comparison test-data/kraken_test1.fa @ 0:a77e88d426d9 draft

planemo upload for repository https://github.com/dfornika/galaxytools/blob/master/tools/kraken2 commit f05f93ee024df8b38efa1c92db9785d52c726f85-dirty
author dfornika
date Fri, 01 Mar 2019 12:43:26 -0500
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equal deleted inserted replaced
-1:000000000000 0:a77e88d426d9
1 >gi|145231|gb|M33724.1|ECOALPHOA Escherichia coli K-12 truncated PhoA (phoA) gene, partial cds; and transposon Mu dI, partial sequence
2 CAAAGCTCCGGGCCTCACCCAGGCGCTAAATACCAAAGATGGCGCAGTGATGGTGATGAGTTACGGGAAC
3 TCCGAAGAGGATTCACAAGAACATACCGGCAGTCAGTTGCGTATTGCGGCGTATGGCCCGCATGCCGCCA
4 ATGAAGCGGCGCACGAAAAACGCGAAAGCGT
5
6 >gi|145232|gb|M33725.1|ECOALPHOB Escherichia coli K12 phoA pseudogene and transposon Mu dl-R, partial sequence
7 CTGTCATAAAGTTGTCACGGCCGAGACTTATAGTCGCTTTGTTTTTATTTTTTAATGTATTTGTACATGG
8 AGAAAATAAAGTGAAACAAAGCACTATTGCACTGGCACTCTTACCGTTACTGTTTACCCCTGTGACAAAA
9 GCCCGGACACCAGTGAAGCGGCGCACGAAAAACGCGAAAGCGT
10
11 >gi|145234|gb|M33727.1|ECOALPHOE Escherichia coli K12 upstream sequence of psiA5::Mu dI. is identical to psiA30 upstream sequence; putative (phoA) pseudogene and transposon Mu dl-R, partial sequence
12 TTGTTTTTATTTTTTAATGTATTTGTACATGGAGAAAATAAAGTGAAACAAAGCACTATTGCACTGGTGA
13 AGCGGCGCACGAAAAACGCGAAAGCGT
14
15 >gi|146195|gb|J01619.1|ECOGLTA Eschericia coli gltA gene, sdhCDAB operon and sucABCD operons, complete sequence
16 GAATTCGACCGCCATTGCGCAAGGCATCGCCATGACCAGGCAGGATACAAAAGAGAGTCGATAAATATTC
17 ACGGTGTCCATACCTGATAAATATTTTATGAAAGGCGGCGATGATGCCGCAAAATAATACTTATTTATAA
18 TCCAGCACGTAGGTTGCGTTAGCGGTTACTTCACCTGCCGTGACATCGACTGCATTATCAATTTGTTCCA
19 TCCAGGCGAAAAAGTTCAGCGTCTGTTCTGATGAGCTTGCATCCAGGTCAAGATCTGGCGCGGCTGAACC
20 TAATACGATGTTACCGTCATTTTTGTCCATCAGTCGTACACCGACCCCAGTTGCTTCGCCTGCACTGGTG
21 TTGCTCAACAAAGGCGTAGCACCAGTTGTCTTAGCCGTGCTATCGAAGGTTACGCCAAACTTTGGATACC
22 GGCATTCCGCTACCGTTGTCAGAAGCAGGCAGATCACAGTTGATCAAGCGAATGTCGACGGCCACTTTAT
23 TGCTATGATGCTCCCGGTTTATATGGGTTGTCGTGACTTGTCCAAGATCTATGTTTTTATCAATATCTTC
24 TGGATGAATTTCACAAGGTGCTTCAATAACCTCCCCCTTAAAGTGAATTTCGCCAGAACCTTCATCAGCA
25 GCATAAACAGGTGCAGTGAACAGCAGAGATACGGCCAGTGCGGCCAATGTTTTTTGTCCTTTAAACATAA
26 CAGAGTCCTTTAAGGATATAGAATAGGGGTATAGCTACGCCAGAATATCGTATTTGATTATTGCTAGTTT
27 TTAGTTTTGCTTAAAAAATATTGTTAGTTTTATTAAATTGGAAAACTAAATTATTGGTATCATGAATTGT
28 TGTATGATGATAAATATAGGGGGGATATGATAGACGTCATTTTCATAGGGTTATAAAATGCGACTACCAT
29 GAAGTTTTTAATTCAAAGTATTGGGTTGCTGATAATTTGAGCTGTTCTATTCTTTTTAAATATCTATATA
30 GGTCTGTTAATGGATTTTATTTTTACAAGTTTTTTGTGTTTAGGCATATAAAAATCAAGCCCGCCATATG
31 AACGGCGGGTTAAAATATTTACAACTTAGCAATCGAACCATTAACGCTTGATATCGCTTTTAAAGTCGCG
32 TTTTTCATATCCTGTATACAGCTGACGCGGACGGGCAATCTTCATACCGTCACTGTGCATTTCGCTCCAG
33 TGGGCGATCCAGCCAACGGTACGTGCCATTGCGAAAATGACGGTGAACATGGAAGACGGAATACCCATCG
34 CTTTCAGGATGATACCAGAGTAGAAATCGACGTTCGGGTACAGTTTCTTCTCGATAAAGTACGGGTCGTT
35 CAGCGCGATGTTTTCCAGCTCCATAGCCACTTCCAGCAGGTCATCCTTCGTGCCCAGCTCTTTCAGCACT
36 TCATGGCAGGTTTCACGCATTACGGTGGCGCGCGGGTCGTAATTTTTGTACACGCGGTGACCGAAGCCCA
37 TCAGGCGGAAAGAATCATTTTTGTCTTTCGCACGACGAAAAAATTCCGGAATGTGTTTAACGGAGCTGAT
38 TTCTTCCAGCATTTTCAGCGCCGCTTCGTTAGCACCGCCGTGCGCAGGTCCCCACAGTGAAGCAATACCT
39 GCTGCGATACAGGCAAACGGGTTCGCACCCGAAGAGCCAGCGGTACGCACGGTGGAGGTAGAGGCGTTCT
40 GTTCATGGTCAGCGTGCAGGATCAGAATACGGTCCATAGCACGTTCCAGAATCGGATTAACTTCATACGG
41 TTCGCACGGCGTGGAGAACATCATATTCAGGAAGTTACCGGCGTAGGAGAGATCGTTGCGCGGGTAAACA
42 AATGGCTGACCAATGGAATACTTGTAACACATCGCGGCCATGGTCGGCATTTTCGACAGCAGGCGGAACG
43 CGGCAATTTCACGGTGACGAGGATTGTTAACATCCAGCGAGTCGTGATAGAACGCCGCCAGCGCGCCGGT
44 AATACCACACATGACTGCCATTGGATGCGAGTCGCGACGGAAAGCATGGAACAGACGGGTAATCTGCTCG
45 TGGATCATGGTATGACGGGTCACCGTAGTTTTAAATTCGTCATACTGTTCCTGAGTCGGTTTTTCACCAT
46 TCAGCAGGATGTAACAAACTTCCAGGTAGTTAGAATCGGTCGCCAGCTGATCGATCGGGAAACCGCGGTG
47 CAGCAAAATACCTTCATCACCATCAATAAAAGTAATTTTAGATTCGCAGGATGCGGTTGAAGTGAAGCCT
48 GGGTCAAAGGTGAACACACCTTTTGAACCGAGAGTACGGATATCAATAACATCTTGACCCAGCGTGCCTT
49 TCAGCACATCCAGTTCAACAGCTGTATCCCCGTTGAGGGTGAGTTTTGCTTTTGTATCAGCCATTTAAGG
50 TCTCCTTAGCGCCTTATTGCGTAAGACTGCCGGAACTTAAATTTGCCTTCGCACATCAACCTGGCTTTAC
51 CCGTTTTTTATTTGGCTCGCCGCTCTGTGAAAGAGGGGAAAACCTGGGTACAGAGCTCTGGGCGCTTGCA
52 GGTAAAGGATCCATTGATGACGAATAAATGGCGAATCAAGTACTTAGCAATCCGAATTATTAAACTTGTC
53 TACCACTAATAACTGTCCCGAATGAATTGGTCAATACTCCACACTGTTACATAAGTTAATCTTAGGTGAA
54 ATACCGACTTCATAACTTTTACGCATTATATGCTTTTCCTGGTAATGTTTGTAACAACTTTGTTGAATGA
55 TTGTCAAATTAGATGATTAAAAATTAAATAAATGTTGTTATCGTGACCTGGATCACTGTTCAGGATAAAA
56 CCCGACAAACTATATGTAGGTTAATTGTAATGATTTTGTGAACAGCCTATACTGCCGCCAGTCTCCGGAA
57 CACCCTGCAATCCCGAGCCACCCAGCGTTGTAACGTGTCGTTTTCGCATCTGGAAGCAGTGTTTTGCATG
58 ACGCGCAGTTATAGAAAGGACGCTGTCTGACCCGCAAGCAGACCGGAGGAAGGAAATCCCGACGTCTCCA
59 GGTAACAGAAAGTTAACCTCTGTGCCCGTAGTCCCCAGGGAATAATAAGAACAGCATGTGGGCGTTATTC
60 ATGATAAGAAATGTGAAAAAACAAAGACCTGTTAATCTGGACCTACAGACCATCCGGTTCCCCATCACGG
61 CGATAGCGTCCATTCTCCATCGCGTTTCCGGTGTGATCACCTTTGTTGCAGTGGGCATCCTGCTGTGGCT
62 TCTGGGTACCAGCCTCTCTTCCCCTGAAGGTTTCGAGCAAGCTTCCGCGATTATGGGCAGCTTCTTCGTC
63 AAATTTATCATGTGGGGCATCCTTACCGCTCTGGCGTATCACGTCGTCGTAGGTATTCGCCACATGATGA
64 TGGATTTTGGCTATCTGGAAGAAACATTCGAAGCGGGTAAACGCTCCGCCAAAATCTCCTTTGTTATTAC
65 TGTCGTGCTTTCACTTCTCGCAGGAGTCCTCGTATGGTAAGCAACGCCTCCGCATTAGGACGCAATGGCG
66 TACATGATTTCATCCTCGTTCGCGCTACCGCTATCGTCCTGACGCTCTACATCATTTATATGGTCGGTTT
67 TTTCGCTACCAGTGGCGAGCTGACATATGAAGTCTGGATCGGTTTCTTCGCCTCTGCGTTCACCAAAGTG
68 TTCACCCTGCTGGCGCTGTTTTCTATCTTGATCCATGCCTGGATCGGCATGTGGCAGGTGTTGACCGACT
69 ACGTTAAACCGCTGGCTTTGCGCCTGATGCTGCAACTGGTGATTGTCGTTGCACTGGTGGTTTACGTGAT
70 TTATGGATTCGTTGTGGTGTGGGGTGTGTGATGAAATTGCCAGTCAGAGAATTTGATGCAGTTGTGATTG