATTTGGCGGAAGCTGAGAGAAAATTAGAAGAAGATAAAA
+GAAGCTTTAGGAAGGTAGCTGGAATGATGGTGAAGAAGGTGGGAATGGTGATAGGATTGC
+CTTTCGTGATATCAGATTTCTGCATGGCTGCTTAGCGTCTATCCCGACCNNNNNNNNNNA
+GGTCGGGATAGACGACGCTTGGGTTTCTGGTTCGTAAGGACAGTGTCTTCAGCTCGAGAA
+AAGATATCAAGGACGGCGTCAGCTGCAGCTGCGTGGACATTAGACAAAATTGGAAAAATC
+AAGTCTTCGCAGGTTAAAATATTAGGAAATGTGTCGTCGCTACTCAGAAGGGCGTTGGAA
+TTGATGTCCGTGATCTCAAAAATATATGACATAGAAGTGAGAGAAGAATTTAAATTAGGC
+AGCAAGATCGGCGAAGCCGGAAAGGTTCAGACGTCCATGCTGAGTAACATGGTAAACAAG
+ATAACCAGCTCCGTAGTGAGGGAATTGGCTGACAAAATAATAAGCCAGAAATCATTGCAA
+GATTCGGGGAAGAAGATGGAGGAAGAGAAGAAAAAAGAAACTGAAATTAGAGAGAAAAGA
+AGCGCATATGCCATGCTGTCTAACAAATCGTGCCAAATAGAAACGGATGCAGAAGCTGAA
+GTTTGGAGAAA
+>ds2020-328_29
+GGTCGGGATAGACGGTGCAGTCGATTAGAACGGAAATGGAGTTGGAAGCAGCCCCTTTCT
+ACATGCTTGATATCTTAAAGCTCGCCAAAAGGAGCCCAGCCCATATTCCCATAGCTGTCA
+AGTTGAGATTCTTTTGCACAAACAAACAATATCGCAGAATATTCTGCGTGTATCACAGGC
+GCTTCGCGCCCTCGAGTTGAGAATCAAGGAGATTGATGTATATGGAGATTCGTCACTTAT
+CATCTTTCAGACAACTGGTGATTGGAAAACCAAAGATCAGAAGCTCATTCCCTACCATCA
+GTATCTGGAAGATATCAGCCTAAAGTTCAGACGGATTACCTTCAATTATATGTCGAGGAC
+GAAGAATAAGTTTGCTGACGCATTGGCCACACTAGCTTCCATGATCAGTAGACGGTATTG
+ATATCCGGCCAATAGAATAGAGTCGACGAATCGGATTGAAATCAGTGTGAAGAAGAGTCA
+TGCGAGGACTAATCAAGCACAGCTAAATAGTAGTCATATCCACAAAGAAAGGAAAAAAGA
+TCGTCAACGCTTCTAACGTCCGTAGGAACTAAGTAGGAGGGCCGGAACTTGAGGCACTCG
+TCTATCCCGACCNNNNNNNNNNTGAGACCCCATTTCCTGTCTACCTCTCTGAATCCTGAG
+TTTTCGGAGCAGTAGAGACTCGCGCTTTAGCCGCTTCATCTGAAGTGAAGGAGGGCTTAC
+AGAAGTCACAGCACCAGAAAGTGACAATAGGCAAATCAACATAAATGCAAGAAAAAGAGG
+AAACTGTACATCAAGCCCTGTATAGCGAGACAGAGAAAAGAAATGGTACCTGGCGTCTAT
+CCCGACC
+>ds2020-328_30
+TTCTTCGATGATGCGCAAATTGAAGCTTCGGTACCCTTGTTTTTTCCAATCGCCCTTTTC
+TCTTCTTTCTTCTTTTCTTCACTTCCTTCCTGCTTTAATTCTTCATCAGACCCTCCTTTC
+TTCCTCGCTGCTGCTTTAGCCGACTTCCCGCTGTTTTCATCGGTTTTTTCTTCTGTCTCA
+TTCTTCTTTGCTACCGGGTATTTAGCCGCGTTTCTTCCTATCAGCAAGTCCCACGTCCTT
+CTCATTGTCCGCGACGCCTTCCTCACTATTCTCACTGCTTTGTCTTTCAATTCCACAGCC
+CTTCTGACGATAGTCCTGTTTAGAAGTCTTCGCACGCCTACGATTTTCCTGCTTATCCAC
+CTTATCACCGTCGCCAGCTTACTGCCAACCGCTCCGTTCGCGTCGTTTATTTTCAGCTTC
+AGTGCCCAGAACCACCCTTGGTCCATTTCTGTGACTTTCAAAGCTTCTCCGGTGAGCACT
+TCCTCCTTAGACAGCATCGTCGATGCTATGGATGGGTTCTTCATCCTGTCCGTCAACTTA
+CTTATTATGGTGCTTGGGTCCATCATGTAGCTGCATCCTCTTGTCCGACAATCTGCTAGC
+CTTTTGAATAACTCATCTCGGCCCACGTCTTCTCCTGCTATTCTATTCTTCCTTTTCATC
+TTTATTCTTTCGGGATTTTCTATTCCCATTGGTGCCCTAGGGCTGAACTCGCTTGAATAC
+AAATATGCTATCTTGAATCTGTCATTCAAATCATTTAGAACCGCAGCCATTCTCAACGCG
+TCCGTTAACAACTCAGTTTCGCAACCAAGACACCACGTCTATCCCGACC
+>ds2020-328_31
+GGGCGATTGGAAAAAACAAGGGTACCGAAGCTTCAATTTGCGCATCATCGAAGAAGATCA
+GCTGGGCGGATCAATGCGAAGGAGAGGAAGCCGTCTATCCCGACCNNNNNNNNNNGGTCG
+GGATAGACGAACACACGGGATAGTGGCTAGATCGGTGATGACAGCTATAAGGACAGGAGT
+GAAACTGGCGCTAATTGGTCCTAAAATAGCATTATTTGCTGTAGGAAAGGTGTTGAGTGA
+TTGCAGGTCTAAAGTCACAGAAAGTCTGTCCAGAGCGACCCAAGTTATGAGGTTGGGACT
+TAAAATGCTGCAGAAATTAAGGTCCCAAGTAAGGAGTCGAGTCGGCGAGAAGATCCTATC
+GAAAGCGAAGAGTGTGGCTTGCGCCAAGGCTGGAAAGAAAAACACGGCGAAGGAAGAAGG
+CGAGGCAATCAAAAAGAACAGAAACGGACCGATGGAACAAGTGGCAAGGGCGGCTTTAGA
+TGAAATGAAAAAAGGAGCAAGAAAGTTCGTGTCGAGGATGTTCAGTGAGTTAAGGAGGCT
+AGCATCAAGTGCGGAAGAGAGAATTGAGAAGTTTTTTAGCTCGATTAGCAGAGCATGGAG
+TAGGCTAAGCAAAGAAGTGAAAGATTTATATTTCCAAACAAACCTTTTAGTGCGCGCGAT
+GATGGGCAAAAAAATGGACGTTGGCAAGCACTTTTGCTTATTCAGGAAAGGGGAAACAAG
+CTCAGCTGATTTGATAATTTCCGTAAGCAGAGCGATCATGGGGTTGTTGGGGAGAATAGT
+GATATTCTGTGTGTCGACTGATTCCCCACGTCTATCCCGACC
+>ds2020-328_32
+GGTCGGGATAGACGTTCCCCCCCCCCTTTCTATTCCTCGCGAGCATATTCCCACATAAGG
+GAGTACAATCGATTTTTCCCCCTGGAACTTGTGAATGAAAAGGGAATATGCTCGCCATTA
+TTGTAGTGCTCCCGCTGAAGCGACTCCACTCTCCCTAGCAGAGCTTTACAAAATCCAACC
+TCAGCCTTATCCAGCGCTAACGATTCGATGTACTTGTAAAAGGTTCTGTCGGGAAGGGTG
+CGCTTCCTTCCAGAAAAAAAAGTGGTTCTTACCTTCCTGTACGAGTAGTGAAGAACTATA
+GTGAGTTGTGGTTGGTTGTTGACCAACGGAAAGCGTGGGAGAAAGAAGGAGTCATCGACG
+GGGCGGGGATCACGCAATAGATCTCCGGGGGTGGGGGGGTACCTTACTTAAGTATGGATG
+TGATTTTGACCCCGTTCCACCCCAGCTCAAAATCCATTGGGATGCCCCAATTGTTGAATA
+TGATTAAAGCCATAAGGAATGTGTGGGAGGCTGTATAAAGAAGTAGAAACAAAAATAGAG
+ATTTCGATAGTCCATGAAGAAAAGGAAGGATTTGTTGATATGTAGCAGCTCCGGCACCTA
+TTGATTTTGCACCCTCTAACATCTCCGAGTTAAGAATTCTCGTCACGCTTTTTCATTCAC
+GATTTTATGTTATTGATTCCTCGTCGATTCTGCCCCCCCCAAAAAAAATGAAGAAAGACT
+TGTCGGAAATCGCCGGTTGGGTTTACCAACCAAGAAAGACATGGGAATTTTAGGCGTCAG
+ATTCTTTTTCTTCAGGGCTTGGCGACGTCTATCCGACCGC
+>ds2020-328_33
+TGGTCGGGATAGACGAGTTGGGGCCGAGTCCCGTAGATACTACATAAGAAATTTTTTCAT
+TGATGGATGGGAAGGTGTATAAAAAAAGGTAAAAGCGCTTATGGGGCATCCCACCTCCCG
+AGAAGGTTGAAGGGATAGAGGAGCTTTTTAGCCCTTTTGAGGAATTGGTTGGAAAAGCGC
+TACCACCCTGGCCGGAAATCCTATGTCCAAGCGCTTCAGAGGTCAAGGGAGTTCGATCCG
+GCTACAACTCTCCTCCTTCCACGCACGGACAAGGATCGGTTGTTGAAACAAATTCATCTA
+GAAACAAATAAGTTCTTGTTTGATCCGCCGCTGTTGTAACACCACAATATTCGTCCTTTT
+CCTTTTGAGGTTAATCCTCTCAATGGTGAATCGAGCACTCGAAAAATTTCTTCGACGGAA
+TGGAAGAAAGGTAAGGAAACCCGCGATGGCTACTGAATACCCGCCCTTTACTTTCTTAAT
+AAAAAAGCCCCTTACCTTTGTATTCGTTCGCCAAATCTTGTTCAGTTCCATCCAAGCTCG
+GTTTTGTCTGAATCTTCGCGGAAGAAGAAGAAGCGGTTCACCAGCCACTACATCTGTGGA
+TCCCACCAAATTTTTAAACCTGGCGGCTGCTCGCTCTTTGATCAGTGATTCACCGGCCAC
+TACATCGATGAAGAATCTCTCCAAAATCTGCTCTTTGATCAGTGATTCACCGGCCACTAC
+ATCCAGGGATCCCACCTTATTCTCAAACCTGGAGTGCAAGTCTATCACGACC
+>ds2020-328_34
+GGTCGGGATAGACGCTTACCGGGATTGGGGAAGACGGGTGGATTATAGAGCTAGGGGCGG
+ATCGAAGGTTTGCCCGTTGGGATTGGGCATGGACGAGCCTCGACTGGGCCAGCGTTGATG
+AAAAAATGAAAAAAAAACTTCTCCCATCGCATCATTAACCGGTGTAGGATTAAAGATCAG
+GTCCAGGATTCGAGGCAAATCAACCTCCCCTCTCATCTCAGGGTGAGGCAAGGAATTCAA
+TGTTCGTTGTTCAATATCTCGGCTGCTCAAGAAGTTGGACTAGCAGCTCCTCCGACCCGG
+AGTGGATTCTAGGGGAAGGGCAGAGCCTCACCTTGCAGTAGGAAGGTGGTCGTTGCTGGG
+ACGGGTTCAAACAGGACTGAAGGGAGGATAAATTCAATACTCCGATCTTACTGGGGATTC
+ATCACTGGCTAGGGCTTTCGAATCAAAGCATGGGCATCCGCAACTAAGAGGGAGCAGTAG
+ATCGTCGATTGAAGAGCCAGGTCAGTAAACTTCTATTGATTATTGATTCGACTAGAGGGA
+CTCCTAGCAACAAACTTGTATGAAGGGCCCCCCGTGGAGATGCAGGAGCCGCCAGCCGGA
+TCGACCAATAAATGATAGGCCAGAGGGATGGGCTCATTCGACTAATTAGTGATCCCTGGC
+CCTACCTAACAAGGGGTATGTGTCGTCTATCCCGACC
+>ds2020-328_35
+GGTCGGGATAGACGTTGACTTTCGCTTTCTCCCTTGTAGCCGTTACCCGAATTCGCGCAA
+GTGTGTCCACACCCCCCAAACTGACTTGACGAGGAATCCATTCTCGCGAACAAACACAAC
+CCCTACACACACCTAGGAGCACCCCTTCCTGCATATCCATACAAGACCCGAGTAGGCGGG
+TCGAGGTCCTACGAGGTACCCACTACTCGGAGTACCCTCCCAAAAGGAAAAAGATGTGTC
+TGTCAGGTTCGGTTCTTCTTAGTTGGGTTGGGCGGGTTCGACCAGAAATGCTATGCTTAC
+ACACAAGACTACCCCTCTTCCCGAAAGCTTCGCGGGGACTACTTTACGACGACGGACGAC
+CGCCCGTAGGGGGTTTACTGCACAAGGCCCCTGCAGAGGAAAGGCTTTATCCCAGCGAAT
+AGAAGATGCTCAGCTCCGCACAACATAGGGATTAGCACGCTTTCGGAAAGAACATAGAAT
+AGTAAAGGATCCAGCATGCGGAACACGGCGATCATTAGAAATTCACGAATTAGAGATGCT
+GTAATATACTCTTTCCCATAACTTCTCATACCAGACCAACCCACTGAAATGCAAATAGGG
+ATCAGAAATGTGGTCAATATCACGAAGAATAAAGAGATACCGTCTATACCCAAATAAAAA
+TTTATGTTTTATCGTCTATCCCGACC
+>ds2020-328_36
+GTACAGCTTTGGCTAGCAACTTCGGAGCCGCTACTTCGGGATGCGTACCCGGTGACGGAT
+ATGCTCACTACGGAGGTTCAGCGTGGTTGAACTGCCGCGCGCTGCAAGAGTGCCAGAACG
+AGGGTAACGATGTAGTTAAGAGATCTGAACTCAATGTCACTAGCTCCGACGTCCGTGGAG
+CTATGTCTGGTGGTGTTGTGATGCCGGACTTTCTGTACGCGTACGGCACCACCTACTTTA
+TCCACGGACAAAACAAGTCCGGGGGTCACGTTGACGCTAAGATTTTTGACAACACTGAAT
+CTGAGGACTTGATGAAAGATCTGGTCAACATGACTGAAACCGACTTCGTTGCCAAATACG
+CGCACCTTGGTGTAGACGGCGACTTGTTCGGTGCTGCATAAGTCGTTGAATGATGACCAA
+AGGTGGATGAGTTGACTTGTTAAGCCCTATGGCAGGTCGACAGGGGCAATTGGTGGAAAA
+TGCAACCGGGCGCAAAATGTAAATCAGCGGAAAAACACGGGTAAAACAATAAATTAATTA
+CAAAATAATGTGAGAAGGGCATATCGTCTGATATGGGGCGACTGGAAGGCGATCTCAATA
+AACTGGTCTCAACAACCAGGGAGCGCAGAACAAAAAAAACACACATAAGAAAATAACTCA
+TATAGTGGCGGCCGTTGCTGTGTATT
+>ds2020-328_37
+GGTCGGGATAGACGCACGCTCACACTGGTCGGGATAGACGGTACCAAGGGCTTTCGGTAG
+ACTTCTTTCATTTCCGAATTAGCTTGCGAAAAGTCCTAGCATTAGTATGAGTTCGTTGAC
+CGCGTAAGGGCGATCCATCTTGATGACGAATTCCACGATAACGAGAAATAGAAATTAATC
+GTTCGATGTCTGCTCGCTCTCCCCTCTTCAATTCCCAATGAACAACATGATCTTGACCTA
+TCATTTGTTCAATTTGGTCGATCTGATACTTAGTTAACTCTTTTATCTTTATGTTCCCAC
+TGATACCTAATCGATAACGAACCTGAATGGCTTTTTTAGGTCCAATTCCATCAATTTTTG
+TTGAGGCAATTCTTACTTGTTCATCGGCAACTGATCTAGCTCCTGAAATATATGACATTC
+TTGATCCTTTCCTTTACTAGTCTTCTCGGCTGGAATCAAAAATGGGCTGTCTCCTCTCTG
+ATGATCTTTTCTATAGGTAGAACTACTGTGAGCGGTCTAAACTTCGACCCTTATTTCTTT
+CTTAAAAAAAAAGAAAAAAAGGACATTCGACCCAATACCTTAACCATGTAATTTCTCCGA
+CATTATTTTCTATCGCCACATCAAGGTGACAGGATTCGAACCTATGGCCCTCTGTACCCA
+AAACAGACGTCTATCCCGACC
+>ds2020-328_38
+GGTCGGGATAGACGAATCATGATTTTACTACGAAGGAAGGAACTCGAAGTGAGACGGCAC
+TGTCTTGTCCAACGCAACGATATGGCCCTCTATCATCTTCTATCCGGTAGACTTGGTAAA
+AGGGCCCCGACTTTTTTCCAGAATTAGAGTTCGACCGCGGCTGCCCCCTTTTTTGGGGGG
+TTGGTCAGAAGTCAGTCTTGTTTGGTAAGACGGAATTGGACAAAGAAAAGAGAGTGCTCG
+ACCGGAGCAACGGCCAACAAAGACCGTAATTACATAGATAACCGCTCCTCCCCTTCTCCG
+TCTTTAAGGCTTTAAGGCGAACCGTATGGCGGCTGGAAAGAAAGACGACCTCACCTTCTC
+GTAGATGGTGTTAGTGAGAGCAACTTTAGTATCCCCCGTTGACCTTCTTTTGCAGATAGA
+ATCTTCAATGAGTGGAAACAAGCAACCTTACTAATAAAGGTGCTTGTTGAGTAAGGCCGG
+CGCCCAAGCCCCTTGTATAGGTTGGGTGCTTGAGCGCATGTTTCTCATATCGATCAAGGC
+TTTCCTTGAGTTTTCAATAAGGGGCGCGTTAGCACTCCTGCAAGAAAACGGCCTAGCTAA
+CGCGCGCCCTTACGTTTTCTTCGCTTGCTCTGCCTGCAGTACGAGCCTCATACAGAGCGC
+GCCCCATCGTCTATCCCGACC
+>ds2020-328_39
+GGTCGGGATAGACGACGGATCCCAGTCAGCCTTCTTCCTCTTCAGGACATACCTGACTCT
+CACAACTCCGCGAGAGGTTCACCTTCGGCGTCGTCCTCCACTGGACAACGAGTCACATTA
+CCTTGTGACAACACAATCACTCCGCATCCGGCAACGAACCCTCGACGCCCATACATCAAG
+CGTTGCATAAGACACGTCAACTGCATCGACCACGTCGCATGCTTCACTCATGGCTCGCTC
+ATGTCCAAGTCAAGACATAGCGATCCAACACACCATCGGTTTACCCACACTTCTGTCGGT
+CATTCCTTTAGCATCCACGATAGCCCACTTCCTCAAGCTATACACGCAAGCAGTCCTACT
+TGCATGTCGCCCAAGCCTTGGCGACATATATATTCCGAATGTCCCACATAACCGTCTATG
+CATTGCATGGGGTCGCAACCCATGCGTACCGGCATCCGAATATCTTCCTTCCAACATTAG
+ACAAGGCCGAACCCCAACCAAGTCTATCGAGTCTTGCCACATGCCTCGCTAGCCGATGGC
+ATAGCGAATGCCATTCCGTGACCTCACTCTTTCCGACAATGCCCAATACGAACGGCCCGA
+CGTGTTCGTACTGTCCTCGGGAAATCCTTTCCCTCGGAGACACAGATCATCCTCATTCAG
+CGTCTATCCCGACC
+>ds2020-328_40
+AACGGCCGCCACTACTTTTTGCCTTTATTGATATGATATAAAACAAGCTTACTTACTAAT
+AAAGCGGCAACAAGCACCTTCTTTCTCAAAAAGTAAAGTTTCGCGCTTGTTGCTTTAGAA
+AAATGGCAGCGTTAGCGCTTTACTAATACTTATATATAATATATCAAGTAAAGGCTCTTC
+TCCTTTTCTACTAATCTACAACTCTCTTTACTGAGCGAGACTCCATCCATATCCCTACTA
+GTGGTTCTTTTTTTTTCTATTCTATCATTTGTTTGACAGCTTAAACCAGGCTCCATTTTA
+GAGAGTTTTCGGTCTTAATCAAGATAGGTCAGGGGCGCGTCAGAACGGTCGGTGGCTGCT
+TAGTCTCATCCGAGAATCTCTTTGTACTGCTTTTTTTCAAAGAAAAAAAAAGAAAGAAGG
+GGTTCGATTTAGGCTCCTTCCCTTACAGAGCATAGCTGCGCTAGCAGGTACTACGAGCCC
+TCTGTCCCGCGCATCTAACCAGCTCGCGTGGTTCACCGGTTCCACCGAAAACTCTCATTT
+GTTGAAGCGGAGCATAGTGCGCTTTAGGCGCCGAGCGAGAAACGTCTCTTCTTTCGTTTC
+GATTTATTCACTGATCTGAAACTTTGCACTTGTTTTCTTATTGATTCCAGGGGCGGCGGC
+GTCTATCCCGACC
+>ds2020-328_41
+GCCGTGGACCTAGTTGCCTACCCCCTAAACCACTAGATCCACGGCTGGTACTTATTTACT
+AGGTCCACGGCGGTCGGGATAGACGACGAGAGCCCGTTCTAGTGCCTGAACTACTCCGAT
+TATTATAGGCCTCAAACTCGTGTCCTGCAGCTCTAATTCTTTTGCTATTTCTTCCAACTC
+TCTTTCTCTATCAACTTCCGCTTCTTCTTCGACTATCTCTTCTTCCGTCTCAGCCAGCAG
+CCTTTTCCTCAATTTCATTTCTTCGTGAGCCGCTTTGCATAACTTAGCGTCCTCAGAATT
+AGATGCTGCTATAGCCCCTCCGCACAGCAATGTCTCAGCTGCCACATCTCAGCTACGTCT
+ATCCCGACCNNNNNNNNNNGGTCGGGATAGACGTGTACTGCTTCTTTATCGGATAAAATC
+TGGCCATCTCTCTCGCAGCCGCGCACAGTCTTATTGCCTCTTTCGTAGTAAACTCTTTCT
+TTCCGAATGACTCTGTTTTCTCTACTATAGCTTTCATCCATTCTTTTTGCCCTTCGACTT
+CTTCTCTATTCAGGAGGTCTATTGAGCTATATCGGTCCCAATTATCGAACCTCCAGTACC
+TTTGCTCACCCTCTTTCTCTTCCGAAGCTCCCTCAACCATCGATTTGTTCGCGTCGTCTA
+ACCCGACC
+>ds2020-328_42
+GGTCGGGATATACGAGGCACTGGACTGGAGTGCTTTCATCAAATGATGCATGTGGGCTGG
+GCCATTCCCATCCCAAAGGGCGGCCCGATTCGGCCTGGCCTGGTCGGGAAGAGATTCACA
+TAGAGACTATCGCTATCCGGGAATCTATTTCTTTCTATGTTAGCTAGCGGGGGCGGGCTT
+TCCTATGGTAGTCCCGCTGCGGCCTCTGACCGTCCGTCCCGTCTCATCTTGATTTGGCTA
+TACTTGTATGTAGCCACCCTCCACATGATAGCCTTTTTCTAAAGGCTAAAAAGGCACTCA
+TCAGTCAGCTCGGCCCCTTTCCTATTAAGCTTTGCCACCTTACCTTAAGAGAATAGGTCC
+CGTTCAAGCGCCCCGCCTTTATTCATCTATACCAACTGCCACGCACGACCCAATATGAAC
+GATTTCAGCGCCTCTCTCTAGATAAGAAGCGGAACGCGCCATCACCTACAGCCCTTTCCT
+CTGCCGGGGACTTCCACGAAATGAAAACGGGCGGCATCGTCGTATGCTCGACATTTGTTG
+CCCGGGGTTATCTCCCGGAGTACTCCTATGGCCGATCTGTCACCCAACCAACTTAAACAA
+CCTCAATCGCTTGGCCCCGACCCGTTTGGAGAATGACCCTTATCGCACGGCTACGTCTAT
+CCCGACC
+>ds2020-328_43
+GGTCGGGATAGACGCGCGGGGGGTGTGCCACGACGAAACAAGGGAATTTAAGGCCACTTT
+GCGTTGGATGCTCTTTACCCTCCCCACAATGACGGCTCTGTTGTCTTGGGGAGCGTTGAA
+GCTTGCTTCTTCTCCAGAGTTTTCTTGGTCATCAATATGACCTGTCCTTAATAGAACCAA
+TCTGATTCTCTGAACAATCGGAATTTCGTACTTCTGTCGGATCCTCCCTATCTCCTGATC
+GAGCTTGTGTAGGTAGATGTTGCCTAGTAGGGCCGATAGTAGTACACTGTGTGGGACGGA
+ATAAGGGCCCTTCTCACCTCCTACGAGTCGTCCGGCGGAAAAGACTTTCTGAATGGGGTA
+AAAGAACTTGGGATCGTCGATCTCTTCCTTAAAGATTGGGATGAGTCGATGTCGGTCGAT
+GGTGTGAAAACACTTCCTGATGTCGAATTCCAAAAACCAGCGAGAGGTTCCCCACTCTTC
+TTTGATCCGTCTTAGGGCCGAGTGGCGGCCTCGACCCGAGCGGAAGTGCGATGTGTCTGG
+AAACTCGGGATCGTAAATGAATTCGAGTACCATTCTGATCGCCTCTTTCATGATCTTTTC
+TATAGGTAGAACTACTGTGAGCGGTCTAAACTTCGACCCTTATT
+>ds2020-328_44
+GGTCGGGATAGACGTGGGTGCTGGGTCGATTTATTCTATGGCGAAGCATCCGAAGCATAA
+CTGCACACTCACACGATCTTTGCCGAGAGATAGGAGCATTCGGTGGAACCGGTGAACTAC
+ACTTGCTTCTGGATAGATGTGTGGGACAGAGGGCTCGTGGTACCTGCTGCCCACCCTTCC
+TCCTCTGCTTTGAGAACCGTGTGAACGGAGAGTGGGCAGAAGGGAAGGAGGTCCTCATAC
+GGAGTCGCACACTTACTTGAGCAGTGCGGGAGACTGGGGAATGGGTCGAGCAAACTCCCC
+CTGGGCCGAAAAATTACAGACGAAGCTTTACTTAGATAGGGCTTTGATTTGATTGGTATT
+GATTTTTTCTTAGTGATTGGAAAGGAGGGCGCCGGGGTATGTTATAGAAAGGGAAGGCGG
+AGGTAGTACTTCGAATGGCGAAGAGCGGCGGCTCGGCAGGGAAGGAATGGGAAATCGTCA
+AGGATGACTTCTTTGTTGGCGAAACGAAGGGCTAAATAGCGCCAGTGATTCTCTGAGCCG
+GTCTGGATTTCCAACGCCTCGGGAAACTGGTCGAGATAGATGACAGCACCCTTTTCCTCT
+CTTCCTTACTCTAACAAGTAAGCAAGTAAACTACCT
+>ds2020-328_45
+GGTCGGGATAGACGTATATAAGCCCTGTATAGCGAGACAGAGAAAAGAAATGGTACCCCT
+CCGCCCCTTGCTATTAAGAAAATGACCAGACGTACCTGGTTGCGATCAGATGTAGGAGAG
+AAGTGCGTTTAGGAGCCACCGCATACGTTTACTCTTGAATTAATTCGTGAGATTTGCGAT
+CCCCTCGCAGGTCCTCCAAACCCCCTTGAGTATTCAAAGAAAAATTGTTTGATCATTCAA
+TGGATCAAGCAAGGTGTTGATTTCTCTTTTCAAATCAAGGTCTTCTTCGAAAGAACCAGA
+GTTAGCCGAGGAGCTCGAGCAGGAGTTTCTTAAAAGCTGAAAAACGGAAGACTGGGGCCT
+TTTTACAAAAAGTATGGGAAACCGGAAACGGAATACCTAGGTCGCAGGGCAAGGGAGGAC
+GGAACCCCACTTCGACTCACCAAGGAGAAGGTAAGTACTTTTATATCGTTTCTTCTGAAG
+TGATATAGAGCAATGCCTGGACTGGGGGGGGGGCGTCGGCCCACGGGAAACCATTTGCAG
+ATGCGACCATGAATCGAACCAGATCGAAACATTCAGCTTCGACGGACAAACCGAACCGTC
+GATCGCAAACGAAGAATGGCCGTCTATCCCGACC
+>ds2020-328_46
+GGTCGGGATAGACGCCCCTTAGCCCTGAATGGTAGCATAGTAGGGGAAACGGGTTTGGTC
+GGTTTCTCAGTCATATGAGCAGCAACACTCTACCTCAAAAAGGGCTCTGCTTAGGGAGAT
+CGGGTCGACGTCATTTCTCCGCTATACAACCAGACCAAATGAGAATGATGGCTCTAGAGT
+GCCCTACCAACAATAAGGCGGTTGACGTGACTCGCCAGTTATGTCGAACAGCGAAAAGTG
+GACTTGAATGAGATGCTTCTTAATGGAGGGTGAGTCGGAACCCTGGAACCGGGGAATACT
+GCGATTCGCAGATTCTATTCATCACTTTCCATGAGTCCCCAACCCTCCTGCGCGTATAGT
+CGCGAGAGTAAGCAACCCACTAAGCTCCTCCGTCTATCCCGACCCCGTATCAACCAGCAT
+TTCGACATTTCGGGTAAGATGGAACCCTTTTCTATACCCTTAACCTGCCACGGGTGTGAG
+TGGACCTTTCTCCTCAAGCGCTTCCCAACTCCCCCTATTCCAATCGCTCGTCGCCCATTC
+TCTAAGGGGGCTCTCTCCTGCTCCGTCAGCGTGGCACTCTTCTGCTCGGTCAACCGGGAC
+TGATTCCCCGTTGACGTCTATCCCGACC
+>ds2020-328_47
+GGTCGGGATAGACGCTTGTCCCCCCTCAGCTCACCCTAGCCCCGGGCCTTTTGCTCTTCT
+AACGTAAGCTCCAAGGCTTCACACCAAGTCTTCACTGACATAATATGCATGCTTAAGTAG
+GGTCAGGCAGAACCGCTGTTGCCCGATGGGAACTTCCCCCATATTGCTATCAATGTCTTC
+ATGTCGCACGACCTCTTAACATTACACCACTGAATCCCCAATCCTTTGCTTGCTGTGCAG
+TGACAGTACCAATATCCACTAATCGTTGTTTCCAGATACGGTTGCCGGTTGACATCTCTT
+CTAATTCGTCGATACGAGAAGCAAATTGTTGTGTGGAGGAATCAATATCTCGACATAAGC
+CAAGAGGCAAATCTTGGGCCACTCCACCTGGTCGTATGAAACTGGCATGCATCCTGGCTC
+CGGAGACTCTTTCATAGAATTCCAACAATTTCTCCCGCTCCTCAAAAGCCCACAGGAACG
+GAGTTGATGCTCCCACATCCATAGCATGAGTAGTTAAAGCAAGTGAATGATTTGAAATTC
+GAGTTATTTCACGGAATAACACTCGTATATATTGAGCTCGTAATGGTACCTCGCAATTCA
+AAAGTCTCTCTACGGCTGAAGAA
+>ds2020-328_48
+GGTCGGGATAGACGATGCATATGGGTAGCAAGAGGGCGCTTATGCCCCGACGGTGGGGCC
+TTATGGGGAAGGGCCCAGCCAAATAGGGACAGCACACCCCCCACTTCAAGCGCATCTCTG
+TATCGACTGAATCACTCTAAGAGTCTAGTCGGTGGAACCGGTGAACCACGCGAGCTGGTT
+AGATGCGTGGGGCAGAGGGCTCGTAGTACCCCCTTTTCTTGATCCAGCCTTTTCTTCACT
+TCGGTAGTGAATCACCTACTAAAAAAAGAGGCAGGCCTGCGCGCCCTATTTGAGACTACT
+AAGGCAGGCGGTGGACTCTTTCATTAGGGAAGGGAAGAAGGGGCCTAAGCACGGCAGATG
+CCGTACACTTGAGTGGCAAAGGAAAGCGAGATCGTACCAGTTTTTCCAGGCCTGTTCGGA
+CATATGGTTCCCGCGGAAGATCAAGTTGGTGAGCCGTGTGATGGGAAACCTTCCCGCACG
+GTTCGGAGAGCACTGAATTAGAATGAGAGGTTCACCACCACATCATTGCATGCAAGGGGA
+GCTCGCTCGATTCGCAAATTGGTCCGACTCGTAATTCACTTCTGACCCCGTGTCCCGTCT
+ATCCGACCGCCGTAATTCTCTCA
+>ds2020-328_49
+GGTCGGGATAGACGTTGGTACCCCCTTCATTCAGCTGACGTTAAGAAAACAACAACAGTT
+TGCACCCTCGAACATGCCTAGTGCTCCAAGAAACACCGCTGCCTTTGTGGCCTCATTCGA
+ATCGAACCAAGTTCGCCCTGAACCTGGCCGTTTCGTCCCGACCTTCCGTCCGATGTTTGG
+AATTGATGGACCCGTCCTCGATACCGTCTCCTTGACAAAGAACATCTTGTCTATCGTCTC
+TGACGTAGCCTCTGGAAGCCCCGGAAAAGCCGCTTTCTATGCCGCCGGTACCCTCTTGAA
+TCTCTCGGTCGTTTTCACCTCTACGAGCCAATCCCTGTCTGACGACGATATCTCAAACAT
+GGTCAACCTTCCAACTGCCCTCCAGCAATTGGTAATTGGATACTCTAGAGCGAAGTGTTC
+TCAGGAAAAAGTGGTTCTATTTGACTCTCGAACCGAGGTTTCCCGTCTGTTATGGACTTT
+CGATCAGATCGCAACAACTGGCCAAGTTATGGCTTTGTCTGCCCTGTCCGTCCCCATGAC
+TCCGTCTACCTCTCTTCCCGCTGCAGTCCTTCTCCACAACTTCCTTCGTCTATCCCGACC
+GCCGTAATTCAGATCGGAACA
+>ds2020-328_50
+GGGCGGGATAGACGCGACGGTCCGTTCTAGTGACAGCATTCCTACTTTTATTATAGCTTC
+CGGTACTGGCGGGGGCAATTACCATGTTATTAACCGATAGAAACTTTAATACAACCTTTT
+CTGATCCCGCTGGAGGGGGAGACCCCATATTATACCAGCATCTCTTTCGGTTCTTCGGTC
+ATCCAGAGGTGTATATTCTCATTCTGCCTGGATCCGGTATCATAAGTCATATCGTTTCGA
+CTTTTTCGGGAAAACCGGTCTTCGGGTATCTAGGCATGGTTTATGCCATGATCAGTACAG
+GTGTTCTTGGATTTCTTGTTTGGGCTCATCATATGTTTACTGTGGGCTTAGACGTTGATA
+CCCGTGCCTACTTTACCGCAGCTACCATGATCATAGCTGTCCCCACTGGAATCAAAATCT
+TTAGTTGGATCGCTACCATGTGGGGGGGTTCGATACAATACAAAACACCCATGTTATTTG
+CTGTAGGGTTCATCTTTTTGTTCTCCATAGGAGCACTCACTGGAATAATCCTGGCAAATT
+CTGGGCTGGCCACGGCCCACTTCTCCCTCCGGTGCGCACTCCAATCCATAATACAACCAG
+ATTGAGCGTCTATCCCGACC
+>ds2020-328_51
+ATTGCAAAAGAAAGGGCTTGCTGATAGAGCGGGGCGGGGAGGCGATACTAGTTATCAGGT
+CAGAGAGACGCCTGGCCCGTAAGCCGGCCCCCTTAAAACCCCATTACTTAATAAGGATTT
+GTTACGCGCGATATGCCGACGACTTACTACTGGGAATCGTGGGTGCCGTAGAGCTTCTCA
+TAGAAATACAAAAACGTATCGCCCACTTCCTACAATCCGGCCTGAACCTTTGGGTAGGCT
+CTGCAGGATCAACAACAATAGCTGCACGGAGTACGGTAGAATTCCCCGGTACGGTCATTC
+GGGAAGTCCCTCCGAGGACGACTCCCATACAATTCTTGCGAGAGCTGGAGAAGCGTCTAC
+GGGTAAAGCACCGTATCCATATAACTGCTTGCCATCTACGCTCCGCCATCAATTCCAAGT
+TTAGGAACCTAGGTAATAGTATCCCGATCAAACAGCTGACGAAGGGGATGAGCGAAACAG
+GGAGTCTACTAGACGGGGTTCAACTAGCGGACACTCTTGGAACGGCCGGAGTAAGAAGTC
+CCCAAGTGAGCGTATTATGGGGGACCGTCAAGCACATCCGGCAAGAATCAAAGGGGTATC
+TTACGTCTATCCCGACC
+>ds2020-328_52
+GGTCGGGATAGACGTTTGATCTACATGATACTTATTATGTGGTTGCACATTTCCATTATG
+TACTTTCTATGGGAGCCGTTTTTGCTTTATTTGCAGGATTTTACTATTGGGTGGGTAAAA
+TCTTTGGTCGGATATACCCTGAAACTTTAGGGCAAATACATTTTTGGATCACTTTTTTCG
+GGGTTAATCTGACCTTCTTTCCAATGCATTTCTTAGGGTTATCGTGTCTGCCACGGCGCA
+TTCCAGATTATCCAGATTCTTACGCTGGGTGGAATGCCATTAGCAGTTTTGGCTCTTATA
+TATCCGTAGTTGGGATTCGTCGTTTCTTCGTGGTCGTAACAATCACTTCAAGCAGTGGAA
+ATAACAAAAGATGTGCTCCAAGTCCTTGGGCTCTTGAACAGAATTCAACCACACTGGAAT
+GGATGGTACAAAGTCCTCCAGCTTTTCATACTTTTGGAGAACTTCCAGCTATCAAGGAAA
+CCGTGAAGTAAAAGAAGAAAAGGTAGACCACTAATACTAAGAACCTAACAGAACAAGCAA
+TGCCCCATGCCTTTCTTGGTTGGACCAGCCCAACCGGCGAATTACGTCTATCCCGACC
+>ds2020-328_53
+GGTCGGGATAGACGGGGCAGGTGCATGCGTCGCTTCTAGCCGGATTCTGACTTAGAGGCG
+TTCAGTCATAATCCAGCGCACGGTAGCTTCGCGCCACTGGCTTTTCAACCAAGCGCGATG
+ACCAATTGTGCGAATCAACGGTTCCTCTCGTACTAGGTTGAATTACTATTGCGACACTGT
+CATCAGTAGGGTAAAACTAACCTGTCTCACGACGGTCTAAACCCAGCTCACGTTCCCTAT
+TGGTGGGTGAACAATCCAACACTTGGTGAATTCTGCTTCACAATGATAGGAAGAGCCGAC
+ATCGAAGGATCAAAAAGCAACGTCGCTATGAACGCTTGGCTGCCACAAGCCAGTTATCCC
+TGTGGTAACTTTTCTGACACCTCTAGCTTCAAATTCCGAAGGTCTAAAGGATCGATAGGC
+CACGCTTTCACGGTTCGTATTCGTACTGGAAATCAGAATCAAACGAGCTTTTACCCTTTT
+GTTCCACACGAGATTTCTGTTCTCGTTGAGCTCATCTTAGGACACCTGCGTTATCTTTTA
+ACAGATGTGCCGCCCCAGCCAAACTCCCCACCAAACAACGTCGTCTATCCCGACC
+>ds2020-328_54
+GGTCGCGAAAGCCGCTCCGTGCTCTTTCATTAACTGATATAAATATCGGCTAGTCTACCA
+TATTTTTTATTGACAGAAAGATAAAAGGATGGCTCCATGTGCTCTGATTCATTATGTGGA
+TTCATCCAGGAGCACTACCAAAGTGTTTCAAAGAAGGGTTATCCTGACGTAGGTCTGCTT
+CTGGCCTAGATCAACTTAAGTTAAATGGAGTTTCTATCGCCCTGCTTGAATCAAATATGA
+AACTTCATACACCTTAAAGTTCATAAGATAGGACGAAAAGAGAGTTTTTTTGAGGTCCTT
+ATACTCATTATGCCTGGCATTGAATAGACAGGTAATTCGCCTTATCAATATCTCAAATCA
+ATGATGGGTTCTATATTGGCACCTAAATGGGAAACCGAATCGGACCAAACCCTTTGTCAG
+GCTATTGTTCTCTTGTTTTGTTCCCTAAAAGTCATAGAGTAAGACATCGATTTATCAATA
+AGATCAAATATTTTTTTGATTACATGATGGACTCCTCTGAAAAACATTGGCGCGCGTGTA
+AACGAGGTGCTCTACCTAACTGACCTATGGCGTCTATCCCGACC
+>ds2020-328_55
+ATCTAATACACAGCAACGGCCGCCACTATGCCTTTCGCCTACCTTTTCACCGTCCGGTTT
+CTCCTAAAGCTAGAATTACGGCTGCCAGGTTTGAACCACAGCGTCTGCCGACTAGCCTAT
+CACGAGATCTGCCTTATAGTGTCCAGTTCGGGTGGGATTTTTGTTGTTTTAAAATGTTTT
+TGTGTTTTTCTGGTTTTTTAAATGTTTTTGATTAAAAATTAATATCCACATGGTGGTTGA
+GGGTCAACCGTATAGCCACTGCCTGTTAACGTCAAGCTCATATCTACATCATCACCATCA
+TCAAATGCTATTGTTGAACAGAAATAGGTAGTGGCGGCCGTTGCTGTGTATTANNNNNNN
+NNNTCCGCTATTACTCCAGCTACCTGATCAGCCAAACTGTCGGTATATCCACTTTCCCAG
+GTGAAAGCCGATGCTTCAGAGAACTCTGCTTCTAGCTCAGTAGCAGTATAATCTTCCTAC
+CTCTAACTGTTAGTGGCGGCCGTTGCTGTGTATTAGGGATAGACGGAAAATACTCCTGGT
+CCGTCTATCCCGACCAGGGCCTGATGACGTCTATCCCGGCC
+>ds2020-328_56
+GGTCGGGATAGACGACCAGGTCTGGTGATGTTCAGGTTTGTCATAAATTACAGAATTTGC
+AATAGTTTCTGGTTAAATTTGGATATCGGGTGTGTGTTTATGTTGCTGTCATTTATAATA
+CTTATTGATCATGATCATGATGGTGCGTGGAGATATATACTATAATATGTATGCAATTAT
+AAAACCACTGGCTAGGAGACGTGTATTTAAGATGATCAAAGAATCTTTNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNGGTCGGGATAGACGTATTTGAGGTATTTATGTTCATGT
+CTTTTATAGTTCTATTATGATTGCCTCAATTTTGTTTGTATTTGCAGTGGGATGACTGTA
+GTTACATCAAAAGAAAGAAAATTGAAAGATGAAGACCTGTCTAGCCCAAAAAAGAATGTT
+ATTTCCACACCAAAGAAGGATAAGGATAGACTTGCTAGGCGAAGAAAAGTAAACAAGTGG
+AGCTCTTTGGAAGAGGACACCTTGAGGGCTGGTATAGAGCAGTATGGAGTAGGACGTTAG
+AAGTTAATCTTGACTAGCAACCAGGACCGTCTATCCCGACC
+>ds2020-328_98
+AACGGCCGCCACTCTTGGGTGTCTATGTAGTTAAGCACGCTGTTCATGAACGTAGTGAGT
+CGCCACCCCGATAACAGGGTCCCCTTAGCGTTGTACTCCATTTTCAAGCCTTGATTGTCG
+TGTACTATTACCCTATCCAGTGAAAGCCGAGTCCACTCCACAGCTGCTAGTTGCTCCTGA
+GTCAGGAAGTGTCCGAAAGTATCTCTGTACGCATCTATTACTGCTTTCATAGATTGTACA
+CTGTGTTGACTGTTGAAATCCTCGAAATCTACACAATACTGAGTCCTGCCTTCTAAGACT
+GACCTTACTCTACTGCGGACGTTCTCATCGTTGGCTGCTTTTCCCACCGGGAACGGCGAG
+GGCAATACGTCCTCGCAGTTATAGAAGGCGAAATGTGCCAATACGTAACTAGTGACATCT
+GTCCCGTAGATAGCGCGGAGTTTACGTCTATCCCGACC
+>ds2020-328_99
+GGGCGGGATAGACGCTTGGTGATACTTACTTCACTTCGTGAGGAGGTGAAGGACGTAAAG
+GGAGACTGGGCCTTATGCAAGGAAGCTGTCTTGAACAAGACCCGGACTCCGAAGGAACCC
+AAAGTGCTGGATTCTTTCAAACCCAAATCCTATAATGGGAAGAGGGAGGCGAAGGAGCTA
+GACACGTTTTTGTGGAATATCGAAAGATATTTCAAGTATCTGAAGCTCGAGGAGGACGAG
+CCGAAGATCAACACGGCAACATTGTTTCTCACCGACAATGCTCTCATGTGGTGGCGACGT
+CGATCCATGGAAATCGACCAAGGTACGTTTGTACTAGACACTTGGGATGCATTTAAAAAG
+GATATTATGCTGCATTTCTATCCAGAGAATGCCAAGTATGAGGCAAAAGAGAAGCTGAGA
+TGGCTAAAGCAGACGGGGATGTTCCGTCTATCCCGACC
+>ds2020-328_100
+GGTCGGGGTAGACGGCGAAGAGAGCTACGCCACAATGAATGGTAACAGATGAATTGAAAC
+TAAAGCGACGGGTGTCAATTACCAAAAACGACTCGACCACTAACTCAGTCCCGCGGGTAA
+CACAAGGCCGAAGATGGATGCGAAGAATATTTGAAACCGCTCTCGAACCATCACACGGAT
+TCCGATCCAACTGCCCATGATATGGTAAGAACGAAATGGAAAGGCAAAAAAACGATTCTA
+TGCGCAGACGTGAAAGCTCTATCGATAGAAGCATTCTAGCCTATTTTGATTTAGAGAGGA
+GCGATTCCCTCGTCTGAGAACCGCCATTCCCGCACTATTCCTCCCCACTAAAAAGATTGA
+TAATCTCGATAACCAAAACAAAAATGCAGAAGTGAGCGTACCCCACTCCTCTCTCCCCCC
+TTTTTAGCCAACCCCAAATAACGTCTATCCCGACC
+>ds2020-328_101
+GGTCGGGATAGACGGTCGGCTGGCTTGAGAAGGAGGTCGGGATTTTCCATTATCAGAATA
+ACAGAGCTTTTTTTGTTTGTGACAATCTGGAGGAAGCTAAATGGTGTGCTAGGGTGGGAA
+AGGTAACGATGGAAGGTTCTTGTGACTTGCTCCTGTTCGCTTGGAAACAAAGTCTGGAAA
+ATAATATGAGGAAGGTGGTGAGTTATGGGGGATGGATTGCAATTACTGGGCTGCCGCTTC
+ATTGGTGGTCCCTAAAATTTTTCAGCCGAATTGGTGAGGCATGTGGAGGGTTAATCGAAG
+TTGATTTGAGGACTTCAAATTTGGAGTATTTGATCGACGCAAAATTAAGAGTCAGACCTA
+ATGAAATCGGTCTTTTACCTGGTGACTTGAGAATTGCTGATAATGGGGAGGTTCACGTCG
+TCCAAATAAGGCCTTGTCGACGTCTATCCCGACC
+>ds2020-328_102
+GGTCGGGATAGACGAGAAGGTGGTTTATCATTGGGTCAATAATGCTAATCCCTCTTTTTG
+TGCTACTCCTAGGGCGAGAAGAAGATAAGAAAACGCAAAGCGTTCTCTCCCAACCTGTTT
+ATTTCTAAAGGCTACCCTCTCTCGGCTGGATGTTGGTCCAGCCTACTACGAAGATCCCGT
+ATCCAACAACCCAACCTAAAAAAAGGGCATAAAAGCGCCTTGTCTAGGTTNNNNNNNNNN
+GTTTCACGCCCCAACGTAGCTAGGGTTTGTGTAGAAATCGGTCTTCCCTTATTATTATGA
+AAAGGTTGTTTACTTGCTTACTTATTTTGTTAGAGTAAGGTAGCTTGCTTACTTAGTGCT
+TGCACTAAGGGGAAGGGGCTTTATCGGCTAGTGCGCAGGAGCGCACTTCCGTTTTCCCTT
+TACTAGTAGGGGTTCCGCGCGTCTATCCCGACC
+>ds2020-328_103
+GGTCGGGATAGACGTGCGTTGGATATATTATTTATTCAATGTTTGAAATTGGTATTTTTA
+TGATGCATTGGCATTATTTGGGGATTTTGATATATTTGAGTATCTTGAGTATGCATACAT
+GGATTTTGGAGATTGCCTATATGTTATTGGTTATGTGTGGGGTACTTGGGTTGTTGAGTT
+GAGATTGTAGAAAGGTTTGAGTATAGAATGTCAGTTTGGAGTGCTTTAAGCGCTACCCTA
+TGTACCTCCCCGGATTTGGAACTTGAGATACTTGGAATTGTTAAGACTTGGGGCAACCTT
+AACGGGTTGTAGCCGAGGACCCTGCGGGGTGGTAGTCTGCGCGCGTAGGACTGTTCGCAG
+ACGTACAAGCTTTGATTTGGTATCGGCTGTACGTGCTGGCTGAGAGTTGGTCCCTCGTCG
+TCTATCCCGACCGCCGTAATTCTGATCGGAAG
+>ds2020-328_104
+GGTCGGGATAGACGTGGTAAGTTGCTAAAACAAACGGGAGGGGAGGATCGACCCGTTCAG
+TATAATTCCGAAGAAAGACTGTTGGCAGCAGGTGTTGACATTTATTTTGCTCCCTTCAAA
+AGGAAATGCGGGCGGGGTTAAGCTCGGCAGAGGGTTAATGGGGTAGGGTCCTGCCCTTAA
+GATTCAGATAAGAAAAGAGTTCCAAACCTTTATGCATGCACCTCCGTATAAGTGCTGCGT
+ACAAGTTCCGGCTAGGATAATTGGGAAAGATCAAACCAATTTGAAGCGCTCACATCACAC
+ACAGTAGTAGTAGCGTAAAGGCCGTAAGTCGGGGGCGGCCATAACATAAAGTTATTACTT
+TCACATCTCTCTCTAGATATCTTTAGATAAAAAGAGAGAGAGAGAGAGATCCGCTGCGTG
+AGCAACCCGAACTAGCGTCTATCCCGACC
+>ds2020-328_105
+TCTGAATTACGGCGGTCGGGATAGACGCGCACCCCAACTCTATCTTCCTTATCAGTGAAC
+CGGAAATAGTGCGTAGGTACTCTTCAATGCAAGCGGGGACGAGACGACGTGACATACTAC
+GATGACGTACAGAAGTGCTGCCCTTCGGCTCGGCAATATGGAACCTCTCAACAGCTCCCG
+TTCCTTTATGAGGTCCTATCGGGATAGGTAGGCCCAATCCTTTCCCCTCCCCCTCCCTCT
+CCCTTTGGTCGAGCTAGTTTACTCCCTCTATAAGACCCTATTTATCTTTCCCCCTCGAGA
+AAGAGAAAGAAGAGAATCACTCCTTTCTTTCTTCTCTTCTTTCATGTTGTGAACGGCCCC
+TTCTTGTATCGAAAGGTTTTTCGTGCTATACACCACGTTGAGAAAGACACTTGATCGTCT
+ATCCCGACCGCCGTAATTCAGATCGGA
+>ds2020-328_106
+GGTCGGGATAGACGCGGTGGAGTACTTTGGGATTATATTCCGCGCCGAGGATTTGTGCTT
+GTGGGCTAGGGTGAATATTGCAGACCAGCGGATCTGGTGGTCGACAATCGTTCGGACTTG
+GTAAAGGTTATCGCGGCACCTGTAGTAGGACAGAGGATTTATTGCGATGCCCGCGAACCA
+ATTTACGATGTCTCCGTCGCTGACGTTCGTCAAGCAGGCCACGTGGATTGGCCAGGGTCT
+TCTTCGGCTAATGATACCTCGATCCCGAAGCCTTCGGAGTATCTTTTTGATAGGCGCCTC
+TATCTGTATGGGGAATTCGCTGCTGATAGATCCCGCCCAGTGTCCTCCTCCTTCCCCCGC
+CGCCTTCCGACCCGCGGGAGTATACAATGACAACTTCCGGACACTCATGCCCGATCGTGA
+GACTGCCGGTTCACGTCTATCCGACC
+>ds2020-328_107
+ATGAATCCTTTGTTACATCTGGCACGAGATGATAAAGAGAGAGCTTCGTCTATCAATGAA
+CATCTGATTGACGGAGCTCTTGGCATTGCTTTGTTTTTCTCTCCTTTCCTATCAGCGAGT
+TCCGATCCTTTTGTTCGAAATTTCTTCGTTCGTACCGAACCGCTTGCAGAATCAAATCCT
+GTTCCACAAGATCCTATATCAGCTATACATCCTCCTTGCANNNNNNNNNNGGTCGGGATC
+GACGTCCGCCAGTGCTATGGGCTTTGGCTTATGTAGATCAAAAATGATGAATGGGATTGC
+GGCACTCCACTCGACGCCAATGCGGAAGGATGCCGTCGAAAAGAATGGAACGCTGCTTCG
+CTCTGCTGGATGCGTCGGATCCCGTACAACAAGCGAGCTTTTTACCGTCAAATTCAAACA
+TGTGGGGGCAGCGTCTATCCCGACC
+>ds2020-328_108
+TGAATTACGGCGGTCGGGATAGACGTAGAGGGGCTTTCTCGAGCATGCATACCCTTGAAG
+CTAGCGGTTTGACATAGGTTATACTAGCATTGACGTTTGAATCCCCCTCTTTGATTACCG
+CCTTACCACACTGAGATTCAGTTTGAGAGTTCTCTAGCTCTATTTCTTCCAATAAGCATC
+TGTATTTATTTGGTATGAGTATATGCCAGTGTTGGTCTTCCAACNNNNNNNNNNAGCGTA
+TGAGTGTCCAACCTAATCCCACCATCACCAACAGTCCTACGTATGGCGTCTAAAGTCATC
+TTTTCTAACCTTTGAAGTCTCAGAGATAGTTGTACCGCTTTCCAAGCACAATCACCATTA
+CTAGTAACATGACCCTGGTTCCTGAGAACAAGGGATGGACTACTCTCCAACCCACACTGG
+CGTCTATCCCGACCGCCGAATTCA
+>ds2020-328_109
+TGAATTACGGCGGTCGGGATAGACGCACATACCCCCTCTTGATATTATCTCATCAAACCT
+GTTATTCATAGATCGTATCAACTCTCTGTAGTCGTTTGCTGGTGCCATCTCTACCCTGCC
+ATGTACCGCTGTTGACACAGCTCTTGCCAGGTACTGCGAACTCGTTTTGTAACTCGCCCT
+CGTGTCCACCCGTAAGAACTCACCTATGGTCCCAATATTTGTCTTTGCTAATTGTGCTCT
+TATCCCTGCGTCCTTTGCTCTTTTAGCCAGCTTCACTGCCTGTGCTACGTTTTGCGTTGT
+AGCGTACATGTCATCTCCGTTGTGCAGTGCATAGTTCACGCTACTATCTAAGCCAACGCT
+AACGAGATAAACTCTGTTGAGTATGGTGTTTATGAAAGATGTCAATCTCCACCCACTCAG
+CAATGTTCCGTCTATCCCGACC
+>ds2020-328_110
+GGTCGGGATAGACGCCTGTTCCCCATTGTTTGTTGTGGGTCGCGCCTCACCGCAAGCACT
+GAATGAAATGAGTGGAGATCTTCCTTCCCCCTTGTTAATTACCAAGAACTTCGTTGCCAC
+TAGTGGCGAAGAATAATCCTACCATCCTACCCCAAAACAACTCTGAGCCTAAAGAGAAGA
+GAGTTCAGTCTACAAGAAGCTGGCAGAGCTTTAGCCATTGGACTACATCCATCCATCCTA
+CCTAAACAGTAACCTTTTTTTGTTCGTTCTTCGCATGGCGCGAGTGTAGAGAAATTCCTT
+CCGGCTAATGAAGAGGCTACTCCAATCTTCCCATTCATTCCCAGTGGATCCTTCTTCTCC
+CTAAGAATTGAACGAACCAAGTTCACCTATACGAGAGTGAGGAATAAAAACCAACAATCA
+ACCCGCTACGTCTATCCCGACC
+>ds2020-328_111
+GGTCGGGATAGACGCTCGGAACTGGTATATGGATCTCTCCATGTAGTGGTCGGCCTTCTA
+GAAGCTTCGCCAGAAGCGACTAGTCGCTTCCCGAATGCCTCTTTACTTTAGTATGGTCTA
+GTCTTTCCAATGCCTCCTTCCTTGCCGCCAACGTACGCTACTAGGAGAGTAAGCAAGCTA
+CCTTGCTTGCATTCTAGAAACGGTAGCTTCCGCGCCCTTCCTGCCTGCTGAAATTGATGT
+GAATGATCGTGACAGCTCTTCAAATCCTATTCAGTCTGATTAGATATGTCACTGAAACAA
+TCCGTTCTGTCTCTGTTTTATTTTCGGATTCCGAGGATGAGCCGGCCGATCCTAACATCA
+TTTATGAGGAGCCGGACGACGAAGCCTCCTCCTCAGATAAAGATGTCTCCGTAACGTCTA
+TCCCGACCGCCGTAATTCA
+>ds2020-328_112
+GGTCGGATAGACGCCTACCCCCTCTGCTCGTCTATCCCGACCACTGAGCATGCACGTCTA
+TCCCGACCGCCGACTTCGGATGATCGGAAACACAGGACCGCGAGTTGCTTCGTCGCGCTC
+GGCTTCTAGCAAAAGCATAAAAATGCCGCATTTCGATGCACGCTCTGAAATGAGTACCTC
+TATTCGTATGAGCAGGCTGTGGATGAGGTTAAATCAGCCGGATTTTTTTTGAACGCGTCG
+ATAGGCCATTGCGTCGACGAGGTGGTATACGTTGGGGTTACTCTCTCGCAAGGAGAGTCC
+CATCGGGAAGAAAGCGCAGTAACGCCGTATTAACGCCATGGCATATCTTGGGAGTTTACA
+CCAAGTTATTGTTTTCCGCCTTCCGCTTATAATTTCCCTTTGCATAAGTCACTGGGTTTA
+GTTAGTGGCGTCCGTT
+>ds2020-328_113
+GGTCGGGATAGACGCCGATAGCGGGTTTCTTGATTGCCTCTACATCGGGTAAATTTGGTT
+AATTCTTTATTTTATGTGGTGTATCCGCAATAATATCATACCGTTTCTTTCGATGGAGAA
+GGGATCTACCTTCTTATATTTTTACATCTAGGATCGGACTTGTATCATTGGTACTAATAG
+GAATTGAACCCTTATGGCAAGAAAAAGTTTGATTCAGCGGGAGAAGAAGAGACAAAAATT
+GGAAAAAAAATATCATTTGATTCGTCGATCCTCAAAAAAAGAAATAAGCAAAGTTCCCTC
+GTTGAGCGAGAAATGGGAAATTCATGGAAAGTTACAATCCCCACCACGTAATAGTGCACC
+TACACGCCTTCATCGACGTTGTTTTTCGACCGGAAGACCGAGAAACTATCGAGATCTTTC
+GTCTATCCCGACC
+>ds2020-328_114
+GGGCGGGATAGACCCGCGGGCGGCCGTAAAATTGTGCTAACATCTGGTGTGGAGTAGTAC
+GTAGATTTCTGAGGGTATAGTTTATTTAATTGAGTGAAATTCCGCCAGTAGTCGTGATAG
+TTGAGAACTGTGATTATTCGCTCGATCAACTCTTTGCCATCACGCTCTTTTTCTTTAGCA
+TCTGCCGAGCACATCTAAGCGCAAAATAGAAAAAAGAACCCGGTTTTAAATTGGATATCC
+TTATTCCCTGTTCCGGGTACAAGTCAAGTTGAATTTTCAAATTTGAATTCAGTGTTATAA
+TTATTCAAATCCATAAATTCACTACGAAACAAGGCCAGAACCAAGCCCTAAATTTGAGAC
+TTTGAAAAACTGCAAGTAAACTTAAACTATTAATCATATTAATATTACACCCTGAAAACG
+TCTATCCCGACC
+>ds2020-328_115
+GGTCGGGATAGACGTAAGCACTGGTTCCTCCATAAGTGCCTTCTTCAACTCATTGAAGGC
+ATGCTGGCATCGGGGCGTCCACTCCCACGCCTTGTTCTTCTTTAGCAAATCCGTCAAGGG
+GGCCGCAATGGCTGAATATCCCTTGATGAACCTGCGGTAGTAGTTAACCAATCCAAGGAA
+TGACCGCAACTCAGGTACCTTGGTTGGTGGCTCCCATTCTTGAATGGCTCGCACCTTGCC
+CTCCTCCATGAGCAACTGTCCACCCCGTATCTTGTGACCAAGGAACTCCACCTCATTTTG
+GGCAAACGAGCATTTCTCCTTCTTCACATATAGGTTGTTCTCCCTCAGAACTTTGAACAC
+CTGATGCAAGTGCTCGAGGTGCTCCTCTAGAGAATTGCTAAACACGCACCAACGTCTATC
+CCGACC
+>ds2020-328_116
+GGGTCGGGATAGACGTTCCACACCCTTTCCCCCATATGACCGCTATCAAAGAGAAGCTTT
+TTCCTATACTATAGTTGCAAGTCTATTGTTGTGTTTTGGAATTAGGGGAAGCAAAGCTTC
+AACAAGTAGAAGCTTCCTGGCAAAGCTTCAAACAAAGAGGTTGGGCTGTTCACTTCATTG
+ATTTTACTTAACTTTGCTTAAGATTAAAGATAGGGGCCGGGCGGGCAGTGAAGGCTCGTT
+TAGTAGACAGCACGGCTTTGACGAGCAGCAAGCACCTACTCCTAACAAAATGAAAAGCAG
+CAAGCGGAGCGGAGCTTGAAGAAGCGAGCCCCTTTCAGAGAAAGCCATTGCGCGCTAGCC
+CCCTGTATGGGGTTCCAAACCTGCGCACCCCTAAACTACAACCAGCGAAGATCGTCTATC
+CCGACC
+>ds2020-328_117
+CGGTCGGGATAGACGCCTTCCCCCACTTCCGCAAAAGGGTGACCCATAGAACGATGGATT
+AGCGGGCTAGGGTAGGGATGGTACTTCATTTAAACAGTGACATTGCTCATGGATTTGAAC
+AGCAATCCTAGATCACACCTATATGAAGCCTTGCTGCATCTCTAACTTCCTGCCTCGTCA
+TCCCAGGCCACCCACCCTAACCTAATGGAGAAGATTACTGGGCCACTCTCTGCAGGTTAA
+CTCTGGTTGGCCAGTCAAAAGACACACGCTACCATAACAGAACACTTAATTAACATCAAC
+TTGGGCAGCTTCACCCCGGAAAAGCATTGGAGTCTTTCTTTTTTGATGATCCCCGACCCG
+ACTCCGAAGTCTTCTGCGTGCATTATTCTGCCCTCAACAACTCTTTTCCTCGTCTATCCC
+GACC
+>ds2020-328_118
+GGGTCGGGATAGACGTGTGCGAAGATTGCATATTTGGAAAACAGAAGAGGGTCAGCTTTC
+AGACAAGTGGCAGAACCCCAAAGAAGGAAAGGCTAGAGCTTGTTCACTCTGATGTTTGGG
+GACCAACGACCATTTCATCCATTGGTGGGAAACACTACTTCGTGACTTTCATCGATGATC
+ACTCTCGGAAGGTATGGGTTTACTTTCTAAAGCATAAGTCTGAAGTGTTTGAGGTTTTCA
+AGAGATGGAAAGCTATGGTTGAAAATGAGACAGGTCTGAAGATTAAAAGGCTCAGAACCG
+ACAATGGTGGTGAATATGAAGACACCAGATTCAAGAAGTTCTGCTATGAGCAAGGAATCA
+GAATGGAGAGAACCGTACCAGGTACGCCTCAACATAATGGTGTAGCTGAGCGTCTATCCC
+GACC
+>ds2020-328_119
+GGTCGGGATAGACGGAAGCTGCCCCTGAGTGGACGAGAAAGAAAGGATTTCTCGGAGCAA
+CCCCCCAGGTTCCAGACCCAGGAGTCAACTTTCCCGTATGAGCATTCGGTACATGTATCA
+GTCCGTGGAAGAGTGAAAGGGTCACCACTACTGAGGATCTCCCCCCTAATCTTAGATAGG
+TCGTCTGAGGGTTCGCCGCGGTTCATTGCTGTGCTTACACACTAGGCTACCCTTCTCCGA
+AAGCTCCGCGGGACCACCTACCACTAGTCTTCGGCCGGAGGGGTTTATTGCACAAAAACG
+CCGGGACGCAGGCTCCCGAAGAGGGAAGCCCAACGAATGTCAGATGCAAAGCTCCGCACC
+TCATTAAGATCATATTGGCATACTCTCCCAAAAAAAAAGAGCAGGCCCCCGTCTATCCCG
+ACC
+>ds2020-328_120
+GGTCGGGATAGACGCGTTGGCTGCCTTCGAGACTATAAAATATAACCCAAGTGGTCTAAC
+CCCCCGGGGCGGACCCCAACCGAAAGGCGCTAGACGGACTAACGGCAAGCGAGATAAAGA
+AAGCAGCTGGCCCTATGGAACGGAACTGGTTGCTTATTTACTTTTAGTAAGACCACTTTG
+GTAAGCAAAATTAGATTATATAGGCATGGTTGCTTACAAGACAAAAGATCTGTTCTTTGC
+CTGAACATATAGAGGAAACAACCTTCTATCTGGCCTCTGTACCAGTAGTGGAGTGGCTTG
+CTACTTTCAATCAGAAAAGGAAAATTGAGCAAGGCAAGGGAGAAAGAAGTTGTCCCATCT
+TCTCTGGTAACCCGCCACCGCATATGTCGAAAAAGAGGGAGCCGTGTCGTCTATCCCGAC
+C
+>ds2020-328_121
+GGTTGGGATAGACGACCGGTTGGGCTGCAATCTCCGACAGAATTGCCATTCTCTAACTGC
+TGACCATTATCCCTGTTTGTCAGGCCGTACATAGCTAAGTCTGTCGACATGTATCTGTGC
+TTTCCATTGAAGTCTACAAATACGTGGTCTATAAACGGTATGATATGCGTATCGTTGTTG
+AATACCGCATGGTAGCCGTCTGAAGCGTGCCTGTCCAAACTGATGTGACCTGTTAAAAAC
+GGAACGTTCATGCCATGTAAGACATCCCAGTTTGCCTGTTCTATCCAGTTCGGCATTGGT
+GCCTCATTGAGCCTAGCGACTCCAGAGGTATTTTGCCAATTGTCAACCGATGGCTTAATA
+ATCCCACCGCCGTCAATATCAGGGTCTTCTCTGGCGAAATCGGTCCCAAGCGCGACCGGT
+>ds2020-328_122
+GGTCGGGATAGACGCCCGCGACTTCTCTCTTTATGAACGGTGGGGCAATTCCTGGAACCT
+TTTTAAGGGTTTTTTATCAGGAGATATGGAAGTCGAAGGGTTTCTTGTTTCTGATCCACA
+ATTCTTCGTTCCACTTACTGGAGTTCTTCATATGAAGAAATTGATAAGTGATGCTGGGAA
+GGTCCTTAGTGTTAAGGATTTACTCGAAGAACAGCGCGCTCTTGTTGCTTTAAAAATGCG
+CGAACAGATTGCTGAAAGGGAGAAAGCTGAAAAGAGTCGCCGAGAATATGAGAAGGCGAT
+TATTCAACTTGCTGCTTGGACTAAAGCACATCCAGATGCTAAGGTTCCAAAAGGGCTTTC
+CGTGGAAGAACCACTGATGCCGGACGTTGTCAAGAAAGTGACGACGTCTATCCCGACC
+>ds2020-328_123
+GGTCGGGATAGACGTCCACTCGCCCTAGCACACTCTCAACTTGTAGATGCGAAAATCCCC
+CCTTCCCACAACAGAACAGAAAAACCAACAGAACACGAACACCAGCACGTATGAAAGCAG
+ACCTAAGGAGCGGGCAACTATCCAATCTTCACTCAAATGGACTTATTTCCCTTCGTTAAC
+TACTTCAAACGGTGTAGCTACCTCGGCTCCATGTTGGGACAAAGAGCAATAACCGTGCTT
+ATCCTTCTAATAAAGAAACAAAAACTTGCCTAAGAAACCGATTCACTCATTACTCCTACT
+ACTAGTATAGAAGAAGATCTATTAACGCGCATGGCTACCTATATAACAGGGGGCCTCTGA
+CCTCTGTCTCACAACCGAAAATAGAACCTGTAGCTCGCACCAGCGTCTATCCCGACC
+>ds2020-328_124
+GGTCGGGATAGACGAGAAGTAAGGATTCGAGAGTCCAGGCTGAAAATACATGCATAGATA
+GTGGTCTAATGACAAAGGCCGACGACGGAAGCTCGGGACGGAGCCGTATGATGCGGAAGT
+CTCACGTACGGTTCCCTGAGAAGGGAGTGGCTACCTACTGGAGCTTCGACCAACCACCAC
+CGGTCAATTCCGCTTTGGGGCCACCCCTTACTCTACCATTATTATAGGGGTATGGGGTTC
+GAGACAAAGAAAGATCAAGGCAGCATATCAGTTTTTCCTTTATACTTTACTTGGATCTGT
+TTTTATGCTATTAGCTATTCTGTTGATTCTTCTCCAAACAGGAACCACCGATTTACAAAT
+ATCATTAACCACAGAATTTAGCGAGCGGGCGCGTCTATCCCGACCA
+>ds2020-328_125
+TGATCGCCCCCTCGGATTCGTTCTAGAACTTTCTATGCCCCCTTGTATAGGTTGGGCGAA
+TCCACCGACTCACGTCGAATACGAACGCCTCTCTCGACAAACTAGCCCACGTCTTTCTAT
+CGGACTAGACCGATAGAAGTAGCTTGGGTCGGGATAGACGCCCCACTACGCTGCCACCAT
+GTGAGAGTCGGTGCGTAATGGATCTACGCCTGCCTTCGAAAGCTCCACTCCTGTTTACCA
+GGATCCTGGAACCATTCCTTGATTGATTGAAAATCACGAGTCGAATTTTTCTCTACCTAT
+TCGACTATCAAGCTCTTGACACCCTGTTTAGCCTAGCGCCCTCCTCCTCTTTTGTTCGCT
+TCGCTCTCCTCCCTCAACCAGGCAAGTAACCCGTCTATCCCGACC
+>ds2020-328_126
+GGTCGGGATAGACGTATTGGCATGTTGCTTTTTATAGACGCCCAGCCTATGATCGTAAAA
+GTGCGGTCACCATCAATCATGAGTTTGAGACAGTTGGATGTCTTGGTGGTGCCGTATGAG
+CTCCCTGTGGTGAACTCAGGTTGCTTCTGAGCAAGCTTTCCCCCAGGTTATGTCATACCC
+ATATAAACAAGGTAAGAAGGGAAAGGAAGACTTTGACTACTAGGGTAGCTGGGCCAACCG
+CTAATAGATCAAATTAAGAGGGAGTGAACGACATATAATATAATCCGAATGGGAAGTTTT
+GAGCAATCGATTCTTTCTCATGTACGGCTAAACCTTGCAGTTGCAGGTAATTTGAGTCTG
+GACCCCCGAGTGATGGTAAATCGCCGTCTATCCCGACC
+>ds2020-328_127
+GGTCGGGATAGACGGGGGGTTTGTCTACGCCGGAACGAGTCTGTCTTCGGACGGGCTCGT
+TTTTGTAAAGGAAAAGGAGTGTTGAAACCGGACGCGGCATGTCTTCTAGACGATCGCGTT
+GAAGATGTGGAGAATAAGAGCTACAATTGCGTTCCTCCCCCTGCATGTTTGATGTAGGGG
+AGCTGAGTAACTATGTGACCAGCTTCGCGTATGTAAGGTTCATCCAAGTACAAAGCAATG
+GGAGACTTCGGTCGACCGCCTTCGGGTTACCATTGTGGATTATCAGTTCGGCTGGGTCCG
+TGCGTCATAGGGACGAAAGTATTGCGGTGTGTTGTCTTCGGACATTAATGGCGGATACAC
+TTCAACGGTGCTATCAAGGACAAGTAGTGGCGGCCGTT
+>ds2020-328_128
+TACAAACGGCGTAGTCGATGGACAACGGGTAAATAGTCCCGTACTGAAATTGATTGGTGC
+AGAGGGACGGAGAAGGCGGACATCAGCCGGATGTTGGTTACCGGTTCAACTGTGTGAGGT
+GATGAGAGGCGGAGAAAACGCTTTGAGCCGAGCCAGGNNNNNNNNNNCGAGTCCCTACGG
+GGGCGAAGTGGTGAAGTCATGCTTCCAAGAAAAGCTCTAAACACCATAAATCAATTTTAC
+CTGTACCCAAAACCGACACAGGTAGGGAGGTTGAGAATACCAAGGGGCGCGAGATAACTC
+TCTCTAAGGAACTCGGCAAAATGGCCCCGTAACTTCGGAAGAAGGGGTGCCCACAGCAAT
+GTGGGTCGCAGTGAAGAGATCCAAAA
+>ds2020-328_129
+GGTCGGGATAGACGCCCTTCTTGCCTGACTCCTGTTTTGTTTGCTTGTTTTTAGTGTTCA
+TCTGAACACCGCTTGTCGACAGGCCTATAACTTACTAGAATGCACCACTGCACACTCGCG
+TAATTAGCTTGCCCTCCTTTACACCCAAGTCAGTGCGTAGGATCACTCTTACACTGAAAC
+GCATTTCGCTCAACCTGAGGTCATAATTCAGGTGTCATGACTAGTGCGATAGTTACACGG
+AGTACGAAATGTTACAGTACATTTCGTAGGGCCAGATTTTTGTCACGCCAGGCTGGCCAA
+ACCCCGACGTCTTAGCTTCTACTATAGGTTTTTATCGCCGCCACTGCTGATAGCACATCG
+CCGCACAAACCGCGTCTATCCCGACT
+>ds2020-328_130
+GGTCGGGATAGACGAGCGCTACCGGTATAGCACCGAGAGGATCATTTGTAGGCATATACG
+GGTCATGCGGAGTCACGGTCATAAATAATGACGAAGAAAGAGAGGCAACTGTACCATACA
+ACAGTTTTGCAGCCGACAGTCTAATAACATCAAATTTCGTAGGAAGTTATTCGCTTGGAG
+GTGGGGGTGAAGAGCAGGCTCCTGAGCTCAGGTGTACACAGTATTTGATGGGTGAACCGG
+ACAGAATAGCGCCAAACTCAGCAGCTATAGAAGGCTGTATAGCACATGCCAATCACAATG
+TGGGAGGGTGCTTATAATGCATCTAACCCGCTCATTGATTAATTAATTGATGAAGCCAGT
+GCTCCGTTTCGTCTATCCCGACC
+>ds2020-328_131
+GGTCGGGATAGACGCGACGGTTCAATCACCCTAGAGCTAGAGGGGAGGCGATCTCAATAC
+CCGCTTTTTCCATGCCACAGTTATTAGGCATTAGGCGTCGGGCTCGAAATAGAATCGTGT
+TGGATTTCACACTCTATTTATCTGGGAGAAGAGGCGGTCTAATCTTAATTAGCCTTCGCA
+TTCGCTTCTGAACTCAACTATAAGTAATCAGTACAGTTAGGCTTTCCTACCGCCGGATCC
+TACCACCGCTTTCTTCTAAGATTTCATCTTGCCTATAACAACCAGGGTGTACTTGATTGG
+CTCTTTCTCGGCTTGACTAAACCAATCTATCAACCTTAATGCCCTGCCTTTCCGTAGTCC
+ACCGTACCGTCTATCCCGACC
+>ds2020-328_132
+GGTCGGGATAGACGACGCACCACCATCAAAGAAACCTTACCACTACTCATCTCCTCCTCC
+TCCTCCTCCACACAAGAAGCCGTACCACCCAGTGCATTCACCACCACCACCAAATAAACC
+TTACCACTACAAGTCTCCCCCACCACCCACACCCTCACCACCTAAGCATCCTTACCACTA
+CAAATCTCCACCACCACCCTCACCATCACCCCCTAAGCACCCTTACCACTACAAGTCTCC
+CCCACCACCATCACCTTCACCACCCAAGCACCCCTACCACTACAAGTCTCCTCCACCACC
+CTCACCATCACCACCCAAGCATCCTTACCACTACAAGTCTCCTCCACCACCCTCACCATC
+ACCACCCAAGCATCCTTACC
+>ds2020-328_133
+GGTCGGGATAGACGAAGCTCTCTCTTTATCATCTCGTGCCAGATGTAACAAAGGATTCAT
+CCTTTTTCCTTCTCGCGAACCACGGGAGCGCCTAGTGCCCAGAGGAGCAAAGCAAATTTT
+CCTTTCGGGGTAAAGCGGCGCATAAAAAAGGGCTGGCCCGTCAAAAGCCCGGTTCCTTCG
+CGAACGAAGTTCAGAATCAACAAGGGTTCGTAGAACGAAGGGGGTGTACAACTGGCGGTG
+TACAACACCACCACTTTTTTGTTCGTAACGAGGGAGAGATAGAATGGAGTTCTTCACGAA
+GTTCGAGACAAAGGAATAAAAAAGAGTTTCTCTATGGCCTCCTCGTTTTGAGACAGTCTG
+TTGGCGTCTATCCCGACC
+>ds2020-328_134
+GGTCGGGATAGACGTCCGTCAGGGATAAGCGTTTAGGGGAAGCCGGCTATTCCGGTAAGC
+GAGTAGTCCGTTATGGACCCCCCCTTACCCCACTTTTTTGTTCTTGACCCTTTCCGGCTG
+TGTGCCCTTAATCTATCTTAGCTGGGCCTTCCCGACTTTCCTTACCAAATCCCCTTTTCA
+AATCTTTTCCCCAAGTGATGGCTAGCCCGAGAATATCCCCATTTGCTTTATTTTATTGCC
+CCGGATCCTTATTCTTCCCGAAGGAACCCTATCAAACCTACTGGTAAAGGGAAATGGCCC
+TAAGCGTCTATAAGGAAATTGTCTTTACATACCTAATACCTAATATGACTTAGGGATCGA
+TCGTCTATCCCGACC
+>ds2020-328_135
+CGGTCGGGATAGACGGGACCGCCCCCTACTACCCAATTCCTGTCTTCGGAACTACGAAGA
+TAGGTTACTTTCTGCGATGGCCCTCCACCTCGTTGGGAAAAGTAAAAAGAAATAACAAGC
+CCTAAACTAAATATCAACTAGCAGCTTATCAACCACCGAACACAGACTCATGTTGGCGAT
+GCCATGGTCAAGTAAGAGGACGACCCATTCACCTCAAAAGAAAAATCTCGCCTCTCAAGT
+AAGCCAAACGATTGACGTCAAAGAGAAGGACCACCCACCCAGCAAAGAGCGAGGTCTTTC
+AGCAATGAACTTCACAAAAAGAGTGGAAGGCGAGAAAGACACTTAGACAACATTAGAGGA
+TCTTTTGTTTTTA
+>ds2020-328_136
+GGTCGGGATAGACGTCAGACGGTTCTTCAGCGTCTATCCAGACCGCCGTTATTCTAGCAA
+CGGCCGGCACGTTGGCATTCCCCTAGACACTGAATCGTCCAGACGCGACTCCAGCGCTTC
+CAAAAGGTCCCTCATATCGCTTGAAGGTTTTGACTCTATCCTCGAGTGTACCAAGGTTGC
+CATAGCTCTAGATAGATACTGTCCCTTAGACCCACGTTTGTGGTCTACGCGTAGAAACTC
+TGCTATGGCCCCATACGCACATTTGCTCATCTGCAGGCGTATGTTGTGCTTCTTGGCATT
+TTTGCCAGCTAGCAACACGTCCTCGAGCGAATTACTTCCCAGTAGCACGTCGTCACCGTA
+GTGGCGGCCGTT
+>ds2020-328_137
+GGTCGGGATAGACGAAAAATGAACCTCTCGGTGCTATACCGGTAGCTTTTTCAATCCTCC
+TTTTAGCATTATAAGTAGCATCTTCCACCAACACGGAACAGTCTGCATAATCCATTGTAT
+TTCCACAGTTTAGACCGCATCCTGCATAAACATGTATGTATCCTGGTGTAATATTACTAC
+CGCTAGAATCGCTAGTATTATTTGGTACGTTTATTGCATTCGTGTCCATGCCTTTCTTAG
+TAATTGGCCTATTATGTATCCTCATGTTCCCTGACCTGCCGTGATCAATACAACTCTTAA
+ACTTTCCCATGGCATCTCCTCTAATGTCAGATAACACCTCAATACTGGATGGATACGTCT
+ATCCCGACC
+>ds2020-328_138
+AACGGCCGCCACTACTAATTCTGCCTACTCGCCGGGGCGTAAATTTTGCCCCGGCGGGGG
+GGTATAAGTAACACGCTTGAGCGCCATCCATTTTCAGGGCTAGTTCATTCGGCAGGTGAG
+TTGTTACACATTCCTTAGCGGATTCCGACTTCCATGGCCACCGTCCTGCTGTCTAGATGA
+ACCAACACCTTTTGTGGTGTCTGATGAGCGTGTATTCCGGCACTTTAACCCCCCGTTCGG
+TTCATCCCGCATCGCCAGTTCTGCTTACCAAAAATGGCCCACTATAAACGTTTCATTCAC
+CTGTCCACGTTCAATTAAGTAACAAGGACTTCTTACATATTTAAAGTTTGAAAATAGTGG
+CGGCCGTT
+>ds2020-328_139
+GCCGTGGACCTAGTTTGTAAGGGGGTCTAGACTAGGTCCAGCAGAAATGTCACTAGGTCC
+ACGGCTCTCTGTCCGTGAATACGGCGGTCGGGATAGACGTGCCATGGCCATATCAGCAGT
+AATGTAATTCATGGATATGACTTTGTCTTTTAAATTGTACTTACTGTATCCTAAACCGAT
+GGCGTAAGTCACCAATTCCTCATATGTGCATTTTCCGGTGCTTGCTCGAATCAACAATAA
+TTTCAAAAATTCTTTTTCTATTGGTACCTCCTTCCACTCAATGACATTGCTTGCCACTTG
+GCTCAGCAGGGTTTTCCACACTGGCACAGGCATTAAAACTCTTTGCTGTGAGCCCTTTGC
+GATCGGTT
+>ds2020-328_140
+GGTCGGGATAGACGCCGCGCCTCCGTTTGACTGCCGCTCGGGGATGTAGTTGTAGATACT
+TTAGTCTTAGTGGGTCGTTGGCTCCACCTGTTATCTCCTTCTACGACATGCTGTTGTCGT
+CGCCATATTCCATATGTCACTTAGTCATCTCTGCCTCGCTGCGGGTCAGCACCTCCGAAA
+GAAACGGAGGACTTCATTCAGTGACTCCGCGATCGCCCTCTGAACGATCAGAATAAGGTA
+AAGCTTGAAGATAAGTTTTGTACTCTATTAATTTCTCAGTCCCTCTAGTCGGGTGGGCGC
+CGGCCGGTCTTTCGACCAGATATCCCCCTAAAAACCGTACGTGCGGGTCCGACCGTCTAT
+CCCGACC
+>ds2020-328_141
+CGCCGGGATAGACGGAGCCTCACGGTACTTGTTCACTATCGGTCGATTACGAGTATTTAG
+CCTTGGAGGATGGTCCCCCCATCTTCAGACAGGATTTCTCGTGTCCCGCCCTACTTATCG
+TCCACTCAGTTCCACACCAAACTTTTCTCATACGGGGCTATCACCCGCTATGGCCGGACT
+TTCCATTCCGTTCTGCTAGCAATACTGCTAAAGAGTACAAGGCTGATCCCATTTCGCTCG
+CCACTACTTTGGGAATCTCGGTTGATTTCTGTTCCTACAGCTACTTAGATGTTTCAGTTC
+GCTGCGTTCGCTTCCCTTGCCTATGTACTCAGCAAGGGATGACCCATCCATGCCGTCTAT
+CCCGACC
+>ds2020-328_142
+GATCTGAATTACGGCGGTCGGGATAGACGTTGATTTGAGGTGGTGGCGGGGGTTGGAATT
+TCGATAGATTTGGAGGGCATAATTGGGATGAGTCGTCGTCTTCTTCGCCGTCGGATCCTG
+CGTTTGATTTCGTGTACGAGGTGATGTGTTGGATTGCGCTTTCGAATTGCGTGCACTTCG
+CCTTCAAGAGGGTTATTCGTATCGTGGCGGATGGGTTGGGCGATGCGGAGAGAGCGAAGG
+TGCCGATGAGATTGACTTCGGTCTGCTGATGCGGTACCGTTTCGTTCTCAATGCTTAACG
+TATCAAAAAGGGGATACAAATCTGGTTTTAATTTATGTGTTGGTTGGGTTTGCGTCTATC
+CCGACC
+>ds2020-328_143
+GGTCGGGATAGACGGATCGAATTCGTTACGCTCCTTAGCTCGGTAGGGGGTACAAGAGTT
+AGCTCGTTTGGATCGGAGTGAACCGAAAAGGGAATGTATTCAATATGCGAGTAAGAAGAT
+TCATTTATAGGCTTGAAACCTAACTTGTCTGGAGAGCGAAATTAAACAATCAATTAAAAG
+CACATTAATTAGTTAATGCTTAACACTACAGCTAAGGGAAAAAGAAGTTCATCCATACAC
+TTAAAAAAGGAGGTTAATATTCTCATCTTTTATCCTCTTTGGCTAAAAACAGACTGCTAG
+CTTTCAAGATTCCAGTTTTCAAACTTGCCTAAGCTCTCCATAGCTTTACGTCTATCCCGA
+CC
+>ds2020-328_144
+GGTCGGGATAGACGAATTCGAGGTTTGTTCGGCGGCACGATTCGTTAAAATAATTTTTTT
+TTGCGTCGATCTATACGATCGACCCCGGACGTACCCATTCGCCGCGTGGGGAACCGGGTA
+ACCAAAGTCACGATCAGAATAAAAAAGGAAGTTCGCTGGGGAAGTCCGGGGTGCTGGTTC
+AAATCAAGTTCGTGACATGGTAATCTCGATGAGAATAAGAGCGGCCGGTATTGGACGAAG
+GGGAAGCTGCCCCAACCACTACAACATAGGGGGCTCGGAAGGCAAATTTGTTCACTGTCC
+TAGATTCAGAGGGGGCCGTGGAAGAGGGGCGCGGGCCGTCTATCCCGACCGCCGTAATTC
+AG
+>ds2020-328_145
+AACGGCCGCCACTAGTTCGTATTTCTCGGTTGTGAAGAATCACACGAGGGAGCAGTTTGG
+GGGTGGGTCTAAGGTATCGAATCCGAATGAGCGCTTTGGTTCTATTAGGACGAGGTGCTT
+ACTTCCCCAGCTGCGCTATTTACCTCCGTTTGGTGACGATATTACCTGCTGTAGTTCGTG
+AGTTCTCGGGTTAGTATGCGACCCCGTAACCGTTTGGCGTTTAGCTGCTTCACAAAAGCT
+ATTGTCTCGCTTCTACAGTGCCTAGCTGGCGTGCCCTCGCTTAGCACTTGAACGTGTAGT
+TAGGCCGACTTCGGATGATCGGAAACACAGGACCGCGAGTTGCTTCGTCTATCCCGAC
+>ds2020-328_146
+GGTCGGGATAGACGACCAGTTGCTTTGCCGGCGGGCCCACTTAGGTTAGGGGGGGCATTG
+TCCCTCAGTTCTTACCAACCTCCGGTGTGTAATCGACATGTTGCTAGCTTCAACTCGGTT
+GAATAAGAATCATTGATTCCCTATGCTGTCCATTTCTTATTCATTCAGGGCGCTCGGCCG
+GTGCTCCTTTAAAAAACCAAAACCACTCTGAACGTAAGGGAAGATAAGGGAAGACCGCCT
+GAGCGAACCGACCGAAAGGACTTTTGACTTATTTGAACCGAACGATAGCGGCTTAAAGCT
+AAGCCTATCACGAGCAGCGTCGCTGCTTGATCAGCGGTGAGGAGCGTCTATCCCGACC
+>ds2020-328_147
+AACGGCCGCCACTAAATGGAACAGGTACCTGCAGAGACTGTAGAATAGAAAATTACAAGC
+CCTCTACACAGGTATCGCCGACTAGACACTTCTATACGCCAGTAGGAGGTTCCGGTTATG
+ATTGGCATGGCGTAGAACTGGCCACGGCGAACGCATCAGCGTTAAGGTCAAGTAATTACG
+TCAGGCTGCGATTGAGGCCAAACCAGGCGCCGGCGTCAATCGTAGTACTAAGAGCGTCAG
+GCAGAACTGAGAACGCATTAAAGTTAGTAGCAGTCGAGGACAGTACTCACTTGTTTATGG
+GAATGGTTGATGGCGTTTTTGAGGGTGATATTAATGTTTGCGCTTAGTGGCGGCCGTT
+>ds2020-328_148
+GGTCGGGATAGACGTATAAAGCAGCAATGTCACTCCCCCTCAAATCCGACGACGTATGAG
+AGTCGAGATTTGGAGAAAGCAACACCGGTAATGACAATAAAGTTGCAGCACCCAAATAAA
+GTTGCATCTATCTCCCCCTCAAATCTGACACTGGTAGAGGGTCGAGATTTGGAAGAAGAG
+AAAATGAAATAATAGTAAAGAGACTCAAACATGCCAGTCTCGTGGTAGAAACAAATGCAA
+GGAAATGTGGAATGGAGATGGGCATCCGACAACTGGAGAAAAGGAATAAAAGATGGAAAA
+GAGTCTGCAACCCAAACAAAAAGGAGGAAAGTGTAGTGGCGGCCGTTGCTGTGTATTA
+>ds2020-328_149
+GGTCGGGATAGGCGGTGTTGTAGCATGTAGCACTGGGACCTGAGGAACAACATTTGTGTG
+CTGAGGTTGGCGAAAGAAGATTAAATGACGTATCATTTTGGGTTAATGATAGCTTGGGTG
+GAAGGGAGGATGAAAATGAAGTAATTGGTTCCAGCCTAATAAATACAGATTACCCAGGAA
+CAAAATGCGCCATGGTATACAGCTATGTAGAGGACAAATGGGTAGAAATGAGTAATAAAA
+ATTACGGTGAGTATACAAGGAAAAGCTTCCATGGCGATGTGAGACCTAGTGTACCTTTAA
+GGCGAACAATGGAAAAAGAACCTGCACCTGTAACTTGGTGCGTCGTCTATCCCGACC
+>ds2020-328_150
+GGTCGGGATAGACGAAGCCTACTCCTAACAAGTTGCTGGCTTTTCAGCCGTTGCGCGCTA
+GCGTTTTACCTTACTAGTAAAGGGGCTGCTGGTTGTAGCGCGCAGTGTGCTAGTGAATAG
+GAAAAGCGGATTGAGATTACTAATGACGGATGGAGACACCGAAGGTGATAGAACATGTTC
+GGTGCCTCGCTCTTGTCTCCTTCGCCGGAGACTGCAAATGATGGGAATCCTATCGATAAA
+GAAGAGGCATAGGCATCGCCTCTCGATCCAATCCGCCTTCCCCGGCCTCCCCAACACACT
+CTTGATACGAAAAAAACCATCACCATCGTCTATCCCGACCGCCGTAATTCAGATC
+>ds2020-328_151
+TGAATTACGGCGGTCGGATAGACGGACGCGCGAGGTTAAGGTGCCGGAATACACGCTCAT
+CAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGA
+ATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGG
+CGCTTAAGCGTGTTACCTATACCTCACCGTCAGTGTTAGAGCGATGCGCTGACGAGTAGG
+CAGGCGTGGAGGTTGTATCGAAGCCTAGGCAGTGATGCTGGGTGGAACAGCCTCTAGTGC
+AGATCTTGGTGGTAGTAGCAAATATTCAAGTGGAGAACGTTAGTGGCGGCCGTT
+>ds2020-328_152
+GGTCGGGATAGACGAAAGCTCTGCCTGTGTTCTACCTGAGTTGATTTTAATACACAATGG
+TATCATCCCCTGCCTTAACCTGTATTCTTTCCGATTTTTAGTCGGTTTTTCACTCTCAGC
+CACACTTATGAAGCCAAGAGAGAAAGTGTAATCTTGTCCGTAACCCGTTGTTTCGTAATC
+AATAAATTTGCTGTCCGTGTTAGGTGCCGGTATGGGCATCTTATAATTCTCTATTCTGCA
+ATTTCTACAGGAGGAACTTCCGCACCTTCTACTCCCCGCGCATCCACTAGTTGATCTTGC
+GTTTGGCTGGCGTCTAACTGTCTGCTCATTGGGACCGGTCGTCTATCCCGACC
+GATCTAATACACAGCAACGGCCGCCACTACTGATCTTCATCGAGGAGGAATGTGGTGGTA
+GTGGAATAGAGAGCAGACCAGGACTTGAAGGGTCGATTGGGGTGTTGGTGAGCTGAGATG
+AAGTAGAGGGTGTCGTTTTTGAGGATGGGGCGGTCGTGGAAGAGGCTTCCGGGTTCGGAG
+TGTAAGAGTTTGGGGGTGGGGAGTTAGTGGCGGCCGTTGCTGTGTATTA
+>ds2020-328_591
+GGTCGGGATAGACGCGAGGATGCAATTGGCTAAGGGGTCAGGGTTGTTCTCTCTAGCAAG
+CGTTAAGGATTACAAGAGGGAGGCTAAGCGTATAAGCGTCGAGGCAAAGTCTCTGCAAAA
+CCTGGTTGATGTGGATTTGAGGAAGTTCTTTGAATTGGAAGTGCTGGTAAATAGGGTGGA
+CGGTCTTGTCAATTGGGAAGAGGAGCACAAAACGGCGTCTATCCCGACC
+>ds2020-328_592
+GTGCACAGAATCCGAGCAGTACCTTAGGGGCAGGGTTTACCAGTATGAAATAATGCCGGT
+GGTCACACCAGAGGATATGCAGATACTTCTTGATCTGAAGCGCGTGCAAAATTGGGCGGG
+CTCTGTTTATATCGACCAGAGCATCGAGGAAAATAATGGTGTTATTTTGCGAATGGCAGC
+TGGAGCCGGAATCAATGTCTATGAGGGGCCAACGACGTCTATCCCGACC
+>ds2020-328_593
+GGGCGGGATAGACGATCACCTCCTTTCAGTGGGTGTAGTAACATTATTAATTCGGCCATC
+CCATCCTCTTGGTCAAACACTTTGTCAACGTAAGATATTACTTGTCTTCTTACACACTGT
+GACACTTCTACTGAGCCTCCTCTAGCTATTATTTCGTCAAATCTATTGTTCATTGATCTG
+ATCAATTCCCTATAATCGTTTGCAGGTGCCAGATACGTCTATCCCGACC
+>ds2020-328_594
+GGTCGGGGTAGACGCCAAGAAACACTTTGTCGGCTGAAATCTTATGTTAAACAATTCTGC
+ATTCTTCATTAGTAAATTGACTTGGCTCATAGACTGTACAGCTGCCAGGACGTCATCTCC
+GTTATGTAAACTAACAATAGTCTGGTTGGGTAAGCATTCTGAGATATAAATCTTATTTAA
+TAGAGTATTCATAAATGTAGTTAACCGCCTTCCTCCGTCTATCCCGACC
+>ds2020-328_595
+GGTCGGGATAGACGTTTCGCCAAGGTAATCATCTTTAACCATAAGTGGCCACGTCGAAGA
+TGATTCGTTAGGTGCGTAAGGTCGGGTCGCGTTTTCTAGCGCCATCGGGGTTTTAATTGT
+TAGGTCGTACCCACACAGCCTGCTAGCCCAGGCCCAGTGCCATAACTGATATGGCGTCGC
+TTTCCATCCTAATCTATTGCGTTGTAGCTTAGCTGCGTCTATCCCGACC
+>ds2020-328_596
+GGTCGGGATAGACGCTAGTACCTCTTTGCCCAAGGATTGCGAATATGCTTGACTGAGATT
+CCAAGCAAGCTACCTGGGCCTAAAAGACTGCTTCTTGAGCACATGAATATTCAATTGCTC
+CCGAGCCTTCGAGAAAGCCCATCCTCTTTCAATGCCATCTGACCCATCTGTTCAACCCCC
+ACTTCCGGATATTCTAATTCTGTATTTCCGCCCGACGTCTATCCCGACC
+>ds2020-328_597
+GTTCTGGATAGACGGTAGCTGCTTTATCTGTTTTTGGTTTTATTGTTTGTGGCTTTGTTT
+GTTTCTATAATATTGCCTTTCCTAGTGAGTTTTACGGGCCCACTGGACCAGAAGCTTCTC
+AAGCTCAAGCATTTACTTTTTTGGTTAGAGACCAACGTCTTGGGGCTAACGTAGGATCTG
+CTCAAGGACCTACCGGTTTAGGTAAATATCGAATGCGCCTATCCCGACC
+>ds2020-328_598
+GGTCGGATAGACGGGAGGGGGCGGTGAGGAAGGGTCTTTCGAATCTCGATCAAATAGCAT
+AGCACGGGACCGTGCCAAGCTGTAAGCATAGCGAGTTAGGTATGGGCTTTCTTTTAACTA
+CCAGAATCAGCAGTTGGCCTGTTGTTGATCAAAGTCTGGGTCGGCGGTCCCTAGTTATAG
+ATTGGCTTTCGCCTTCCTTTTTCCGTCCAACGCAACGTCTATCCCGACC
+>ds2020-328_599
+TGAATTACGGCGGTCGGGATAGACGTCTCACGGACCTGATAGACGAGCAGCACCAATACG
+CGTCTATCCCGACCAGCCCAAATACGTCTTGAAATAACTCCGGCTTAATCCCCAAAACAC
+CAAACCCAACACCAAATGGAACTCAAATTCACAAAACTATCCTTACATACGATCTGAAAT
+ACCAATGTGCTTGAATTCTCTGAACCAAAATCACACAAACCACATTTCT
+>ds2020-328_600
+GGTGGGGATAGACGTTTTGGTTCCTTCTAAAGGCCGCGCCCTCTCCCGCCCAATTGATGG
+TTCCCTGCTTGTTGAAGCGGGATACCCTACTGCTCATGCCTTGGCTGAGGATTTTGTTGG
+ACTTTCTAAGAAGTACACTAATTTCTATGCCACGTCCGAGTACGCGTCCCTGGCTGACCT
+GGTTGAACACCTCATCCATGGTTTAGCTCCAACCTCCGTATATCCCGAC
+>ds2020-328_601
+GGTCGGGATAGACGTTGGCGCTTAATTAGCTACCAAAACGCAGAAATTTCTCAAACCTAA
+CACAACCAGCAGCTAGAGCTCAAAGAGTAGATGAATTTACATACCTTATGCGTCCAAATC
+GGTTGAGAAACGAATGAGAACGAATGCTCCAAAGTTCTGTCAAAATCCGGCGAATTTTCT
+GCATTTTCCTGCGAATATCGAGGAGTCCAGTGGGCCGTCTATCCCGACC
+>ds2020-328_602
+TGTCGGGATAGACGCGTAGTTGCATTGACAATATATCTACTTTTCAATCCTTTCTCGTCC
+GGCTTTATAAATGCTTTCAAAACATCAGATTTGATTGTATCTAAACTAACCATCCTCAAA
+ACCTCCGCATCACTCAGCGTAATTGCAGCACCCAACTTTGTTCTCATCTTATCTCCGTCA
+ACCAACAACTTAGAGTGAGAGCTAGCACCCAGAGTCGTCTATCCCGACC
+>ds2020-328_603
+GGTCGGGATAGACGGGGACTCACTCTCTCCAATTTAGTGTCCTTTTTATGTGCCCTGCGT
+AAATGGCTGATAAGTATCCTACTACTTAACCTTAATATAATATTGTTAACTTAATAAAAT
+AAAAAACTGAAAAGCTAAAAATTGAAAAACACAAAAACACTAAATCATAGCAGCCACCAT
+TACCAAGTCCCTCCGCCCAGCCAACGCAAAACCCCCGTCTATCCCGACC
+>ds2020-328_604
+GGTCGGGATAGACGAGGGGAAGGGGTCAGATTTATCCCGACGGGAGCAAGAGTAACAATA
+ATGTTTATAATGCTACAGCAGCAGGTATAGTAAGCAAAATCATACGAAAAGAAAAAGGGG
+GGTACGAAATAACCATAGCGGGTGCATCGGATGGACGTCGAGTGGTTGATATTATCCCTA
+CAGCACCGGAACTTCTTGTTTCAGAGGGCGATTACGTCTATCCCGACC
+>ds2020-328_605
+GGTCGGGATAGACGCTCCTGGGTGCTTTTGGGAGTCCAATAATCCCAGAAGAGCGAAAGG
+CGTGATGTACTTCAGGAACGTCTGGGACTCAGCGAAGGCAAGAGCCCCCGGCGATAATAA
+CAGTCTGAAAAGGTGTTTAAATCATTGCACGCTGGCAGACTTTATAAATGTAGTGATAGA
+CATTTCGGTGGAGAACCTCAGGATCAGGTTACGGCGTCTATCCCGACC
+>ds2020-328_606
+GGTCGGGATAGACGGCCCAACGACCTCATTCTCCTTTTCCTTCATGACAACTTTCTCCTT
+CATGGCAGGAACAGCAGCAGCAACATTCTCCTTCTTAATAAACAGTACAATTATAAAACC
+CCAAGCTATCATAATCTCAATAATCATTTGAATTTATAAACCGAAAGTTTGAGATGAGAT
+AAAATGATGCATACATAAATTCAATAGATATAAGCGTCTATCCCGACC
+>ds2020-328_607
+GGTCGGGATAGACGGTAGCAGCGGGTTGAGCTGTCTCAGGATGCCCTTCAGGAGAGCGAC
+CCACATGGGGGTAGTTCACGGGCCGGCCGCTGAAAGTGATGAGAATTTCACGTTCTCATG
+TGTGATCATAAGCGCTGAAACGATAGTGACCGACTTTGTGAGAGGAGGGCGGCTGGTGAC
+ATATCGAAGAGACAGGACGTGCAAGGCAGTGGCGCGTCTATCCCGACC
+>ds2020-328_608
+GTTTGGACATCTAGCTTGATGCTATCCAGTGCGGAGTTGAGGGCTCCCTGGAATTGGCCT
+TGAAGTTCTTCCACCATAACTTCGAAGCCCCCCTTTGTAAGGACATCCTCCTCGAGTCTT
+TGATCGAACTCGATCACGGCTCTCTCCATCTTAGAAAGCCGATTCTCCATGGTTGCTGCA
+TCTCTAGATCGTTCCCTCTTTGATTTGCCGCCCACGTCTATCCCGACC
+>ds2020-328_609
+GGTCGGATAGACGTCAAAAGTGGCTCAGGTGGTGACTGCATTACTGGTGGTTGGTGTTAC
+GGATTACACTATTGTGAAGGCTGAAACGGCGGACTCCCCTGCTACATTACAATACCTTGC
+TCCTTATACAGGAGCAGCTCTGGCTGAATATTTTATGTATCGTGAACAACACACTTTAAT
+CATTTATGACGATCCCTCCAAACAAGCGCAGTTCCGTCTATCCCGACC
+>ds2020-328_610
+CAACTAGTGCTCCGACTGAAAGGTCGGGGGGTACAACACCGAAAGGCGTGCTAAACCTTA
+AGGTGGCGTTCATCATGGTAGAGCCTAGTCATGGTTAAGAAACCGAGGATTGGAACGGGT
+GGAAATTAGTGGCGGCCGTTGCTGTGTATTAGAATTACGGCGGTCGGGATAGACGTAATA
+GCACCTGGTCGGGATCGACGAGAGGGGGGCTTTCCGTCTATCCCGACC
+>ds2020-328_611
+GGTCGGGATAGACGCCCGGAGCCCAGGTATCATATACACCCCCAAAATAAAGCGCCTTGA
+ATACTAGAAGAAAAGCACCTATACCTAACAAGATTAAGTGAATACCCAAAATTGTAGTCA
+TTTTGTTTCTATCTTTCCAGACATAACCGAAGAATGGAAAAGATTCTTCAAGAGTCTCGG
+GTCCCAGAAGTGCATGATAAATCCCGCCTAGATACGTCTATCCCGACC
+>ds2020-328_612
+GGTCGGGATAGACGGTGCGGTGGGATGGGAGAACTCACTGGCATGAATGCCCCTGCTTCA
+TCGAGTGGGATACGACCCCCGTTTGATCTTAACATGGCTCCGGACCCGGAGCCGGAACCT
+TCCTCTTCACCCGGCCTAAAAAATAGAATTCTCGAGGCGGAGTTAGAAGAGGCCCAGAAA
+GAACTTCGCTTCTGGCAAGAGAAGGGAAGGCGTTCGTCTATCCCGACC
+>ds2020-328_613
+AACCGCCGCCACTACGTTTATCAATTGTTAAAGGCGATAACCCAGCCCACGCAGGACGCC
+CCCCAAGCTGGAAATTCATCATGGTTTCAGATAGGAGCGCACGGCTAATGTCTCCCATCA
+GTGGGGCAGTATGGGAGCCTGGCGCTCTAGTGGCGGCCGTTGCTGTTGATAGACGAACCA
+GCACCATGCGTCTATCCCGACCAGTGAATCTTTTCGTCTATCCCGACC
+>ds2020-328_614
+GGTCGGGATAGACGTCACCTCCCCATCCCGGTTCAGGAATTTTAACCCGATTCCCTTTCG
+AAGTTCGCGCGAGACGCGCTATCAGACGGGCTTCCCCCGTCTCTTAGGATCGACTAACCC
+ATGTGCAAGTGCCGTTCACATGGAACCTTTCCCCTCTTCGGCCTTCAAAGTTCTCATTTG
+AATATTTGCTACTACCACCATAGATCGTCTATCCGACCGCCGTATTC
+>ds2020-328_615
+GGTCGGGATGGACGAAGAAGGGCATTTTAAAAAAGAAAGAGATAGGTTCGTGCGTGCAGC
+CGTATACGAAAGTACGCTTCCTCTTCTTTCGAATGCTAATGTGTGGTTTTGTCCTACTTC
+CAAAGTCACAGAGGGAGCTGGAGCCGATTTTTTGTTTGACTACCCTCAATCGACGGATGG
+TGCTAAAGGAGTTGGGAGAAGAGTCCACAGGCGCGTCTATCCCGACC
+>ds2020-328_616
+GGTCGGGATAGAGGATGGCCGGCTTTGTTTCTCAGAATTAACTCACCCTCTACGCGCCTT
+AGCCATATGAGCTAAATGGGTTGCTCGGAAATCTTGCCTTTCCTTACTCTTAGGGCTTTC
+CTCCCTATCTTCAGGCAGCACACCGCCATCGGTTTCTGAATCAACGCTTACTATAGATCC
+TGACCTTTTCTCCGACGACACACCCACCTTAACCGTCTATCCCGACC
+>ds2020-328_617
+ATCTGCCTGGTTTCGGGTCTATACCCAGCAACTAAACGCCCTATTAAGACTCGATTTCTC
+TACGGCTCCCCTATACGGTTAACCTCGCTACTGAATATAAGTCGCTGACCCATTATACAA
+AAGGTACGCAGTCACACCACGAAGGTGCTACCACTGCTTGTATGCATGCGGTTTCAGGAT
+CTATTTCACTCCCCTCACAGGGGTTCTTTTCGCCTTTCCCTCACGGT
+>ds2020-328_618
+GCCGTGGACCTAGTTTTAACACTCTGCCGTGGACCTAGTATTCTATCTCGTGCCGTGGAC
+CTAGTCATTGAAAACTAGGTTCGGGATAGACGTAAAGGTCGCCTGGTCGGGATAGACGAG
+TTATAGGGGTGGTCGGGATAGACGTTATAACGCCCTGGTCGGGATAGACGCTGTACGCCT
+GGTCGGGATAAACAGGAATCCCCGTCTATCCCGACCGACGTAATTCA
+>ds2020-328_619
+GGTCGGGATAGACGCGTAACTGTCATCGATCTTTTCTTCTTTCTTCAATCGGTCATATCT
+GATCCGTAGCTGGTAGCGACATGAGGAAAAGGTCCAGAATAGTCTATTTTATTTGCTAAA
+TCGCGAGTTTAAGGGGTCGGATGGGTCAAGTATGGCCTCTAAAAACATGCGATAATCGGC
+TTTTTTAGTAGCATCTGTCCTACCCGCCCTGATCGTCTATCCCGACC
+>ds2020-328_620
+GGTCGGGATAGACGCTTGCCACTCCTGGTCGGGATAGACGTTGTTTTTCGCTGGTCGGGA
+TAGACTAGGTGATTGTTACGTCTATCCCGACCGCCGTAATTCACGGACAGAGAGCCGTGG
+ACCTAGTTATATCGTACCTGCCGTGGACCTAGTTAGCCTGGTTGTGCCGTGGACCTAGTG
+AAGTCAATGCTGCCGTGGACCAACTTAGCCCCCACGAGCGCCACGGC
+>ds2020-328_621
+GAGAGCCGTGGACCTAGTGAGGTTGTTGCTGCGGTGGACCTAGTATCCGAGGGGGTTGAA
+AACTAGGTCCACGGCAGCGGGTTTGAGACTAGGTCCACGGCAGGCAGCAGATCACTAGGT
+CCACGGCTCTCTGTCCGTGGATAGACGACACCCCAATCTGTTCGTCTATCCCGACCAAGG
+GTAATCTCCGTCTATCCCGACCAGGCACATGTTACGTCTATCCGACC
+>ds2020-328_622
+GGTCGGGATAGACGGGACCCTCGAATCTCTGGGATTGGCATGTAATAGAAGGATTGGGAT
+ACTCGAAACAACGCGGCACTGTCATCGGTAAAATAACGTCTAATAGATAGACCTGGAAAT
+CGATGCTTTCTGGCTCCTCACTTCCGGTCGGTGTGCCTCCCCTTTTTGTTTTATTTGATT
+CACAAGCAGGAATTGAACCAGAATCTCCGGTTACGTCTATCCCGACC
+>ds2020-328_623
+GGTCGGGATAGACGGCGCCACCTGCTATCTCGCCTTTCTGATTATTATTATCAAGAACAT
+TGGCTTCTTCCTCATTTATAGCAGCATTAACTCGTTGCACTTCATGGTCATCCAGACTAG
+GCGCAACCGAAAACCTCCCAATCACACGCTGTTCTTGATTTTTTGTTTTGATCTGTTTGT
+GTGACTGGCTTTACACTCTCAGCAGCTTTCAACGTCTATCCCGACC
+>ds2020-328_624
+GGTCGGGATAGACGGTGAAATGTGCATTGGTTTTGTTGCATTTCATGTAACAGGATTGTA
+TGGTCCTGGAATATGGGTGTCCGATCCTTATGGACTAACGGGAAGGGTACAATCCGTAAA
+TCCAGCGTGGGGTGTGGAGGGTTTTGATCCTTTTGTTCCGGGAGGAATAGCCTCTCATCA
+TATTGCAGCAGGGACATAGCATAGTGGCGGCCGTTGCTGTGTATTA
+>ds2020-328_625
+GGTCGGGATAGACGGCCGCCCGCCATACTGAGCGTCTCATGCAGTACACTACCTACAAGA
+CTAGTAGACCTGATGAAGTTCATGAACCGAACTTTTGTGAAAACACATTCCAGGACTGCT
+CCTTGCAAGGTAAGTATGCCATGGCAATCCATTCCACTTCGGATTTACCCTTAGGTGAGC
+TCTGTGAGAGCTTAAGGAAGAAGGGAGTGATTCGTCTATCCCGACC
+>ds2020-328_626
+AGGAATACCTAGTGGTGGACGAAGAACCATTGGCTATAGTTCCTTTGGGGATAGACGTGG
+TTGATGATTATCCACACACAGACCCAATGGTCTGTATACCCTTGAACCTCGACTCCTGCA
+TTGTCCAGCCACACCCCCACCTACAAAGACCCTCTAGCCTCGTTGGAGATGTTGACTACA
+TGGTTCATTGGCAATACCCTAATTCCGCCGTTCGTCTATCCCGACC
+>ds2020-328_627
+GGTCGGGATAGACGCGTGCCCAGCCTCCGTTTCACGGAATAAGTAAAATAACGTTAAAAG
+TAGTGGTATTTCAATTTCGCCGAAGCTCCCACTTATACTACACCTCTCAAGTCATTTCAC
+AAAGTCGGACTAGAGTCAAGCTCAACAGGGTCTTCTTTCCCCGCTGATTCTGCCAAGCCC
+GTTCCCTTGGCTGTGGATTCGCTAGGTAGGTGCTAGGGACAGTGGG
+>ds2020-328_628
+GGTCGGGATAGACGTGTTGGGTCAGCATCTCCGAACCTTGGCGAGGAATCTTTCCTATCT
+GGCTCAAGATCCTCTTAGTCAATCCATTTGAAATGGAACTTCTAGCCACTGGGTCAACGT
+TAACTCCACAAAGATTTTCGAGTTAGCTTCTGCTTACCTGCATTAGAAGTAAAGTCTTGG
+TACCAGTTACATACTTTTCTACCGTACTGATTCGTCTATCCCGACC
+>ds2020-328_629
+GGCGCCCTTTTTGTAAGAATTTGGGCATGAGCGACTTAGTGGTTAGCCGAGCTAGTTACT
+CACTCCATGGCATGATGGGAAAAGCCCCCTTCTGATGGTTGAGCGGGTAAAGCCCTTATG
+AAAAGAGTGAACCGGGCGTAGCGTAGAGGCTGCTAAGAGAGCTTTAAACCTCTATCTTAC
+ACCTGGCAGGAGATGTAAATACTTACTTTCGGGTTATTGGCCTCTG
+>ds2020-328_630
+CTGCCGTGGACCTAGTACTAGCCCAGGTCCGTGGACCTAGTAACCCACATCTTACTAGAG
+CGGGCATACTACTAGGTCCACGGCAAGCGACGAAATACTAGGTCCACGGCAGGGGAAATG
+TAACTAGGTCCACGGCTCTCTGTCCGTGAATTACGGCGGTCGGATAGACGTTTTAGATGG
+TTGGCTCGTCTATCCCGACCAGTGTCAGTGGTCGTCTATCCCGACC
+>ds2020-328_631
+GGTCGGGATAGACGCTGCATGTGCCTCTTCAACGCTTAGCTGTCTGTTAACCTCCCGCTC
+AGGGTACCTATCACGGAATAAAGCTGAAGGCGAAGTCGGAATCTCAATGTCAACGCTTTC
+GTAAAGCCTATTGAAATGACGTGTCATGATCAGAATAGGTTCAGGTGCTAGCGAAACTAG
+ATATTGATCGATCTTTGCAAAAATGTAATCTCCGTCTATCCCGACC
+>ds2020-328_632
+GGTCGGGATAGACGGAAATCTGCCCTGATCGTTTTCGGAAAGCGCCTTCTCCTTTTTGGT
+TGGTTTAAGGGGCGAGAGGGGGCGTGGAACTACTACTACGATTCTCATTATTCTCATTTC
+GCTTTCTACTAAAAAGAGGAACACGGAAAAAAAGGTTAAAAAAAAAGTGCAAAGAGGCGA
+TTCATGACTCCAGCATAAAAAACAGCACGATCGTCTATCCCGACC
+>ds2020-328_633
+GGTCGGGATAGACGGTGTTCCGTTTTAAGCATGTAGGCGGAGGTTCCAGGTAAATCCGGT
+ACCTTTTAACGCTGAGGTGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTG
+CTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGG
+TGGTCAGGTAGAGCATACCAAGGCACCCGGGCGTCTATCCCGACC
+>ds2020-328_634
+GGGCGGGATAGACGTCCCATTACTCTTTCTACTCCTTCAAAATCGTTTAAAGACGCAAAG
+CTCTGCATCCAGATGTTATACGTAAATGTGTCCAGAGGGATGTTCCTCTGCTTCATTTCT
+TGCACTAAAGGAGCCACTTTCTCTGGTTGCTGCTTTCTCATATGCATAGACATGAGATTG
+TTAAAGACCAAAGAAGAGGAGTCTAAGTCGCCGTCTATCCCGACC
+>ds2020-328_635
+GGTAGGGATAGACGCAAAACCTCTATCATTATCGGCGAACCGAGAAAAGAGTCGGCGAAT
+CGTTAACTGCTATGTCAGCGAATCACAAAAAGAAACAAACTAGCTAACAATCATTCTTGG
+CCTAGCCAGGCCCATCTTGTCCTCTTCTAAACTAATCAAAACATCTTCAGGAGGGGTCTC
+TAACTCATGCAAGCCCAGAATCCAGCATACCCGTCTATCCCGACC
+>ds2020-328_636
+CGATCTGAATTACGGCGGTCGGGATAGACGAACTGTGGCGGTCATTAGAGTCAATCGAAG
+AAAGGCTTGACAGGCTGAGAGTAATAAGGAAAGAGGATGGTGGACTAGGATGCGGAAAGG
+CATTGTTTCGTGGTACAATGGAAAAGAGAAACGGGCTATGGACAGGAAAAGGTGACATAA
+AAGTCGACAGGGGGAGCACACATGTACAAAAGCCAAAAGAAATTA
+>ds2020-328_637
+AGGTCGGGATTGAAGACCACTTTCCCTATTTTTTACTCTGAGTTAAGCCCTGTCTTTGTT
+TTGTCTACTTCAATTATTTTGTCTCAACAGAATGGACGTTCAGCAAGCATTTCTTAATAG
+CATAAGAAATGACTTCAATCAGAACTAGTCTCGTTGCACTGTTATGGGGGCATTTCTCAA
+TCGTTATAGTTTTTCTGGATCTCCTTTTGATCGTCGATCCCGACC
+>ds2020-328_638
+GTCGGGATAGACGTACCAGTCAACTTTTTGCAATTTTCTTCATACATCACATGGTATGAC
+TTGGTTTGCCCAAGTCCGCGATGTAGCCGCAGCCGAAGCCTCGTCTTTCGAAGGCTCAGG
+CACCCTGGCTGATTGTCCCCCATTCGGGATAACGTCAAACCAGGTAGTTGTTAACTACTT
+GGCCCCAGCCACACTGCCAACGTCCCCTATTCGTCTATCCCGACC
+>ds2020-328_639
+GGTCGGGATAGACGGCGTGGCCGGGTCTTGCGGCTGATGGGCCATTTGATAAGAGAGGAT
+TGCCTTTTTTTGATGTTCTTTGTAACAAAGCCCGGTAGGGGCGCGTCTGATAATATTGTT
+AAAAGGGCACATCAGCCGCAAGACCCGGCCACTTCGTCTATCAGGAAGAGGAACCGTCTA
+TCCCGACCAGGGGCTCTTCTCGTCTATCCCGACCGCCGTAATTCA
+>ds2020-328_640
+GGTCGGGATAGACGTTATTTGGTCTCGGGGAGACCGCCCATTTATCACATGGGAGGAGAA
+GACTAGTCAAACATTCGAGCTGTAAACTCGCAATATAGACTTGAAAAAAAGAAAGATATT
+GAGACGGAATATGAATGAAGGATTGAAGCATCTGACTGGGCTCCGGAGATGAATACCGAA
+AGAGCTTACCGGATGCACCATCGCACCACAACGTCTATCCCGACC
+>ds2020-328_641
+GGTCGGGATAGACGAAGGACCACCCTCCGCTTGGTAAAGCGACTCATAGGCGGATACCAC
+GTTGTTGTCAAGTGAGGTATAGATGAGCTGAACTTTACCTTGTAGACCACGAGCCGCTTG
+GGGAATATCGGTAGTGCGCTGTGCAGGTGCTGCAACGATGCTAATGCCCATAGGTTTAAA
+TTTTGTTTCAAGCGCTTTGAGTACCCCAGGTCGTCTATCCCGACC
+>ds2020-328_642
+GGTCGGGATGGACTTTGCGCCTTGTTAAAGCTTCACCTATTTCTAAAATTTCTGGAGAAC
+ATCACATACATTTCACAGCCGCGGAGGTGCTGCGCGCCATTCCTCGCGAAAAGAAGCTAC
+AGGCTCTACAAGCACTCCGTCTTCCTACGGATACCACTACCACCATGCTGGGGGGAGTCA
+TGTTATGGCTGGCCAGTCTAGACCCGTTTTCCGTCTATCCCGACC
+>ds2020-328_643
+GCCGTGGACCTAGTGCCGGATCGGGTGATGAACTAGGTCCACGGAGGTTACAGACAACAA
+AGTCCACCGCAGGGAGGAGTGAACTAGGTCCACGGCACCGTACTGTAAACTAGGTCCACG
+GCACGGGTCTAACAACTAGGTCCACGGCTCTCTGTCCGAGGATAGACGCTCACAGGGCCT
+GTAGACGTCTATCCCGACCAGGGCTCCCGTTCGTCTATCCCGACC
+>ds2020-328_644
+GGTCGGGATAGACGTTTAAACCTCTTGTGCGTCTATCCGAGGGGCTCAAACCGTCTATCC
+CGACCAGGGAGAGCCACGTCTATCCCGACCAGGGCGATTGTGCGTCTATCCCGACCGCCG
+TGGACCTAGTATCAGGCTTCGTGCCGTGGACCTAGTTCAAGCTCACCTGCCGGGACCTAG
+TATTAATTGGTCTGCCGTGAACCAAGATTCGACTAGGTCCACGGC
+>ds2020-328_645
+GGTCGGATAGACGAAATGGACCAGTGAGCGTCTATCCCGACCAGCCATGGTGCCGTCTAT
+CCCGACCGCCGTATCGGACAGAGAGCCGTGGACCTAGTTTCCGCCCCCCTGCCGCGGACC
+TAGTACGTTCCTCCTTGCCGTGGACCTAGTTGTGGTGACCCTGCTGTGGACCTAGTAGAG
+TCTCGACTAGGTCCACGGCAGAATATGATTCACTAGGTCCACGGC
+>ds2020-328_646
+GGTCGGGATAGACGATAGCTGCCCATAGTGCCACGCCCGTAAGGAATGAGTTAGTAGCTT
+CTCTGGTTATCGATAAGGCCAGAGCTACGCTGTCAGAGTTGACTCCCAAGATGTCTACCA
+CCTCCTTGAACGAAAAGTGAACATGATGCGACGCCGTTATCTTGGTGTATTTTGCCGACA
+TTGCTTCATGTAACTGCCACCCTAGGACTGTAGTGGCGGCCGTT
+>ds2020-328_647
+GGTCGAGCTACTTCGTTACCCTCTCCTCTGAGATACGAGCTTGACAACCACATAGTAATA
+TCCTTTCAAGTACGCCTACAGGGATAGGATTTTCCTTCTTTTTTCGACAACCAGTATAGA
+AAGTATCTCGCCCCTCTGTAATTCTTATCCGTCCCCAGATGCTGAATGAGCTAATCCTGA
+TCTTTCTCTCATAGGGTGAGAACAACTCTGCGTCTATCCCGACC
+>ds2020-328_648
+GGTCGGGATAGACGGTGAAAACCCCTTTTAACCTGATATAAAGATTGTTTTAACCGTTTA
+GCCTGTCTGGCTAACTGCAGCCAAACCAGCATACAACAACAAATATGATTCCGCTGAATA
+CGAGCCTTACGACACTGATTAGCTTCAATACCAGTGAGTTGTTTAAGTTATCGGTGAAAC
+TGCTCAATCTTCCGGGGGAGGCCCAACGAACGTCTATCCCGACC
+>ds2020-328_649
+GGTCGGGATAGACGGAGTGGCTGTATTTCTGGGTGCAGTTGTTCTCAGCTTAGCTCTTTC
+CGAGTCTGTGTGTGTAGTAGGTTTCAGTGCTGTGTAGTCAGCAAGTTTATGTTGTTGTTG
+TGACTCTTCTTTCTTAATATTTTGACTATGGAAGCGGGCTATTCCCCTAAAATGTTCGTT
+AACGTTGGGATGTAGTTTAGGTAAGTGTAGCGTCTATCCCGACC
+>ds2020-328_650
+GGTCGGGATAGACGTTGGGATGGATTTCATTAACACCCATAGACCAGAAAAGGTGTTCGT
+AGGCATACCGCTTGCTGTTCAAGAATCGGTAGCGGTTTTAAGGGAGACTACCGAGCTCCA
+CGAGAAGCGCCTATCATCTCTATGCGAATTCTGACCTTAGCTTTTCGTCTTTTATTAGTA
+TTAGTGAAAGCTCGCTCGACTTAGATATCGCGTCTATCCCGACC
+>ds2020-328_651
+GGGCGGGATAGACGATAGTAGGCCATTAAAACTTCCCACGACGCCCCTGTTAAGTCTAAA
+CAATGCAGCCATAGCGCTACTGCAGCTACGAACTCCGCAGCTTGGTTTACATGGTCCTTA
+CACCAGGATAATACTAACACACTTTGTTGCCTAGAGCGACTGAGTCCACGAAGTTTATCC
+ACACCTGCCAAATTTTTAACTGACTTGCCACGTCTATCCCGACC
+>ds2020-328_652
+GGTCGGGTTAGACGACCAACGGGCGTAATAGAACTCAAGGCAAGTAAGAAGGGCAGTCCG
+CCTCGTAGATCGATTTCGGAGTCGTAAGTTAATGTTTCCTTCTCGGCCGTTGATGAAGGG
+GACCCTTCGGCAAGCCTGGCGGTTGCTGCCTTGAGCCGATATCTTCCCAGTCCAAGCATT
+AGAGAACGTGTGGGGATAAGGCCGACGCTGCGTCTATCCCGACC
+>ds2020-328_653
+GGCGGGATAGACGGTTTACCTCCTGGTCGGGATAGACGGTGTTTATGCCTGGTCGGGATA
+GACGGTCATAGGAGTTGGGGTCGTCTATCCCGTCGGACAGAGAGCCGTGGACCTAGTCTA
+TACCCCTTTGTGCACTAGGTCCACGGCACCGTAAGTCAACTAGGTCCACGGCAGGGCGTA
+GGCCACTAGGTCCACGGCAGGGAGCGACCAACTAGGTCCACGGC
+>ds2020-328_654
+GGTCGGGATAGACGGTTCGGATGGTTAAGAGATTATCTATGGATAAACTATTCATACCAA
+AAGGATTATATCCATTAATAAGTTGCGAAGAGTTTAACCATAGATAATCTCTTAACCATC
+CCATCAAATATGTGGAAGACTCATTAAACTGTGACACGTTACCCTGCCATAATGTGATGT
+GATTCCAATGACAATAAAAAGAGACCCCCTCGTCTATCCCGACC
+>ds2020-328_655
+GGTCGGGATAGACGAGAAAAGCAGCTCAAGTATGAGACTGTGATTAGCCCATCGGTCCGT
+TACTCTGCGCTGATGCAGACGCCATCAGTCATGTCCCCTGGCATGGCATCGGTTGAAAGA
+ATACCGATACAGGAGCGGATAGTGACTAATAAGCCTTACCACTCTTCATGTGTTTATCAC
+TAAGAAGTAAAACGAATAAAAGTCAAAATCGTCTATCCCGACC
+>ds2020-328_656
+GGTCGGGATAGACGTCTGCTGTTCGTCAGGACTTTGATGGATGCTACGTTAAGTATCTCA
+TACAGTGAGGCCACTATAGGTGCGGCTGAAATAGGGCGTGCTAAATCGGTGGTTAGGTCC
+GCTCTGCGGCTCAGGAAACCAAGGCACGATATGACATTTAAGGTTAAAGCTGCAAGCTCA
+GTATCGTATAGGCCTATAATGGGAGTGACCGTCTATCCCGACC
+>ds2020-328_657
+GGTCGGGATAGACGCAGATCTCTTTTCTGCTCCATACCTCCTCTGGTATTCTATGCTCCA
+ATGGAACCGATGGGCCTCGGTTGATCAAGTAAGCTACTGTGTTGACTGCTTCTGCCCAGA
+ACTGCTTCGGTAGACCTGACTGTATACGAATGCTTCTGGCTCTTTCTGTCAACGTTCGGT
+TCATACGCTCAGCTATACCATTATTTTGAGGCGTACCCGGTAC
+>ds2020-328_658
+GGTCGGGATAGACGGTCATAGCTTTTACTGATGCTTATGGATCACTTTCTGAATCGAACC
+CAAAAACGGATAGGTTTGATCGGCCTGGCCTCGGGTGGTGGATCGAATGAACACTCAACC
+GCGTCATCACGGAAGCGATGGATGCCCAACCTTTATATCACTTCCTTCTCAATAAAGGCG
+GGGATGGACTCTGAAATACTCCTCTCTGTCGTCTATCCCGACC
+>ds2020-328_659
+GGTCGGGATAGACGGACGCCACTCCTGCCACATCAATTAATGATAGTGGTAAGCATATAC
+CAAAAAGTAAGACGGGCGTGTGTCAATATAATGATAGCGGTAGCGATATAATGGCTTAGG
+GACAAAATCAATCCCATGCCCACCCCAAGGATGACAGCGCGCGATACGCTTGGCTGTTAA
+TAATCCACCCCCTGCACTCGTCTATCCCGACCGCCGTAATTCA
+>ds2020-328_660
+AACGGCCGCCACTACATTATGCACATCTGCGCCTCAACTACCGCCACAAAAGCCACCGCC
+ACCCACCACCACCACTTGAGGATGAAACTTTGAGCTCTTACTGCACATAGTCACCCAAAT
+GCAGGCACCCACCTCAATCTCTCCGCTGTAAAAACTCCCAATGCCCACATTGTGAAAAAA
+ACACCAAACCCATCCAAACCAATCCCAATTAGTGGCGGCCGTT
+>ds2020-328_661
+GGTCGGGATAGACGTTGGGATGAGTTTGGGTGATTGGTGATGGTAGAGAAAGATGAAATT
+CGTAGAGAATAGGAAGGGGGTTTTCTGGAGGTGTTTTGGTGATTTTGGACAGAATGGAGT
+GTTTGGGGAAGGATGGAAGTGTGAGAGGTTGGCTAGAGTGAATTGTAGTGGCTGAATGGA
+ATGAGATGTTGGGGATGTGAAGGATGGAGCGTCTATCCCGACC
+>ds2020-328_662
+GGTCGGGATAGACGCGGGAGTCAGTTCAAGTCTTACCTGAGACAATAGTATATAAAGTAG
+CTCAACCAATGGCAATTCCTCACGTATTCGAAGATCGGTAAATGCCTTAATCAACTAATT
+TAGGTTTTCTAGTGCGTGTAATTTCCATCCATTCATTACCAACGTAGTCTGGCTATAGCC
+CAGTTGTCCTGATCAGAAGAGGGGGTCCCCGTCTATCCCGACC
+>ds2020-328_663
+GGTCGGGATAGACGGAATAAGATACTTGTGGACGGATGACGTGGGAAGAAGTGGGGATCG
+GAGGTTGATGTGACGGTGGTTACAATGGTGTGGGCTGGTCATGTGGAGGACGAAGAACTG
+AACGCTTTGAGGAAACAATGGAGACAATGCGGCAAAATAGCCTCTCCTTTTCTTGGGTTG
+ATTGATGTTGTGTTCTTAGGAGAGTAGTGCGTCTATCCCGACC
+>ds2020-328_664
+AGAGCTTATCCCAATAGATCTAGCGGATCTAAGGGGTTTTTCCTCCTTTTCTTGGGAGAG
+TCTCTCCAGCTGGATCATAAGGGCACAAAACACCTTTGACTAGGTTCAAGCCTAGCCTAG
+GATACCCCGCTTCCGCATACACACCAGGGAATGAATTTGGAGAAGGATCAAAAGGAATTG
+GACTTGCTAACCCAATTGACGGGAATTAGTCGTCTATCCCGCC
+>ds2020-328_665
+GGTCGGGATAGACGAAGCTGCATCATGTCGGTGTTGACCATACCATAAAGCAAGAAAAAA
+GTAACTTGATCCAAACATATCCCAATAAATGCACAGATAAGGTAAGAGGACATGGACGCG
+CAGAAAGTAGTGACGAAGAGACTGACGAACAGGCAAAAAGCACAGATAAATAAGACGGCA
+AGTGCGCTAGAAAGAGAAGAAGCCGAATCCGTCTATCCCGACC
+>ds2020-328_666
+GGTCGGGATAGACGGGCGGTTTTGGTGAGTGAGAATGCGCTGCGATGGCTATCTTGCGCC
+CGGAGGTGTTGTGAAGCATTTGATTGCTGGAATGGCCACTCAATGAGCTGGCTGGATGGC
+GGAAGGTTGACCGAGATGCATGACGTGGCGCCGTCAGTTTTCCTTTATTTATTTATTTAT
+TTTTGTTTGGTTTTCGATAGTCAATCGAAGCGTCTATCCGACC
+>ds2020-328_667
+GGTCGGGATAGGCGGGAGTGTCGACTGGTCGGGATAGACGTAGAATGTATCTGTATCGTC
+TATCCCGAGACAGAGAGCCGTGGACCTAGTTCGCCGACTCTTGCCGTGGACCTAGTTCCT
+TAGCGGGTGAGTCACTAGGTCCACGGCAGGAAACTGGCACTAGGTCCACGGCAGAAAAAC
+GAGTACTAGGTCCACGGCAGAGATTATTAACTAGGTCCACGGC
+>ds2020-328_668
+GGTCGGGATAGACGTGGGATGTGGCTATGCCGAGTTCCGTGGACTGGTCCTATCCCACTA
+AAACGAGGCGTTCAACCCTCTCTCAGCAGTGGGCGCGTGTTTCAACGTCCTACGCAATGT
+TCTTCGAGATGTCGGCGGGTCTGTCGACCGGTCAATCTGCGCAAGGCAGTCATGCACAAA
+TGGTAGAAGTGACTATTATAGAGGGAGTACGTCTATCCCGACC
+>ds2020-328_669
+GGTCGGGATAGACGACGGCCGGCCATATACTTGCACATCAAAGAAGATTCCGACTGTCAG
+TCCCTGTTTGATACTTTCATCAGCTCAGACAACTACAAGTCAGAACTCAAAGCCTTCAAA
+GATGGCACTTATGATCAGAAGTACTCCGGCTCGACTACAATCGCCAGAAAAACGGTCCTC
+GCAAGTATCTTTTCAGACCAGTTCCCACATAAGGTCCACGGC
+>ds2020-328_670
+AATGACTCTAAGCCGAGGAATGATAAATTTGTCGGAATCCACCAGGGGTTTATTATCATG
+ACACCACTGTTCTAAGGAACAATCAACTTTGCGAGTGAACACCAATATATCTCCACTGCC
+AACTTCATGTACAAGCTTTGGTTCAAGAAAATATTTTGAACCGCACATTGCTGATAATCG
+ACGCCACCCATTTGCCACCTACCTCAAACGTCTATCCCGACC
+>ds2020-328_671
+CGTCGGGATAGACGGCTTTGGCTCTTGCCTCTTGCCCTACCGATCTATGCTACCTCGTAT
+GGTACTGTCTTTCTCGCTGCGTGCTTTTCTACAGGAAGCATCCCAACCAGCAGCTTAAGA
+AGGAGTTCCGGTGCCAATTTCATACCCTTTACCATAAAAGGGTAGTGCTCCTACCTTCCG
+GTCTACTGGTTATAGATCAATGGCTTACACCCCGTCCACGGC
+>ds2020-328_672
+AACGGCCGCCACTAATCAACTTTCTTTGGTGGGTCACAGTCGAAGGCTGATGAATCGGAC
+AGTTGGGTATCCAATAAGAGCTCTGTGTCGTCTGAGGGACGGAGATTCGGTGCTTCCGGT
+GGTGGGTTCGATCGGGAGAGGAAAGTGGGGTTCACATCTGATGGAGGTGCTGATTCTGAT
+AATTGGGGGAGGAAGAAAGAGGAGCGTACGTCTATCCCGACC
+>ds2020-328_673
+GGTCGGGATAGACGGCTTGCTGCCCTGCTTAATGGGTGGCTAGGCTTTGGCTACAAGCCC
+CAAAGGCCCAGACCCAGTTTCAATTTCAACTTAATTAATTGAAACAACAACAACAACAAT
+AACAATAATAACAAAATAATAGTCACAACAAATTGTAATAATCTTAATTCTTATATCAAC
+AATCAAGCAGCCGTCGAACTGTCCTCTGGGGCGGTCCACGGC
+>ds2020-328_674
+GGTCGGGATAGACGTACGGTTGCCCTGGGGGACTTGTTCTGTGATAAACAAATGACTCCA
+AACAAGAACCCCAGGGCAGCCAATCGTAAGAAAAGAGGTGAACCTGAGAAGAGCAGTAAG
+AGTAAGCGTTCAGGTGCTGGTGCTATGACCTTAAAGGCGGAAGATCCTCCCCTGGTTCTA
+ACCACCCTGAATGAAGAGAGGGCGCAGACGTCTATCCCGACC
+>ds2020-328_675
+GGTCGGGATAGACGTTCAGGTGCCATCTTTTTATCCGGTTTACTTGTAAGTTTTACTGGG
+TACGCCTTATATACTGCTTTTGGGCAACCCTCTCAACAACTAAGAGATCCATTCGAGGAA
+CACGGGGCTGATTACTAGGTCCACGGCTCTCTGTCCGAGGATAGACGGCAAAAGGAAGTG
+TTCGTCTATCCCGACCAGGGCAGTTATACGTCTATCCCGACC
+>ds2020-328_676
+AACGGCCGCCACTAAAGAAGCATAATCAACACATCACACATCATCAACACCCACCATGGC
+CGCAAACGACTACTACACCTCCCATCCCATGGAGAATTCCACCCTCGCACCCCCAGACCT
+AACCTACTCCGCCTCCGCCACACAACACAACTACAACAACACATCACACATCATCAACAC
+CCACCATAGCACATCGACGTCTATCCCGACCGCCGTAATTCA
+>ds2020-328_677
+GGTCGGGATAGACGACTATCAGTGTTGAGGATAGGAGCGTTCATGTTCCTTTTTGTCACC
+GACCGTGCCACTTCTCTAAAGGTACTTTGCCTATTGGAAGTTTGACCTGTCATTAAGGTG
+GAATCCACTCCAGACTTTCCTTTATCCCATGAAACAAAATGGGATAAATCAAAAGAGCAG
+TCATCAAGTTCAACTGCAATATCATCCGGCGTCTATCCCACC
+>ds2020-328_678
+GGTCGGGATAGACGAGCAGGCCCCATTCCTTAACAATAGGTAGCCAAAACAGGAACCCGT
+TAACCCGCACAAGCCAATCTTGAAGCATCAATGACGAGGGGTATGAGACGACAGTTCGAT
+GCCAGAGCACAGAGCCTGCCGGTGCATACAACCCATTCACCACTCACACGCCGTTGCTTT
+GGCGAAGCCCAGCACCACCAAACCTGACCGTCTATCCCGACC
+>ds2020-328_679
+GGTCGGGATAGACGGACTTCAACGCTCTGATGCCCGCCCTTGTCGCTTTGGGCTATGACT
+AGGGCAACCATACCCGCCATTACCACAAGCCCGCCTTGTGCCATTGGTGAGCATTGCGGG
+CATGATGCCAAGCTTGTTCCTGTCATTGGTCAGTCAGTACCAGCTACCAGCCAAGCCGAT
+GCCAACCATTCACGATAACCACAACCAGCGTCTATCCCGACC
+>ds2020-328_680
+GGTCGGGATAGACGACGGACTCCGCTGAGAAGGATTCTCGTGCCAACTATTATGTTCAAA
+GACAGGCCTCAACGTGACTTTAAAGCGATTATTCTCGATTGAAATTTCCATAGATAGAAT
+AGAAATTAGGCCATCTCCTCAGAGGCGGCTTCGGCTGCGTCTTTGCCTATTCTCACCTGA
+GATAGCGTCTCATGACACCCATATTAACCGTCTATCCCGACC
+>ds2020-328_681
+GGTCGGGATAGACGTTTGCACTCGGTCCGGTACGACCATCAAACAATACTTGCTGACCTG
+AGGTTGGCATACCTGCTAATTCTAGCAAGCCTTTGATTTGCTGTTCTTTAGCGCCATCAA
+ATACTGCCGTACCCATTGGTACGCCTGCACGTAGATTTTTTGACATCGCAATGATTTCCT
+CATCACTGAGGCTGCCTAAGTCCTTTTCGCGTCTATCCGACC
+>ds2020-328_682
+GCCGTGGACCTAGTCGTCTATCCCATACAATATTAGGTCCACGGCAGGGGGAGCTCCACT
+AGGTCCACGGCCCCCCCGTGGACCTAGTTATGGAGGGAATACTAGGTCCACGGCAGGGTA
+GCAGGTACTAGGTCCACGGCTCTCTGTCCGTGAATTACGGCGGTCGGATAGACGCTGTCA
+ACGCCTGGTCGGGATAGACGTGACCAATCGTCTATCCCGACC
+>ds2020-328_683
+GGTCGGGATAGACGTGATACTAGCCTGGTCGGGATAGACGGACTACCCCCCTGGTCGGGA
+TAGACGCAGGTATGTTCGTCGTCTATCCCGTGTCATCAGATTCAAGCCTCAATAGAAGAG
+AAACCATAAAGAAAAGAATTTCTGAAGGAGAAAGTAGCTCTGCTGCTAGGGGGAAGAAGA
+TGAATGGGTCATCATCAACGGGAGCACAACTAGGTCCACGGC
+>ds2020-328_684
+GGTCGGGATAGACGATACCGCGGGGTACGCCGTCTATCCGACCAGGGTTTCAAAGCGTCT
+ATCCCGACCAGTGAATCGGGTCGTCTATCCCGACCAGGGTCCCTGATCGTCTATCCCGAC
+GGACAGAGAGCCGTGGACCTAGTTAGGCAGCAGGTACCGGACTAGGTCCAGAGGAGTTCA
+GTCACTAGGTCCCGGCAGAGGCCCGTCCACTAGGTCCACGGC
+>ds2020-328_685
+GGTCGGGATAGACGAGTGAATCGGTTTGCGCATTTTTGCACGTAACTTTGAGGTTGTAAT
+ACTGTGTCTGATAACCGTCGGTATACGCACTAAATGGCGCAACGTTATACGATGATGAGT
+CCTCGTTATAGTAGCTGCGTGCCCGCTTAGTTACTCCTTGCGTTGTTGATCCCTGGCCGT
+TGTCTTCCCCCACGTAGACAGCCCGACCGCGTCTATCCGACC
+>ds2020-328_686
+TAGTTAGAATTACGGGGTCGGGATAGACGTTTAATGTGCCTGGTCGGGATAGACGCATAT
+AACCGCTCGTTCCGTCACCACAACCACCACCACCGCCGACGACAATAACATCAACAAGAA
+CGATAACCACCGGAAAGACAACAACATCAACCAGAACGACAACAACATCAACCAGAACGA
+CAACAACAAGAGCGACAAGCAGGATAAGTAGTGGCGGCCGTT
+>ds2020-328_687
+GGTCGGGATAGACGGCGAGCCACCATGTGTGAAAAAGCACCCCACCGCCTCATTTGATAA
+AACTTCCAACTGAGGGCTCCATGCTACTATCAACCCTTTGCATTCACCACCATCTTCACT
+AGTACTAGTACTTCTCTCCAGCTCCAGCTCCTCTATGAAGTTGGGTGGCAGCTTCGCCTT
+TTCGGATTCCTTGACCACCCACGAACAGCGTCTATCCCGACC
+>ds2020-328_688
+GGTCGGGATAGACGGCGCGTTCGTATGAAGCAAGAGCAGGATTGCAGTCCGTAAGAGCAA
+TTCTTGAGCCAGCCATAGCGATTCTGCATGCGTGCAGGTACGATCCCGTGTTGCTCGCTT
+TCGTAGACAAATATGGTAGGAAAATGTACGACATTGCAGCTAGAACAAAACACGTGCTTG
+TTGCGTTTTCGTACGTCCATTGCAGAGGTTCCCAGCCCCCCT
+>ds2020-328_689
+GGTCGGGATAGACGGTACGTGGTCCTGGTCGGTGCCGCTATCGTCGGTACTGCAGGCTTG
+CCATCAACGCTGGCAGCGGCTAACGCGGGTAAAAAGATTTTGCTTGCTAATAAAGAAGCA
+TTATTGATGGCAGGTGAGCTGATGATTAAAGCCGTCAAGAAGTCAAATGACAAATTGCTG
+CCAATTAATAGCGAGCAGTGGTACTTGGCGTCTATCCCGACC
+>ds2020-328_690
+GGTTACCACGCGCTCAGGCGGAGAAGGGGCAGTTCGTGAGTTATGTGATTTGATATTAAA
+AGCCACCGGTCATTACAATGATATTTTGGCAAGCTATGTGGTTTAGTGACTGTAAGTTAG
+CTTGAGTAATTTTTTCTAAGTGGTTTAGTTTAAGTAATTTGTTTTAAGTGATTTGGCGTA
+TGCGGCTTGGTGTGGAGTGGGTATGCTCGTCTATCCCGACC
+>ds2020-328_691
+GGGCGGGATAGACGGGATTCTTGGGTCATCTCAATGGGTTCAGAAACCACACGTTTCTCT
+GGATCATCATAGCGTACTTCTACATATCCACTCAGAGGAAGGTCTTTTCGTAATGGATGA
+CCCTCGAAACCATAATCTGTTGATATACGGCGTAGATCCGGATGATTGATGGAAGAAACA
+CCAAACATATCCCAAACTAGTTCGCACCGTCTATCCCGACC
+>ds2020-328_692
+CCCCGCTTCCACACCCGCTCACTACTACTCCAAAGTGTATCAAATCTTTACGTCTGTCTT
+TAACCCAGCTTTGTTCCGCTCCTATCAACGCCGATCCGTTCTCGCCTCAATCGCTCTCGA
+CCCCGTCACCTACCCCGACCGTCACATGAACTTCTTCGATCTCGTTTTCTCCGCTTCCCG
+CTCCAATCTCGCCGAACTCCGCGCAAACGTCTATCCCGACC
+>ds2020-328_693
+GGTCGGGAGAGACGGAGGCCATGTGTCTTATATATCACACCTGAGGCGGTCTGGGATGGT
+ATACGCAAGGTTTTGGGATTAGCACCACGACCAACAAAGAGATCAGTTTCCGAGGCAATA
+ACCAGGGAACAAGTTGCTGCAATACTCAAAACGGAGCCGAAAGTAGTAGCCAAGGCCCAC
+ATGAAGTTAAATGAAACGGGGAGGTAGCGTCTATCCCGACC
+>ds2020-328_694
+GGTCGGGATTGGATGGAGATGATGGTGAAGATGAGATGGGTATTCTGGAAGCAATGTTGG
+CTGGCCGAAAGAGTAGGAAAAATGCAGCTTTGAGGGTTGAGCAAGAGGATTCCTTCGTGA
+CTGATATTCATGTGGAGAATGATGGCGATGAGGTGGAGTTCATGGAAAATGATAACCGGA
+AGAGCACAAGAAGGAAAGGATTAAAGATAGTGGCGGCCGTT
+>ds2020-328_695
+GCGGGATAGACGTTGAATCACCTTGGTCGGGATAGACGAGCATGGGGCCTTATCGTCTAT
+CACGGACAGAGAGCCGTGGACCTAGTGCGGCTCGGGCTGAAGAACTAGATCCACGGCAGG
+GATAAGTATACTAGGTCCACGGCAGGGACTGACGGACTAGGTCCACGGCAGGGGACTTAG
+AACTAGGTCCACGGCAGCCCTCGGTTTACTAGGTCCACGGC
+>ds2020-328_696
+GGTCGGGATAGACGGGGGAAGCTCCTGAGAAATGGAAGAGGGTGTTCCAAAGAGGTGGAT
+CCGGAAGTCTCACTGTATGAGTTCCGAGGACATGGGGTATGTCCGCACTCGATGGCAGAG
+GGCCTAAGTGTTGCGGGGCTTTGCTGTGGTTTACACCTTGAGGTGGGGGTGTGCCAACGA
+GACAAGTAGGGGGAGAACCTCGAAACTCGTCTATCCCGACC
+>ds2020-328_697
+TCATCCACCTGGTCGGGATAGCCGTGCCATCCCTAGTGTGCCGCTGGCTCTTAGGTTTCT
+GAATGTACCTCTGTGCTCCCGCCAGTTTCGTGCGCGATCTATGTTAAGATTATCAGTAAC
+TTGTACTGTTGCTCTCTTTATAGATAACGCCTTTAGCGTAGAGTTGTACACTCTTTTTGT
+TATGTTGTTTATTGTTATATCTCCCTTCCGTCTATCCGACC
+>ds2020-328_698
+GTCGGGATAGACGCCGGAATTGACTCAAAAAAGACCAGCTAACATATCCACTGTGCAAAG
+CATTGCAAACGACACTTCAGTCCAAATACCTACCGCTGAATATGTAGCAACAATAGTTAA
+AAGAAGCGGTATGAATTGGACAGGAAAAGAAGTCGGTTCTTTTTCAAAAATCATGGAAGA
+TGTTGGATTCGCCGAAGGCCGACAACCCGTCTATCCCGACC
+>ds2020-328_699
+GGTCGGGATAGACGAGAGGCACCACTGGTCGGGATAGACGACTGAAGCTCGTGGTCGGGA
+TAGACGACGAAGTGGGGTCAGCGTCTATCCACGGACAGAGAGCCGTGGACCTAGTGCCAG
+TAACCGTGCCGTGGACCTAGTCCGCTTGTACGTGCCGTGGACCTAGTTTCTTCTGCCTTG
+CCTGGACCTAGTAGAAGCGACTGTCCAACTAGGTCCACGGC
+>ds2020-328_700
+GGTCGGGATAGACGATTACGCGCGCTGGTCGGGATAGACGATTATTTCCCCTGGTCGGGA
+TAGACGGCATACAACTCTGGTCGGGATAGACGAGAGCAGTGGATGTAGTCGTCTATCCCG
+GACAGAGAGCCGTGGACCTAGTCTACCAGACCCTGCCGTGGACCTAGTCCAGTTACTCCT
+GCCGTGGACCTAGTAATCGGGGTAAGTACTAGGTCCACGGC
+>ds2020-328_701
+GGTCGGGATAGACGTCACACCCTCTTCGAGGGTTTCCTTAGCATTTCTATGCCAGAGAAC
+TTTGCCGCACAATGGGATTAGTTTACTTTGAAGGGGACTCCTGACCTTGTTATCATAAAG
+CTCATGACGAGCCACTTCGCATTAAAGAACCAATACCATAATGGCAAGCCGTGACCCTAC
+CCTATAACCCCTGTACGAGAGAGCGGCGTCTATCCCGACC
+>ds2020-328_702
+GGTCGGGATAGACGCCTGTCGCAAGTGTAATACTTTTCGTTCTATGACTAATTTTTTTTA
+TTTGACAATATAATGTTGGGAACAATTTCTAGGATTCATTTTGCAAAGTCATATCAGGGT
+GAATTGGGTGAGAGAAGTTCTTATGTATTTCTTGATGGATAACTGTTGTTAATCGAGGTT
+GAGAAGACGTTGGAAGCTGTCAACTGCGTCTATCCCGACC
+>ds2020-328_703
+GGTCGGATAGACGCTATTATCCTCTGGTCGGGATAGACGCGCATGAACCTTGGTGGGTAG
+ACGTAAATCACTGGTTGACGTCTATCCCACGGACAAGAGCCGTGGACCTAGTCATCATTG
+CCGTGCCGTGGACCTAGTGGTAGTACCCGTGCCGTGGACCTAGTCTATACCCGAGGCCGT
+ACTAGGTCCACGGCAGGGTAGTGTTAACTAGGTCCACGGC
+>ds2020-328_704
+AACGGCCGCCACTATCCTCGTCTCTCACTCGGTCAACGACGCCGAATTTTGGCAAAAACG
+CTATGATGATGGCTATACTGGGTGGGATATCGGTCAAGTTTCGTCACCCCTGCAAGCCTA
+TATCGAGCATTTACTTGACAACGGCGTGAGTAAATCGGTACAGATTTTAATCCCTGGGGC
+GGGCAACGCTTATGAGTAGTGGCGGCCGTTGCTGTGTATT
+>ds2020-328_705
+GGTCGGGATAGACGTCCACGTGTGATGAGATACAGTATTTTCATATAAATTAAAATAGCA
+GTTTATAAGGCAAAAAGGGACTGAGGGAGAACCATACTCTAGCTAGTTAAATCAGGCCCG
+CCTGAACAAGTAGATAGAAGTCACGAACGTCGCATTGACGTGGCTGGCCTTGAGCTAAGT
+GATGACAGAGATCCAGGAGAGCGGATCGTCTATCCCGACC
+>ds2020-328_706
+GGTCGGGATAGACGAAATCATGTGCATTACTCAATGGGTTCTTGAAAACCAATCTTTTCT
+TGACTGCGCTCCAGAAAGTTAAATCATCATTAGCAAAATGTCTCGGGAAAACAGCTTCAG
+GGAGCATTGCGCAATTATCCTCCACCTGATCTTTCTGATTTGGCTCATCTTTGAACTGCT
+TGCTCCATCCGACACCAATCTCGACTAGGTCCACGGCTCT
+>ds2020-328_707
+GCCGTGGACCTAGTGATGACCGCCATGGAGAGGCAACGTGAGACTAGGTCCACGGCACCG
+ACCCCCCGACGAGGTCCACGGCAGGGCATGCTTAACTAGGTCCACGGCTCTCTGTCCGTG
+AATTACGGCGGTCGGGATAGACGTTTCACACCCCTGGTCGGGATAGACGGACTGAACCCC
+TGGTCGGGATAGACATAGGCGCCCACCGTCTATCCCGACC
+>ds2020-328_708
+GGTCGGGATAGACGCGCAACAACCTGGTCGGGATAGACGGAAATACCACCTGGTCGGGAT
+AGACGCATGGCCAATCAACGTCTATCCTCGGACAGAGAGCCGTGGACCTAGTAACAACTG
+CTCTTGGCCGCTATGGAGCCCAATAAAGGACTAGGTCCACGGCAGGTGTTGATGAACTAG
+GTCCACGGCAGGGGATACAAAACTAGGTCCACGGCTCTCT
+>ds2020-328_709
+GGTCGGGATAGACGTTAATGTCGCCTGGTCGGGATAGACGTTATGACTACCTGGTCGGGA
+TAGACAGGCACCACCCTCGTCTATCCACGGACAGAGAGCCGTGGACCTAGTCGTTAATTC
+GCTGCCGTGGACCTAGTACCGATGTCCCTGCCGTGGACCTAGTTCTAAATTTCGTGCCGT
+GGACCTAGTTCTAAAGGGCTTGTGCCACTAGGTCCACGGC
+>ds2020-328_710
+GGTCGGGATAGACGTGCGAGTTCCCTGGTCGGGATAGACGCATCAGAATCCTGGTCGGGA
+TAGACGTAACCAGCACTTTAGAACGTCTATCCTCGGACAGAGAGCCGTGGACCTAGTTAT
+ATTACGCTTGCCGTGGACCAGTGCCCCATGTCGTGCCGTGGACCTAGTTCGTCGACCCCT
+GCCGTTGACCTAGTACTTGCAGGGATACTAGGTCCACGGC
+>ds2020-328_711
+GGTCGGGATAGACGTAGATCGGTGGTGAGTCAGTACGAGGAAGAAATATACATAAAAAAG
+ATGTTACCCACAGATGCGAGAGATAAAGCAGGCTGGTTTTGTGCTTCTAAAATAAGTGAT
+CACAGTAAGTGGATGGAGCGACACCCAGAACTATATGCTTCAACACGCTTGAAGTACGAG
+TGGGGTAAAGTAAGAGCGCTACTAAACGTCTATCCCGCCC
+>ds2020-328_712
+GGTCGGGATAGACGAATCACTGTTATTCACTTCACCTGCTGGGCTTCTCGGGCTGCTGTT
+TAAACTGCAAAGAATTCGCGATGTGTATGGCAAGGATGTCAGTGAGTTCAAAGACTCGGA
+CACTGAGTTGTTCCTGCCCACTTTTGTCAACTCGGTTCCCGGCAGAGTCTTGCCTAGTGT
+GATTCTGGACAAAGAGGGCGCGGAGACGTCTAACCCGACC
+>ds2020-328_713
+TAATACACAGTAACGGCCGCCACTAAGTGATGCTTTTGCCATTGCACTTTAGGTACGATG
+TCCGACCGTACCAAGCGTACCTTCGAACTCCTCCGTTACACTTTGGGAGGAGACCGCCCC
+AGTCAAACTGCCTACCATGCACTGTCCCCGACCCGGATAGACGGGCCAAGTGCATGCATC
+GTCTATCCCGACCAGGCACCTGACTCGTCTATCCCGACC
+>ds2020-328_714
+TGAATTACGGCGGTCGGGATAGACGGTGGTGAGGAGTGTGTGTTGCATGTTGGGGGATAA
+GAGGGCTAGAGAGAGTGTGATGAGGAGCAATGGGGCGGCAAAGGTGTTGTTGGTGATGCA
+AAGTGGATATGGGGAGGGGAATTTTGTGAGGAGGATGTGTGGGGATTTGATTAAAGTTTT
+GAGTGTTGGGTTGAGGTGTGGGGTTCGTCTATCCCGACC
+>ds2020-328_715
+AAGGGACATTGTTTACAACTCAAAAGCACGGGATGTTAATATGTTAGGCTAAGGCACCTC
+TCATCACAGCACGTCGAAAGCATGCCATCAAATTCATTATTTAAAGCCTTAGAGCAGTAG
+CACGCACAGGGATAGAAAACCCTTCTGATCCCAAGGAATGCGCGTCTGGTGGTATCGAGA
+GAAAGGTTGCATTTAGGAGTGATTTCGTCTATCCCGACC
+>ds2020-328_716
+GGTCGGGATAGACGGCCGTAGCTTCTCTTTTTGGGAATAATTTTTATTGTAAAAATGATT
+ATTTCAGATAATCCCCGTCAGGGTTAGAAGACACGCGGACGGATTGACGAACGTACGTGC
+AAGAAAGTCACATCTATTGGATTACTCTAAATGGAACCTCGGACACTCACAAACCGCCTT
+GTCAGGATATCAGCGGCTGCGAATAGACGTGTGGAACTC
+>ds2020-328_717
+GGTCGGGATAGACGAAGGCCTAGAGTTGAATACATACGAACGATCACCGTGCCTAAAGGT
+ACCTACCACATCACGGGGATTGTACACAACATAGTCTTGAACGTCTAGATCTACATCTAT
+TGCTCCCCTGTCCATGCATTCTAGTAACATCCAGAAGCCTTTCACCAACCGAGTCAACTT
+AGATTGCCCAACAAAAACGCGCCAATGTCTATCCCGACC
+>ds2020-328_718
+GCCGTGGACCTAGTCTTATGTGTGGTCAGACTAGGTCACGGCAGGGAGGTGGGCACTAGG
+TCCACGGCACTGGAGTTTCGACTAGGTCCACGGCAGGGGATACGAACTAGGTCCACGGCT
+CTCTGTCCGGGTCGGGATAGACGGCTTGACCCCCTGGTCGGGATAGACGAGGAGCACCCC
+TGGGATAGAGCCGACACTAATTGGACGTCTATCCCGACC
+>ds2020-328_719
+TGAATTACGGCGGTCGGGATAGACGTAGTTTGCTAATGGCGGTGTTGGTGGGGTAGTTGG
+TGTTGGCGCCTGCCTGGATGTAACCGTGAGCTCCCTGGGTTTAGGAGGGGCAGATGATCC
+GTTGCTACGTAGTGGTTGTGGAGCTGTTGGTTTGCGACGGTCGTATGATATATGGGGTGA
+ATGAGGCGATAACAGGGATGCTGGCCGTCTATCCCGACC
+>ds2020-328_720
+GGTCGGGATAGACGATGGTAATGCATGGTCGGGATAGACGTAACCCTTCCTTGGTGGGTT
+GCGGGTGATTGTTGTGAAGGCCACTTTTGGAGGTCCAGTGCTGCAAAAACTGGCCTTTGT
+GTGCAAAAATGGGTCTTGGGACGAGGGCTGAAGGAGGGTTTGGTTGAGAAAATGGGGCGG
+TTAGTGCAGGCTGTTAGTGGCGGCCGTTGCTGTGTATTA
+>ds2020-328_721
+GGTCGGGATAGACGCTTGGTCGCTTTTAGTTGTTTTCTTTGTTGCTGCCATTGACCCCTA
+TGCTGCATTCGATCCATCTGTCCCATCACCAGAGGCGGATATGTGCCCAGGCATCAGATG
+CCTTTCGGACCTGTAAGGGAAATCAGTCATAGGTAGGCCCCATAGCCATCTCCATTCATC
+AGAAACTATCAATTACGAGTCTGTGCCGTCTTCCCGACC
+>ds2020-328_722
+GGTCGGGATAGACGTAACTCATGGCTAACAACGTGTTTTGGGGCGGTAACCAGACTGTGG
+AATCAATCGATTCCGCGGTGAGTGCGGGCGACCTTACGGGTGATGTGGATACCCTAGTAA
+ACTCTAATGCCAAAAGGAGTGAACGGTACCAGAGCATGCTCAGCCGGTACCGTAGCGCGC
+CATCTGAACAAAAGGCAGGGTCCGTCTATCCCGACCGCC
+>ds2020-328_723
+GGTCGGGATGACGTACGCAAGCACTGGTCGGGATAGACGCACCATACCCCTGGTCGGGAT
+AGACGTTAGTGCGCTGTTTCGTCTATCCTGACAGAGAGCCGTGGACCTAGTCCTAGGGGC
+GTTATTTACTAGGTCCACGGCAGGTCAAGGTCCACTAGGTCCACGGCAGGAAAAATATAA
+CTAGGTCCACGGCACGGGGACTACGACTAGGTCCACAGC
+>ds2020-328_724
+TGCCTCTGGCCTTATATTCTCCCGTCCCACCTATGTTATCATGGACTATCATGTCGTCTA
+CTGACGATATTGTCCACGCCATAGCTTGCTTCTGCTCACCCGTCATCTCACCGCTGTACG
+TGTCGGCGAACGCTCGTAACACCGATTTCATGGATCCTGTGCTATGTTGGGAATTGAAAT
+CCTCGAAGTCAAAACATAACGCACCCGTCTATCCCGACC
+>ds2020-328_725
+GGTCGGGATAGACGAATATAACCCTTGGTCGGGATAGACGTTTTAGTACTGGTCGGGATA
+GACGCCCGTCCCCCCTGGTCGGGATAGATGGCACCTTTTCGTCTATCCCGACACGGACAG
+AGAGCCGTGGACCTAGTACTAGCGTGGGTGTATCACTAGGTCCACGGCAAGGGAGCTTGG
+ACTAGGTCCACGGCAGGGATGAGACACTAGGTCCACGGC
+>ds2020-328_726
+GGTCGGGATAGACGTAATGATCGGCTGGTCGGGATAGACGTTATAGTACCCTGTCGGGTA
+GACGACCCCTACAATGCGTCTATCCCACGGACAGAGAGCCGTGGACCTAGTGGGATGTTG
+GGTGCCGTGGACCTAGTAACTGGGCTCCTCAATAACTAGGTCCAGGCATGCTGGTAAGAA
+CTAGGTCTACGGCAGGCCGAGTATTACTAGGTCCACGGC
+>ds2020-328_727
+GGTGGGGCTGACGTGGCGAGGGCTTGCAGAGATAGGATGCATGAGGTGGTGGCGGAGGCA
+GTGGAACTGGAACGGATTTATAATAATAAGAAAGATCCGGTGGATTGGGATTGGGAGAGG
+GTGATGGAGGTGTGTTTTGGTAAAATGGATGAGGAGGTGAGTGGGATTGCGGCGGCCAGG
+AAGGTTGGGGGATACTAGGTCCACGGCTCTCTGTCCGA
+>ds2020-328_728
+GGTCGGGATAGACGTAGAGCTGCTGTTAGCCAAATAGGCATCCCCCTGGACACAGAGTCG
+TCCAAGCGTGACTCGAGTGCTTCGAGCAGGTCCCTCATGTCACTCGAGGGTTTCGACTCT
+ATTCTTGAGTGCACCAGAGTTGCCATTGCCCTCGCCAGATATTGCCCCTTAGATCGGCGC
+TAGTGATCTACACAAAGGGTTCAGCGTCTATCCCGACC
+>ds2020-328_729
+GGTCGGGATAGACGCGCTTTCGCCATTGGCTACTGTAACTTTTGTTTTGTACATCTTCGC
+CCACCTACTAATCGCCTCTTCACTATTCACTCCTTTTGGTCATATTATTTACATTCTGTT
+TTACTTCTGTGATCGTGTTAAGACGACGGTTTTGATGTTATGTGTAGTTGCTGTTGTATT
+GATACGGTTATCATTATATATGTAACCGATGGGGATTG
+>ds2020-328_730
+GGTCGGGATAGACGATCAGGCCCTCGAGAAAGACACTTAGACAACATTAGAGGATCTTTT
+TTTTTACTGTATGAGTGGCTCGGAAGAATAATCGCGCCTCCAGTCGATTCTACTTCATGT
+CTGACTAGATAAGTCACAAGGCCTGTCCTTCTTCAGGCCCCGGTCATCTAGTCGGGGTCG
+ACCAAACTTTCCCAAGTAAGAAACAAACAGAATTTCAC
+>ds2020-328_731
+GGTCGGATAGACGCCGGATGTCCTTGACGAAACCTTTGTACCTAGTGCTCGAAATCTGAG
+AATCAGCTTCCTTGAAGAAATCTCCACTCTCTGTTCTATACGCACAAGCGGTGGCATAGG
+CCGCAACGACAACGTTCACGAGCTCATCGGGGCGGTGTGAAAACCCCGACGAAAGCACGA
+TTCCGCTAAGCGAAATGGCGTTGACGTCTATCCCGACC
+>ds2020-328_732
+GGTCGGGATAGACGTTTCAAGCTCCTCTAGTCGTTCCTCAACTAGGTCGGACGCGGAAAG
+CGCTCCACCTGAGTTCGAGCGGTTATTTGATCGAATCTGTGATGAATACGCAGAGTGGGT
+GGGGAGAAGCGGGAGGCAATTACCTCCCGAATGGACGGTGCCCGACCTTGTTCGGGCAGT
+TATTACCGACAATCGTCTATCCCGACCGCCGTAATTCA
+>ds2020-328_733
+GGTCGGGATAGACGACCCAATGCCCTGGTCGGGATAGACGGTCTACTCACCTGGTCGGGA
+TAGACGTCAGGGCTAAAATTCGTCTATCCCACGGACAGAGAGCCGTGGACCTAGTCCCAA
+ACACCCTGCCGTGGACCTAGTTCTCCTGTCTCTGCCGTGGACCTAGTCAGACCACAGCCG
+ACTAGGTCCCGGCCCCGAATCACAACTAGGTCCACGGC
+>ds2020-328_734
+GGTCGGGATAGACGGAGTGACCGGGGGTCGGGATAGACGCGCAACCCACTTGGTCGGGAT
+AGACGAATAACAATGCTCCGTCTATCCACGGACAGAGAGCCGTGGACCTAGTCAAATGTC
+CGCTGATACTAGGTCCACGGCAGGGATAAGTTGACTAGGTCCACGGCAGGTGCCCTTGAA
+CTAGGTCCACGGCAGGGATGTAGTACTAGGTCCACGGC
+>ds2020-328_735
+GGTCGGGATAGACGGCCTCGTACGCTGGTCGGGATAGACGCATACAGCCCCAATAGTCGT
+CTATCCCACGGACAGAGAGCCGTGGACCTAGTTATCAGCTACTTTGTCCACGGCAGCGCT
+CACGACACTAGGTCCACGGCAGTGAGCGAAAGACTAGGTCCACGGCAGGTGTAAAGTGAC
+TAGGTCCACGGCAGGGGTGTATCTACTAGGTCCACGGC
+>ds2020-328_736
+GGTCGGGATAGACGTATTAAGGCCTGGTCGGGATAGACGGTTCATATCCCTGGTCGGGAT
+AGACGGCCTATTTCCCTGGTCGGGATAGACGTATATGTAGCTTGGACGTCTATCCCGTGA
+CAGAGAGCCGTGGACCTAGTGCGGCAACCCCTGCCGTGGACCTAGTTACATTTTGCCTGC
+CGTGGACTAGTTATCCCCCCAATGACTAGGTCCACGGC
+>ds2020-328_737
+GGTCGGGATAGACGTTTGGGCAGTGTATCCCGACCAGCCACGCGTGTCGTCTATCCCGAC
+CAAGGCGTTCCACCGTCTATCCCGACCGGACAGAGAGCCGTGGACCTAGTACCCTGTTCC
+GTGCCGTGGACCTAGTAATTAGATCACTGCCGTGGACCTAGTCCCTTACTCCATACATGA
+ATAGGTCACGGCAACGGCATCTCAACTAGGTCCACGGC
+>ds2020-328_738
+GGTCGGGATAGACGGGTGCATACGCTGCGGGTCAGTTTCGGGGCGGGGGGGCAAATAGAG
+ACCAGAAGAATGATTCATTTGGATCGACGAGCTTTTTCAGCCCCAAAACTAAGAATCAAT
+GGAATGTCTGTCTATCCATGAATATCTATTCTATCTGTATATCTAGGGAATCACTTTATA
+CATATAAAATTATATTATGGCATGATATGATCGCCTA
+>ds2020-328_739
+GGTCGGGATAGACGAGGTTTGTACTTGACTAGCGATGGTTGAGTGCGACAAGAGACGGAG
+GTCTCGGCCCAAGATGAGGGAAAGGATACAACTTTGAAAGAGAAGTTGAAAAGGGTTAAG
+GCAGTGGTGCTTTGTGGTCCATGGAGCGAGGAGAAGAGAAATTCCTATATGGATTGTTAT
+GCAGCAGTGCAGTGGGGCCAATCCGTCTATCCCGACC
+>ds2020-328_740
+GGTCGGGATAGACGGGTGGTTGTTATTCTCTTACTAAATTGCCTGTAGACATGTGGGAAT
+TAATTAATTTGCATCATCTTGACGTGAGTGGAACCCAAATTGTAGAGATGCCAATGCAAA
+TGAGTACATTGAAAAGCTTGAGAACATTGTCCGCTTTTATTGTGGGCAAATCTACTGGGT
+CGACTATTGGAAGCGGGGGGAATCGTCTATCCCGACC
+>ds2020-328_741
+GCCGTGGACCTAGTATCTCTTACCCTGCCGTGGACCTAGTAATTGGGAGGGTGACTAGGT
+CCACGGCTCTCTGTCCGTGTCATAACCCCCTGTGACGTCTATCCCACCATCTATTGTACA
+CGTCTATCCCGACCAGGGGTCGCCGTCGTCTATCCCGACCAGCTATTTGGAACGTCTATC
+CCGACCCCCTTCACGTCTATCCCGACCGCCGTAATTC
+>ds2020-328_742
+GGTCGGGATAGACGACGCCTCCCCGTCCTATGCCGTGAGCACAAATCTGAGCAACAACTA
+GCCCTGGGTTTGAGCCTAGCATTGCATACTTGGTCTGGATTCTTGTTTTAATGAAGTCGT
+TCCACACTTTGCTTTTCCTGATGTTTATATAATCTTGGGGTCTAAGTGTATCTAAATCAC
+CGTTGAACTTTACTCCCAAAGAACGTCTATCCCGACC
+>ds2020-328_743
+GGTCGGGATAGACGATTGCCACCACTCACTTTACTTTAGTCCACCCGGCATAACCGCATG
+TGAACCAACCGACTAACTTGCCTCTCCGGGATGAGAACCCATGATTTGATCTGCTAGCTT
+GAACGCCTGGATCATGCCGAGAAGAGAAAGTGAAGAAAAGACTGTCGGAACCGATCGGAG
+GAGTATTTCAGAGTCCATCCCCGCGTCTATCCCGACC
+>ds2020-328_744
+GGTCGGGATAGACGAAGAGAGGTCGTATTTCTTTGGGTTGGTAGTAATGGAATGGTTTCA
+TTATCTAAAATCAAGAACATTTCCCACCAAAGGATCAGTCCAATAATACCACTCACTGGT
+AAATAGCGCAATACTTCTTCGTGAATCTCCGCTATTTGAATATGGAACATCATAACAACG
+AATAGGAATGAAACGGCATAGGTCGTCTATCCCGACC
+>ds2020-328_745
+GGTCGGGATAGACGGATCGTATATATACTAGCAACACTCGAGGCAAGCTCTGGCTTTTTG
+GCGAGCGGTTGTCCTGTTTTTGGGTCAGTGACGACAACTTGCGGTGCTGCATGGGTCAGG
+CTTGTCACCTGTAGTACCGTCAATAACACTGCGCCGTTTGCCAAAGAGCCCACCAATTTT
+TTCATGCTTGTCACTTGTCCCCCCCGTCTATCCGACC
+>ds2020-328_746
+GGTCGGGATAGACGCGTCACCCCCATTATGTAAACTGTTTCCTCGCTTCAACGTGTCTTC
+AGATATCGCTTTTGTGTATATATAATTCAATATACTGTTCATGAATGTTGTCAGTCTCCA
+GCCTGACAGCAGTGTGTCTTTCGCCCTGTATGTACGCTTCGTACCAACATTGTCATGTAT
+TACCTGGTTGCCTACAGATTCAGCCGTCCATAAGGCC
+>ds2020-328_747
+GGTCGGGATAGACGGCGTGTTTTGGTATGTTGGGAGATATCATTATTGCCGAACCCAATG
+CTTACATTGCATTTGCGGGTAAAAGAGTAATTGAACAAACATTGAATAAGACAGTACCCG
+AGGATTCACAAGTGGCTGAATATTTATTCCATAAGGGCTTATTCGATCCAATCGTACCAC
+GTAATCCTTTACAGGGCGTATATCGTCTATCCCGACC
+>ds2020-328_748
+GGTCGGGATAGACGATTTGTGGGATTCATTACTGCAACCAAAGATGCTGCGTGATTTAAG
+TGAGGAAGTTGGCGATCGGATAATGGAAGGCCAAAGCGTTGACGAAGCATCGCTAATATG
+TGCCAGGCCATTAGGACAAGCAATCAGGTTGTTAAACCCACACGAAGACGTCATTCTAAT
+GGCGCAATCATATGGACTGTTAGAAAGTATAGGTGT
+>ds2020-328_749
+GGTCGGGATAGACGAACCCCACTGATCTAACTTTTGATGCGACGGATGTTGAGTTGAACG
+ATATTAAAATGCTAGTAACTGACTTCAAGTTTCAAGTTCAGTATGCTGTATCACAAAATG
+AGTAAGTTTTTTTTACAATTTTGTAACTCTTTTGATATTATCTGTTTCTTTTTGAAGTGC
+TTCCAGTTTCAGATTTGTACGGCGTCTATCCCGACC
+>ds2020-328_750
+GGTCGGGATAGACGTCGTCACCATTATGCACAGAGTCCACCACACCCGAGTGTGTGAATA
+CGCCTGCAATGTCCATGTATACATAGTTTAACACCGTATTGAGGAACGTAGTTAGCCTAG
+ACCCAGACAGCAAAGTGCCCGCAGGTCTGTAATTTTTCCCGTCTCCTGCATGAATCAGTA
+TGTCAGTGTAGCTATTTAGTATCCAGTCCATCGCGC
+>ds2020-328_751
+GCCGTGGACCTAGTATATTGTCACTTGGTCCACGGCAGGTAGAGGCACACTAGGTCCACG
+GCAGGAGCAAAGCAACTAGGTCCACGGCAAGCGGAACATTACTAGGTCCACGGCTCTCTG
+TCCGAGGGATAGACGAACGATGGGGCTTCACGTCTATCCCGACCACGGAGTGGTTACGTC
+TATCCCGACCACCACATTCTTTCGTCTATCCCGACC
+>ds2020-328_752
+GGTCGGGATAGACGATGGGGACAATTGTCAAACGATGTGCTCCGTTTGGAAGGCGGGGAC
+CGAGTCTCCATCCTTGTAAGGCCTGATGATGTTGATATTGTGAGAGTGAAGAAGACAGGG
+GTCCATCTAGAATGGGACAAAGTCATGAAGGAGAATAAATCGGATCGTCATTTGTATGAT
+TGGGAAATAAATGGGGATTTCGCGTCTATCCCGACC
+>ds2020-328_753
+GCCGTGGACCTAGTATTCATTACCCTGCCGTGGACCGTTATAGTTACGGCCGCCGTTTAC
+TGGGACTTCAATCAAGAGCTTGCACCCCATCATTTAATCTTCCAGCACCGGGCAGGCGTC
+ACACCCTATACGTCCACTTTCGTGTTTGCAGAGTGCTGTGTTTTTATTAAACAGTCGGGG
+GGGCCAGTTTATTGAACCCCTTCGTCTATCCCGACC
+>ds2020-328_754
+GGTCGGGATAGACGCGGGGTTGTTTTGTATTTAAGTCGGCAAAGCAACTCGTTATTGTGA
+CAGCTGCTCTTGTTTAAGATATACAGTTTGTCTGTTGAACGTTAGCTTTATTAATTGGTT
+ACTTGTTAGTTGGTTTACTTGATATTCACTTTCTCTACACTTTGTTACACGTGTTGGGAG
+ACGTACCATGACCCAGTGCCCTCGTCTATCCCGACC
+>ds2020-328_755
+GCCGTGGACCTAGTCAGACCTTCACTGCCGTGGACCTAGTCCATGCATGCGTGCCGTGGA
+CCCATGTATTTAGCCACTAGGTCCACGGCTCTCTGTCCGAGAATTAGGCGGTCGGGATAG
+ACGTGGGCCCCCACTGGTCGGGATAGACGGTACGCGGGACTGGTCTGGATAGACGGTTAT
+ATGCCCTTTGGTCGTCTATCCCGACCGCCGTAATTA
+>ds2020-328_756
+GGTCGGGATAGACGAAACCACGGCTGGTCGGGATAGACGTACTAAATCCCTGGTCGGGAT
+AGTCGGCGTTATCTCGTCTATCCAGACCAGGGGGAGGACACGTCTATCCCGACACGGACA
+GAGAGCCGTGGACCTAGTGATCGCATTCGTGACTAGGTCCCGGCAGGCAACTTATTACTA
+GGTCCACGGCAAGGGCAGAACAACTAGGTCCACGGC
+>ds2020-328_757
+GTCGGGATAGACGGCGATGTAGAATCGATTGAAGCCAAAGTGAATGAAGACTTTGTGCCG
+GCATGGCCTTGGCTGCCGATTGGGATTGGGATGAAAATATTGCCGCTTAAAGTTATGACC
+AAATTTTTATAAGCGCATATCTAAAAATTTTAAACTCTCAGCATCATCAACAGCGCCTTG
+GCAGCTGATGACGTTTATTATCCGTCTATCCCGACC
+>ds2020-328_758
+GGTCGGGATAGACGAGCAGCGGGGGTGTGAGAGCAGGCAGATAATGTGAGAGCTTGATTG
+CTTGATCGAGAAGAATGCCTTTTCTTGATTGCTTGATCGACTCACTCGTCTGATTGGCCC
+TACTATTCATTATGGCCTTCCCTCCCGACACGAGCATGAAGTCTTTCAATTCGAGTCTGT
+CATTAAGAAATAGTGGGTTAGCGTCTATCCCGACC
+>ds2020-328_759
+CGGTCGGATAGACGATGGTCCTGGTTTGACATGGTTTACGCGTTACTGGTTCCCGGAAGA
+GTTAATATCTCCATTAGCTAAACCCTTTCTTACCCTGCCCTTGGACTCGTATTTTGTTTG
+TACACAATCAACGGAGGCCTCCCCGACATATGTTGCAACGTCTTCAATAGCATGCGCTGT
+TTTCGTCTATCCCGACCGCCATAATTCAGATCGGA
+>ds2020-328_760
+GGTCGGGATAGACGGCAGATCGGGGTGTCCGGTGAGACGACGAGGAGGAGCTCCCAGGCG
+GGAAAGAGAATGGAAACGGTGGAGATGGCGGAGTGGTTGATGATGATGGAGGAGACGTGG
+AGAGCGCGATGAGTGGCGGGAAGCTGAGGGTGGTGATTGTCGTTGTAGAAGATTGCGTAG
+TTGGTGTGGATGTTGTCGATGGCGGTTGGTAAGTG
+>ds2020-328_761
+GGTCGGGATAGACGACTTTCCGCGCGCTTCTTCTTTAATATAGCAGTTATCTAATGAATA
+TAGTAACCACGGGAACACTCGTTGTTGTTCGAGGGACATCCTTTTACCAAACACTGCAAA
+ATATGCTTCCAACACAGCTTTCATCGAGCCCACGCTATGTTGCGAGTTAAAATCTTCAAA
+GTCAAAGCAGTAATGTACCCTGTCTATCCCGACCA
+>ds2020-328_762
+GGTCGGGATAGACGGAACTTCTTGCTCAGCAGGCGTAGCTTGGAGGGGGAGTGTAGCGGG
+GGTAAGGTAAGGAAGAGCCGCCAGAGAGGAAGCCAAACCGGCCTATTAAGCGCAGCTAAG
+CTAATATGCGCCGGAGAAAGCCAGGTGCCGGAGGTAAGCTCTATTCGGCCCGGAGCAAAA
+ATTCCCCATAACGAATGGACTCGACTGTCCCGACC
+>ds2020-328_763
+CGGTCGGGATAGACGGTGCTCTTCTCTCCAATTCATCCCCAAATACAAACCCATCTTCCT
+CTCTCTGCACCACAGCAATCGCCATCTCCATTTCCTTCACCAAAATACTCCTATTCATGT
+GCTGCTCTGCATAGAGCGGCCACGCCACCATCGACACCCCGGCGATCACCGCTTCAAGCA
+CCGAGTTCCAGCCACGTTTATCGTCTATCCCGACC
+>ds2020-328_764
+GGTCGGGTAGACGCATATGAGGTGTGCTATGTGCAACGCCAACGATATACAGCAGGGATA
+TCATTGGGCTGTAAGATTGGATAGATGTATGAGACAAATAATCGTGTCCCTATTATGTGC
+AGAAAAGAAAAGCACTAATGTAATAATAGAGTCCGGATTCCTCCATCAAGCGTCTGTGGT
+AAATGTAAACGAGCACGAAGACGTCTATCCCGTCC
+>ds2020-328_765
+GGTCGGGATAGACGTTAGCTGTCCATTTCTTGTATTTCTTACCAGTCATTGCATCATACA
+TGGTCGCATCATAGCCTCCTACTCTCAACGCTAACAGCATCTTGTTTGCAACTTTATTAT
+CATTAGTCGTGTACGATTTGGATCTGGCATCATAATCCATTCTAGCTTCGTATTGAAGAG
+AATTCATGTAGTACCTGTCGTCGTCTATCCCGACC
+>ds2020-328_766
+GGTCGGGATAGACGTGGCGTGGGTCTGAGAGTGTACGGACACACAGAGAAGAAAGGGGGA
+AGATAGAGAAATATGAAAAAAGCTTTGTGTTTGGATCAAACCCGCAACTTTTGGTATCTT
+TTTTTCCAACACAGAGAAGAGGTTCTCAGATATGAGAGAGAGAGAGAGAGAGAGAGAGAG
+AGAGAGGGGGGCGGCTGTTCGCGTCTATCCAGACC
+>ds2020-328_767
+GGTCGGGATAGACGACCAGCAGCATTACACAACACCCGATTTGCGGATGTTCAAGACACA
+GAGGACATGAGTACACACTACGAGCCAACGTTCGATGTGACCAGTGCGGCGGCTGAGGTA
+CAGAACACTGTACCTATCAGGTACGCGCCCACGGATGGTGCGAAGCATGACAAAGAGCCG
+CGTGCCCCTCAGCCCAGTAGTCCGTCTATCCGACC
+>ds2020-328_768
+GTCGGGATAGACGCTGGTAGATGGTAGCTGGGGTGTACAGTGGTAATAGGGATACTACAT
+TGATAAACACATTGTTGAACATAGCATACGCTAAGGTAGTTGACATTTCAGCTAACAACT
+TGAAAGTGAATATAGGGCTAGAAAGTAGATTGTGACATGGTGATGACATCATCAGTGTGC
+ATAGTACCTATACTGGCTCTGCGTCTATCCCGACC
+>ds2020-328_769
+GGTCGGGATAGACGCCGGGTTCACTTCTATCCCGACCAGCCCACGTAAACGTCTATCCCG
+ACCAGGAGGGTGAATCGTCTATCCCGACCCGGACAGAGAGCCGTGGACCTAGTGGGGTTG
+ACAATTAGGTCCACGGCAGGAGGTAATCTACTAGGTCCACGGCACTGGATAAATTACTAG
+GTCCACGGCAGGAATTATAATACTAGGTCCACGGC
+>ds2020-328_770
+GGTCGGGATAGACGCTCAAGGGCCATGTTCGTCTATCCCAGGATACTCGACCGTCTATCC
+CGACCAGGTGCATGTACCGTCTATCCCGACCGCCGTAATTCTAATACCAGCAACGGCCGC
+CACTAGTCGTGTGGGTTGATTATGATGAGAAGGAAATGGAACAACTCGATGAATTTAGTA
+GATCTTTTTAGGAGACCCAGGTAGTGGCGGCCGTT
+>ds2020-328_771
+GGTCGGGATAGACGCGCAGCCCCCTGGTCGGGATAGACGTTCCCTTGGTCTGGTCGGGAT
+AGACGAATAGGGTGGTTGTCCGTCTATCCCCCGGACAGAGAGCCGTGGACCTAGTCTACA
+ACTTGCTGCCGTGGACGTTTAGAATGCGCTGCCGTGGACCTAGTGGATGAAGGGGCCGTG
+GCCTAGTTCAACCCGCTAGAGACTAGGTCCACGGC
+>ds2020-328_772
+GGTCGGGATAGACGATCGTAAATCTCTGTAAGAGTTATCTTATCTTGTTATTTGCAATGG
+TGTACCCAGTTAACGCTGATACATTTGGGATACTGTGGAAATACATCAAGTAGTGATACA
+GTATTCTCGCACGAAGAGTAGCGAAAGTTCTTCGCTGTAGATGCATTTGCGATTGTCCTT
+GAAACACCTAAGGAGTATTTATAGTGGCGGCCGTT
+>ds2020-328_773
+GGTCGGGATAGACGAGGCAGCTTAATGGGAATGGTAAATGGAGTTTTTGAGGGTGACATC
+AATGTTTGTGTCTACGGTAATTTGATAAAGGCGTACGTGGCTCCGATGCCAGGGAACAGG
+TCAGCAGTCTACTATGACGTTAGTCAGCGAACTTGGGGAATACGTAAAGAAATACTCTCG
+CAGATGACGAGGCACAGCAACCGTCTATCCCGACC
+>ds2020-328_774
+TTTCTTATTATTTGACAGTGCAGAATGTTATTGATGACCATCAGCCATCATGCGCAAAAG
+CTTCACAAAGCCCCACTAAGAACATCATGATGACATCCTGAAAATGGTCCCAGCTACTAT
+TGCCGAAGGTCTGAACACCCGGCTCCTATTTTCAAACCAAGTCCTAGGTTCCAGCTACAA
+AAAAAGAGAGTAGGCAGCGTCGTCTATCCCGACC
+>ds2020-328_775
+CATGTTTTGGCCTTGTGTGTCCATAACTCAAAATAGGTGACCTAACGGCCGCCGCCCGAC
+TAAACATACCAATAGTCACCAGATTCATATGGGCTACTGAGGAGTAAGCAATGATCTTCT
+TAAGATCGATCTGTCTTGAAGTGGTCAAGGAAGTATATATTATAGCAATCGCGCTTGGAG
+TATAAATGAAAGAAGTCCCGCGTCTATCCCGACC
+>ds2020-328_776
+TATATTAGCGCTCTCCAAGTGTGCTTGTTCCTCCCTTCTTCCTTACCATGGCAAGTCTTT
+GTGAAATAACTCCGATGAGAAGAAAAAAGAAGGCGTTAAGAGACCCTCCTGGCCCAACCC
+TAGACACTCTAAGATCCTTTTTCAAACCTGCTCCCATTTCGAGTCAAGAGATAGATAAAT
+AGACACATCCCATTGCACTGACCGGGTTCGTTCG
+>ds2020-328_777
+TAACGGCCTATTTGCCAGATGAGACCACGCCAACAACAGCTTGTTTCTCAACGGTTCCTG
+ATGTTTCAGCCCATGATCCCTAAGTATACCATTGTACCTTGGGTCTGTGCGTACATCTGA
+CCCCTTAGTGCATGTACTGTCACCTAATCCGCCCGTTGCTTCAACAAGATTAGCAGCTTC
+CATCTTGTACAGCGAGCCGACGTCTATCCCGACC
+>ds2020-328_825
+CTTACATCAATTGCCCAGCTGTTGTCTTTGACTTCAATAAGGGACTACCCTTGACAATAA
+TTAAGATTGGAAAGAACGCTAACGCAATCTCCGCTTGCAATCAAAGGCTTTTCAATAGGG
+AGGGGATAGACGGCATGCGTTCTTAACGTCTTCCCGACCAGGCGCCCGAGACGTCTATCC
+CGACCAGAGCTTACATGCGTCTATCCCGACC
+>ds2020-328_826
+GGTCGGGATAGACGTTTGGTTTGGTTATGACGAAGATAGACGGGTTTCCAGAGAAGCAAT
+GCTGATCATTCCGTGTTCATAAAAAGGAGAAAAGAGGAAACTACTGTTCTCCTAGTGTAC
+TCAGTTTAGAACTCTAAATTAACAAGTAAAATTTAGATATTAGTAAGATATGCAGCGAGT
+ACGCTCGGCGAGTACGGCGTCTCTCCCGACC
+>ds2020-328_827
+GGTCGGGATAGACGGGCCCCTCCCCTAATCTACTATCAAAACGTTTAACTATATATACGT
+AAAGAAACACATGCACAGACGATATAGCCAGTCACCGAACCTCTTCCCCGAATGAGTCGA
+AATTGCTACAGCCCTAAACCCGACAGAACTGAACCGGATGTGTGTCGACGACGAGTCTCA
+GGACGATGAGTGACATGCGTCTATCCCGACC
+>ds2020-328_828
+GGTCGGGATAGACGTTACCTAGCCCTGGAGTAATGTATTCTATGAATAATAAATAAAGGA
+GTAATGTATTCTATGAATAATAAATATGAAGAATACTCTTTCAATCAAAGAAATATTTCA
+ACTATTTCCGTGTTCGTATTTCGAAAGTAAAAAAACGTAATAGGAATACAAAAGATAGGA
+AATTTATTACAGATGAATTCTTCATAAATTT
+>ds2020-328_829
+GGTCGGGATGACGGCTTAGGGGACTAGGGACTGCCCTACGGCTCCCACTGAACCTGGAAT
+GCTCGGTCCTGATTCCACAAAAATTCACAAGTTCCCAACCCAGAAGTCACTTCTTGACAG
+CGAACTTGGGGGACTACTGTTTACACCATAATCAACCAAACATATCCAGCATCAAAACAA
+CTCGCACTGGCAAAATACGTCTATCCCGACC
+>ds2020-328_830
+GGTCGGGATAGACGCTTACCTTCCCATGGTGAGGTTAATTACTTTTCTGAGTACTTGAAA
+GGTAAAGCGATCGATGATGATGATCTATACGTTGATCCTATTTGTTTAGTTTCTATGGAT
+AAGTATAGACATATGATAAAATCCCAACTTACACCAGTTGAAGATAACAGTATGATGTTT
+GAGAGGCCTCTGGCAGCCGTCTATCCCGGCC
+>ds2020-328_831
+GCCGTGGACCTAGTCTGATATCCCCTGCCGTGACTAGTTTCCCACCGTCTTAGGCACTAG
+GTCCACGGCAGGACACGACGAACTAGGTCCACGGCAGAGTTCGCAGCACTAGGTCCACGG
+CTCTCTGTCCGTGAATTACGGCGGTCGGGATAGACGACATTCCTGCCTGGTCGGGATAGA
+CGTACAACCACCATGCTCGTCTATCCCGACC
+>ds2020-328_832
+GGTCGGGATAGACGAACTGTTCCACTGGTCGGGATAGACGTAAAGGTGGTTTGTCCGTCT
+ATCCCGACCGCCGTAATTCACGGACAAGAGCCGTGGACCTAGTCCGAACCCCCCTGCCGT
+GGACCTAGTTCTAAACTTCCTGCCGTGGACCTAGTTTTAGTGCACCTGCCGTGACCTAGT
+TCAGCACCGTCTTTGATACTAGGTCCACGGC
+>ds2020-328_833
+GGTCGGGATAGACGATACATACCCCTGGTCGGGATAGACGACACGATGGGGTGTTTGCGT
+CTATCCGACCGCCGTAATTCACGGACAGAGAGCCGTGGACCTAGTTCATAGAGCCGTGCC
+GTGGACCTAGTGTCTTTCCTGCTGCCGTGGACCTAGTGTCCACCACGGGCCGTGGCCTAG
+TTCCTATCGCACTTATAACTAGGTCCACGGC
+>ds2020-328_834
+GGTCGGATAGACGTACGGGCCTTGTCGGGATAGACGTGACGAATGCCTGGTCGGGATAGA
+CGGACTAGCCCCCGAACACGTCTATCCCGGACAGAGAGCCGTGGACCTAGTCATACATTA
+CTTGGTCCACGGCAGCCAGCTTGACACTAGGTCCACGGCAGGGGAAATGTCACTAGGTCC
+ACGGCAGGTCGAATGGCACTAGGTCCACGGC
+>ds2020-328_835
+GGTCGGGATAGACGGAGACCACGTATATCCCGACCAGGAACCACCAACGTCTATCCCGAC
+CAGGTGAGGCCGGCGTCTATCCCGACCCGGACAGAGAGCCGTGGACCTAGTGTGAGGGGT
+ATTAGGTCCACGGCAGAGAGTAGCAAACTAGGTCCACGGCAGGCTACATAGTACTAGGTC
+CACGGCCCCGCATGTTTACTAGGTCCACGGC
+>ds2020-328_836
+GGTCGGAAGACGGTCCATTTCGGTGGTCGGGATAGACGAGTTCGCTGCACCGTCTATCCT
+CGGACAGAGAGCCGTGGACCTAGTATTCTCTAACATGCCGTGGACCTAGTGCGCTCTCAC
+CTGCCGTGGACCTAGTTCCGTATCCTCTGCCGTGGACCTAGTGTTCTACCCCTGCCGTGG
+ACTAGAGGTCTTGAATTACTAGGTCCACGGC