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comparison test-data/rhodopsin_nucs.no_gi.fasta @ 21:7538e2bfcd41 draft

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v0.2.00, for NCBI BLAST+ 2.5.0 via bioconda or tool_dependencies.xml
author peterjc
date Wed, 19 Apr 2017 05:27:19 -0400
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comparison
equal deleted inserted replaced
20:3034ce97dd33 21:7538e2bfcd41
1 >NM_001009242.1 Felis catus rhodopsin (RHO), mRNA
2 ATGAACGGGACGGAGGGCCCGAACTTCTACGTGCCCTTCTCCAACAAAACGGGTGTGGTACGCAGCCCCTTCGAGTACCC
3 ACAGTACTACCTGGCTGAGCCATGGCAGTTCTCCATGCTGGCCGCCTACATGTTCCTGCTCATCGTGCTTGGCTTCCCCA
4 TCAACTTCCTCACGCTCTACGTCACGGTCCAGCACAAGAAGCTGCGCACGCCTCTCAACTACATCCTGCTCAACCTGGCC
5 GTGGCTGACCTCTTCATGGTCTTCGGTGGCTTCACCACCACCCTCTACACCTCTCTGCATGGATACTTTGTCTTTGGGCC
6 CACAGGATGCAATTTGGAGGGCTTCTTTGCCACACTGGGCGGTGAAATTGCCCTGTGGTCTTTGGTGGTCCTGGCCATTG
7 AGCGGTACGTGGTGGTGTGTAAGCCCATGAGCAACTTCCGCTTTGGGGAGAACCATGCCATAATGGGCGTCGCTTTCACC
8 TGGGTCATGGCACTGGCCTGCGCTGCACCCCCCCTCGTTGGTTGGTCCAGGTACATCCCTGAAGGCATGCAGTGTTCATG
9 CGGGATCGACTACTACACACTCAAGCCAGAAGTCAACAACGAGTCCTTTGTCATCTACATGTTCGTGGTCCACTTCACCA
10 TCCCCATGATCGTCATCTTCTTTTGCTACGGGCAGCTTGTCTTCACAGTCAAGGAGGCGGCAGCCCAGCAGCAGGAGTCA
11 GCCACCACCCAGAAGGCTGAGAAGGAGGTCACTCGCATGGTCATCATCATGGTCATTGCTTTCCTGATCTGTTGGGTGCC
12 CTACGCCAGCGTGGCATTCTACATCTTCACCCACCAGGGGTCCAACTTTGGCCCCATCTTCATGACACTCCCGGCGTTCT
13 TCGCAAAGTCCTCCTCCATCTACAACCCTGTCATCTACATCATGATGAACAAGCAGTTCCGGAACTGCATGCTCACTACC
14 CTCTGCTGTGGCAAGAACCCACTGGGTGATGACGAGGCTTCCACAACCGGTTCCAAGACGGAGACCAGCCAGGTGGCACC
15 GGCCTAA
16 >U59921.1 Bufo bufo rhodopsin mRNA, complete cds
17 TCTTTCTAGTTTGGGGGGGGGGACTTTAAAGAGCCGCCAATATGAACGGAACAGAAGGCCCAAACTTTTACATACCCATG
18 TCCAACAAGACTGGGGTGGTGCGAAGCCCCTTTGAATACCCTCAGTATTACCTGGCAGAGCCATGGCAATATTCCATTCT
19 GTGCGCGTACATGTTCCTGCTCATTCTACTTGGGTTCCCAATCAACTTCATGACCTTGTACGTCACCATCCAGCACAAGA
20 AGCTCCGGACACCCTTAAACTATATCCTGCTGAATTTGGCCTTTGCCAACCACTTCATGGTCCTGTGTGGATTCACGGTG
21 ACAATGTACTCCTCAATGAACGGATACTTCATCCTCGGAGCCACCGGTTGCTATGTTGAAGGCTTCTTCGCTACCCTTGG
22 TGGTGAAATCGCCCTTTGGTCCCTGGTGGTCTTGGCCATTGAACGATACGTGGTCGTCTGTAAGCCCATGAGCAACTTCC
23 GATTTAGTGAGAACCATGCCGTCATGGGCGTAGCGTTCACCTGGATAATGGCTTTGTCCTGTGCTGTTCCTCCACTCCTT
24 GGATGGTCCAGGTACATCCCCGAGGGCATGCAGTGCTCCTGCGGAGTCGACTACTACACCCTGAAGCCCGAGGTCAACAA
25 CGAGTCCTTCGTCATCTACATGTTCGTCGTCCACTTCACCATCCCCCTGATTATCATTTTCTTCTGCTATGGCCGCCTGG
26 TGTGCACTGTGAAAGAGGCTGCAGCTCAACAGCAAGAGTCCGCCACCACCCAGAAGGCCGAGAAAGAGGTGACCAGGATG
27 GTGATCATCATGGTGGTCTTCTTCCTTATCTGTTGGGTCCCCTACGCCTCTGTCGCTTTCTTCATCTTCAGCAATCAGGG
28 CTCTGAGTTCGGCCCCATCTTCATGACCGTCCCAGCTTTCTTTGCCAAGAGTTCTTCCATCTACAACCCCGTCATCTACA
29 TCATGCTCAACAAGCAGTTCCGTAACTGCATGATCACCACCCTGTGCTGCGGCAAGAATCCCTTTGGAGAAGACGATGCC
30 TCCTCTGCCGCCACCTCCAAGACAGAGGCTTCTTCTGTTTCTTCCAGCCAGGTGTCTCCTGCATAAGACCTTCCACCAGG
31 CCTGTCTCAGGGTCCGCTGCCTCACACAGCTCCCACCGCCCCAACTCCGTCTCCTGCTCGCTAAGGCGGCGAAGTTCCCC
32 TTCCATTACATAAAACGTATCTGTTCAAGAAAGGCGACGACGAAGGAGAAGAAGAGGAGCCCCCCCGAACCCCTTCGCTG
33 CTGCTGAAAACGACTTGATTGCTTCTGCAACGCAACGGGGCCTTACGGCAGCGAAGGGGTTGTCATCCGGACGCGCCAAG
34 AATTCCTTCGAGACTGTAAATATCTTAAAGGAACCGTCCTGCTAGTTACCGACGCCGCTCCTGTAGCCGCCGTTCCCCCG
35 CACTCCGGCCGGTTCATACCTCTTATTTTTTTGCAATGCAACAGAAAATAATATTTTTGTTCCCACGGCTTTTCCCGGTC
36 AGGTCTGGTAGTGGCGGAGATTGGCCGACCCCTCGCACCTGTAATAAAGCGCAG
37 >GQ290303.1 Cynopterus brachyotis voucher 20020434 rhodopsin (RHO) gene, exons 1 through 5 and partial cds
38 GTGCCCTTCTCCAACAAGACAGGCGTGGTGCGCAGTCCCTTCGAGCATCCACAGTACTACCTGGCCGAGCCATGGCAGTT
39 CTCCATGCTGGCCGCCTACATGTTTCTGCTGATCGTGCTCGGCTTCCCCATCAACTTCCTCACGCTCTATGTCACGGTTC
40 AGCACAAGAAGCTGCGTACGCCTCTCAACTACATCCTGCTCAACCTGGCCGTGGCCGACCTCTTCATGGTCTTCGGAGGC
41 TTCACCACCACCCTCTACACCTCCCTGCATGGATACTTTGTCTTCGGGCCTACGGGATGCAATCTGGAGGGCTTTTTTGC
42 CACCCTGGGAGGTATGAGCTGAGATGCGGGTAAGGAGGAGGCATAGAGGCATCTGGGAACAGTCCCAAGCTTGGGGTGAA
43 GGCTAAGAGGCCTTCTTCCTTGTTCTGTCATTGGCGTCGTCCGAAGCCCTCACTTAATCAACAAACAGTTTGGTGGTGAG
44 GCGCTGAGCTCCATTTGGAGAGGGCAGGTATCGAGCACTGTTTTATCCCCCCTGGAGTGGTGCCATTGCCTTGCTTTACA
45 GCAAAGAAACTGAGGATGAGAGGAGTCGAGGGTCTTGCCAGGTCACATCATGGCAGAGACAGAGCTGAGTTTCAACCCTG
46 CATCTATGTGCAGTTTCCCTTGGAGCAGCTATGTTAGGTCAGACCCACGGTGGGCACTGGGGAGAGAGCTGCACAAGACA
47 GGTCCCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
48 NNNNNNNNNNNNNNNNNNNNNNNNNNNTTCCTGATTGCCAGGAGTGATGTGCAGCGCAAATGTCTGAATTCCATTATTAT
49 GTGCTCCTTCTTCCTCTGAGCCAAACATCCATCTTCATGGCTCCTAGAATTGGGTCCCACCCACATGAGCAGGTCATTTT
50 GTTTCCCTAGAGGGGAGAGGTCACTGCTGTGGAGGGAGGGAAGGTTCGTCCCGCTCCATGTTTCTGTTGTCTCTGCAATG
51 CCTTTCTCTAGGGACTCTGCCTATTGCCCCAAGAAGGACACATTCTTCTGTAAAAACTCCCTCCTGGGTTCCCAGTCTAA
52 TCAAGACCTCTAAACTGATTTCCATGTCCCTCATGAACCCAAAGCTCTAACTGAATTAAACTTCTCAGGACTTACTCCAC
53 TCTCCTCGTCCATCATGCAGCCCCTCTGCCCAGCACCCTATCTCCTCTTCTTCCCAGTGTCTGAGCCCACTGTACCCTGA
54 GACTTCGCTCCAGGCCTGCCCCAGGCTGCCTTCTCAGGTGCCCTCTCCCACATAGGAGGAGCACGGCCTCCTTAGACAGA
55 CGTGGGGTGCAGGTTGGTGGCATGCTGACTGATAGCTGACTGCCTTGCAGGTGAAATTGCCCTGTGGTCCTTGGTGGTCC
56 TGGCCATCGAGCGGTACGTGGTGGTATGCAAGCCCATGAGCAACTTCCGCTTCGGGGAGAACCACGCCATCATGGGCCTT
57 GCCCTCACCTGGGTCATGGCACTGGCCTGCGCCGCGCCCCCGCTAGTCGGCTGGTCCAGGTAATGGCACTGAACAGAAGG
58 GAAGTGCCTCTGAGGTCTTCTTAGGGTCCCCCAGCTGGGACTCAAACCTAGGGCTGTCTGGTTCCAGGCACGGAACTGGC
59 GACTCCACTGGGGTTGGGGTTTAGGGCAAGGAAGGAGAGGATCAGACCCTAATGTTGTTACGTGGGTTGGTCCGCATGTC
60 AAGGAGAATCCAAGACACCCAATCCTTCACCTTGGCTGTGCCCCTAATCCTCATCTAAGCCAGGTTCAGATTCCAATCCT
61 CTTTGGCCCAGTGCTCCGTGGGAAGCTCCCTCTGACCTTGGGCCTCAGCGCCTGGGGTTGCTGAGCCTTCCTAGTATAGG
62 TGGTGACATCGTAGCCCCTGGGACCTGGATCCTGCCCAGTCTGCAGGCCATCATCTCCAAATGGGGCTGAGATGAGATGT
63 GAGGAAAGAGGGGAGACAGTGGTTTGGAAAACTGGACTGGTGGCTTTTTTGGGTTTCCAGAGGACTCATCTTCCTCTGCT
64 TCTAGAATATTCCCACTCTCTCTTCCCTTTCCTCATTCTTCCTGGGTTATTTTTTTTTCCCTTTGCTGAATTCGAGCCCC
65 ATTCCCTCCAGCCTCTTTCCCTGTCTTATCTAGCCCAGTCCAGTTATATTCTCATAGGCAGAGGCAACAGATGCTCCAAA
66 TTTTCTGAGGTCGGTTCCAACATCGCCACCCTCTAAAATCAGTGAAACATCCTAACTACATGCCTCATAGTCCTCCTGTT
67 TCCAAAAACTGCAAAGATCTCCTGGTTACCCTGTATGCCCATCTTTGGGCTAGAAAATCCTCTCACCCTGTTAATAGTAA
68 GACCCTGGTTTGTACAAACTGCCTCAAACACAGAGTTTAGGGGCTTTTCCCTTCTCTCCGCCAACCTCTGACAGGCAGAG
69 TCTGAGGCCTGGCCTCCAGCTGCTGCGGGGAGCAGGTCTGGTAAAGAATCCTGTGCAGGTCAGTGGTATACAGGTCCTGT
70 CAGGTGACAGCCTGGGCGAGAGACTGGAAAGTATCAGGATAACACGGCTGCCAGACGAACAACAAAACAACACTGAATTC
71 ACAAGGCGCATTCGAATCCTCTCTCAGTCCATTTGATCCTCAGTCACACAGCCGAGTAGACACTTTATCAACTCATTTAA
72 CAGAAAGGGAAAGTGAAGCCCAGAGCGAGGCCAGCAACGTGGCAGGTCACTCTGGTCATCTAGGGCCTGTTCCCAACTCT
73 TTCACATGTGGGTCTCCAATATGTTCCCTCCTGTCCCAATCTCTGCCGGCCCTCAGGTACATCCCAGAGGGCATGCAGTG
74 CTCATGTGGAATCGACTACTACACCCTCAAGCCGGAGGTCAACAACGAGTCCTTTGTCATCTACATGTTCGTGGTCCACT
75 TCACCATCCCTATGATTGTCATATTCTTTTGCTATGGACAGCTGGTCTTCACCGTCAAGGAGGTAAGGTCATGTGTTGGG
76 CACTGGGGACATGCACACTGAGTGAATGGAGCCCAGCTCCATTCCCAGAGTTGCCACAGTCTGGACACCTGACCTTGTGT
77 CCCTGCAGGCAGCTGCCCAGCAGCAGGAGTCAGCCACCACCCAGAAGGCCGAGAAGGAGGTCACCCGTATGGTCATCATC
78 ATGGTCATTGCTTTCCTAATCTGTTGGCTGCCGTATGCCGGCGTGGCATTCTACATCTTCACCCACCAGGGCTCTAACTT
79 TGGCCCCATCTTCATGACCCTCCCGGCATTCTTTGCCAAGTCGTCCTCCATCTACAACCCTGTCATCTATATCATGATGA
80 ACAAGCAGGTGCCAGGTGGTAGGGAGGGAGGGTCTGGGTCCCCCAGGCTGCAGGCACTGCCCACAGAGGACAAGCCACAT
81 CCTTGACTAGGCAGACCCCAGTCTTCCCATCTGCAAAATTAGGCAGGGGAGTTCGTCTCCCCCAGGCATCAGAGACATCG
82 GGGAGAAATGCACATTTCTGGAGATGAATCAGCATCTCAGGGTGGGCCCAGGAACCTGCACTTCTAAAAACCATTCCACA
83 TGACTCTGAGGCTAGCATGAGAAGTGATGATCCACATGGTTCTGGAGGCCTGCTTTAAAAGTCAAGTGGTCAAAGTCCCA
84 AGCCTGGGAACGGGATGGTGCCAGTCTCCATTAAAGAGATCAAAAGGAGCTAGAAAGTCTTGTGATGAAAGATGAAGGGA
85 TAAAGCCGTCCTTTAACACAGATCAGTGATTTCTCTGCAGAATCCATGACCCAGTGGGAAAAAGTGGTCCCTGGAGTCAG
86 GCATATTGGATTCAAATCCTAGCTCTGCTATTTTCTAGCTATGTAACCTTGGGCAAGTCATCTCCCTTCTCTGTGCTTCA
87 GTTTCTTCTTTCATAGAAAGGGTAAAATCCCAAACTCTTGGGTTAAATGAGATAACTTACATAGCCCTTGATATGCAGAG
88 GCATTATGGAATGTCGTTAGTGACAAAGTTCCCTTGGGTTTGGTCCCTGGTATCTCTGGAGTGAGATTGCATATGTTCCC
89 TTCAGAGGGTCAGATTTGGGATGAGAGTGGAGGCTGCGAGGGCCTGAGTGGGAAGGGATTGGAGGCAAATCTCACCAACC
90 ATGTCAGTTTGCTACACACACTTTGGGTGGACCCTGACCCTGACTCATGCTTCTTGCCTTCCAGTTCCGGAACTGCATGC
91 TCACTACCCTCTGCTGTGGCAAGAACCCACTGGGTGACGATGAGGCCTCCACCACTGCCTC
92 >GQ290312.1 Myotis ricketti voucher GQX10 rhodopsin (RHO) mRNA, partial cds
93 GTGCCCTTCTCCAACAAGACGGGTGTGGTGCGCAGCCCCTTCGAGTACCCGCAGTACTACCTGGCTGAGCCCTGGCAGTT
94 CTCCATGCTGGCTGCCTACATGTTTCTGCTGATCGTGCTCGGATTCCCCATCAACTTCCTCACGCTCTACGTCACCGTCC
95 AGCACAAGAAGCTGCGCACGCCTCTCAACTACATCCTGCTCAACCTGGCTGTGGCCAACCTCTTCATGGTCTTTGGAGGC
96 TTCACCACCACCCTGTATACCTCTATGCATGGATACTTCGTCTTCGGGGCCACGGGATGCAATCTGGAGGGCTTCTTTGC
97 CACGCTGGGCGGTGAAATCGCCCTGTGGTCCCTGGTGGTCCTGGCCATCGAGCGGTATGTGGTGGTCTGCAAGCCCATGA
98 GCAACTTCCGCTTTGGGGAGAACCACGCCATCATGGGCCTCGCCTTCACGTGGGTCATGGCACTGGCCTGCGCTGCACCC
99 CCACTAGCCGGCTGGTCCAGGTACATCCCAGAGGGCATGCAGTGCTCGTGTGGGATTGACTACTACACGCTCAAACCGGA
100 GGTCAACAACGAGTCCTTCGTCATCTACATGTTCGTGGTCCACTTCACCATCCCCATGATTGTCATTTTCTTCTGCTACG
101 GACAGCTGGTGTTCACAGTGAAGGAGGCGGCTGCCCAGCAGCAGGAGTCAGCCACCACCCAGAAGGCCGAGAAGGAAGTC
102 ACGCGCATGGTCATCATCATGGTCGTTGCGTTCCTAATCTGTTGGCTGCCCTACGCCAGCGTGGCATTCTACATCTTTAC
103 CCACCAGGGCTCTAACTTTGGCCCTGTCTTCATGACCATCCCGGCATTCTTCGCCAAGTCATCCTCCATCTACAACCCGG
104 TCATCTATATCATGATGAACAAGCAGTTCCGGAACTGCATGCTCACCACCCTCTGCTGTGGCAAGAACCCACTGGGTGAT
105 GACGAAGCATCCACCACTGCCTC
106 >AB062417.1 Synthetic construct Bos taurus gene for rhodopsin, complete cds
107 ATGAACGGGACCGAGGGCCCAAACTTCTACGTGCCTTTCTCCAACAAGACGGGCGTCGTACGCAGCCCCTTCGAGGCGCC
108 GCAGTACTACCTGGCTGAGCCATGGCAGTTCAGCATGCTGGCCGCCTACATGTTCCTGCTGATCATGCTTGGCTTCCCCA
109 TCAACTTCCTCACGCTGTACGTCACAGTCCAGCACAAGAAGCTGAGGACCCCCCTCAACTACATCCTGCTCAACCTGGCC
110 GTGGCAGATCTCTTCATGGTGTTCGGGGGCTTCACCACCACCCTGTATACCTCTCTGCACGGGTACTTCGTGTTCGGTCC
111 GACGGGCTGCAACCTCGAGGGCTTCTTTGCCACCTTAGGCGGTGAAATTGCACTGTGGTCCTTGGTGGTGCTAGCCATCG
112 AGCGGTACGTAGTGGTGTGCAAGCCCATGAGCAACTTCCGCTTCGGGGAGAACCACGCCATCATGGGCGTCGCATTCACC
113 TGGGTCATGGCTCTGGCCTGTGCGGCCCCCCCCCTCGTCGGCTGGTCTAGATACATCCCGGAGGGGATGCAGTGCTCGTG
114 CGGGATCGATTACTACACGCCCCACGAGGAGACCAACAATGAGTCGTTCGTCATCTACATGTTCGTTGTACACTTCATCA
115 TCCCCCTGATTGTCATATTCTTCTGCTACGGGCAGCTGGTCTTCACCGTCAAGGAGGCTGCAGCCCAGCAGCAGGAGTCG
116 GCCACCACTCAGAAGGCCGAGAAGGAGGTCACGCGTATGGTCATCATCATGGTCATCGCTTTCCTCATATGCTGGCTGCC
117 CTACGCAGGTGTGGCGTTCTACATCTTCACCCATCAGGGATCCGACTTTGGCCCCATCTTCATGACCATCCCGGCTTTCT
118 TTGCCAAGACGTCTGCCGTCTATAACCCCGTCATCTACATCATGATGAACAAGCAGTTCCGGAACTGCATGGTCACCACT
119 CTCTGCTGTGGCAAGAACCCCCTAGGTGACGACGAGGCCTCCACGACCGTGTCCAAGACAGAGACCAGCCAAGTGGCCCC
120 TGCCTAA
121 >AB043817.1 Conger myriaster conf gene for fresh water form rod opsin, complete cds
122 CCGCTACTGACGAACCGCAACCATGAACGGCACTGAGGGACCTAACTTCTACATCCCCATGTCAAACGCCACTGGTGTAG
123 TGAGGAGTCCATTTGAATACCCGCAGTACTACCTTGCAGAACCATGGGCTTTCTCAGCTCTGTCTGCCTACATGTTCTTC
124 CTGATTATCGCCGGATTCCCCATCAACTTCCTCACCCTGTATGTCACCATCGAACATAAGAAACTGAGGACCCCACTGAA
125 CTACATTCTGCTGAACCTGGCCGTGGCCGACCTCTTCATGGTGTTTGGCGGATTCACCACCACGATGTACACCTCCATGC
126 ACGGCTACTTTGTCTTCGGCCCCACCGGCTGCAACATCGAAGGGTTCTTCGCCACCCTCGGCGGCGAGATTGCCCTCTGG
127 TGCCTCGTTGTCCTGGCCATTGAAAGGTGGATGGTCGTCTGCAAGCCAGTGACCAATTTCCGCTTCGGTGAGAGCCATGC
128 CATCATGGGTGTCATGGTGACCTGGACCATGGCATTGGCCTGTGCCCTCCCCCCTCTCTTCGGCTGGTCTCGGTACATTC
129 CGGAAGGTCTGCAGTGCTCGTGCGGGATCGACTACTATACCCGGGCGCCTGGGATCAACAATGAGTCCTTTGTGATCTAC
130 ATGTTTACCTGCCACTTCTCCATCCCACTCGCCGTCATCTCTTTCTGCTACGGCCGACTGGTGTGCACCGTCAAAGAGGC
131 CGCTGCCCAGCAACAGGAGTCCGAGACCACCCAGAGGGCTGAGCGGGAGGTCACCCGCATGGTCGTCATCATGGTCATCT
132 CCTTCCTGGTCTGCTGGGTGCCCTATGCCAGTGTGGCCTGGTACATCTTTACCCACCAGGGAAGCACTTTTGGGCCCATC
133 TTCATGACCATTCCATCCTTCTTTGCCAAGAGTTCAGCCCTCTACAACCCCATGATCTACATCTGCATGAACAAGCAGTT
134 CCGCCATTGCATGATCACCACCCTCTGCTGTGGGAAGAACCCCTTCGAGGAGGAGGATGGAGCGTCCGCCACTAGCTCTA
135 AAACTGAGGCTTCATCCGTGTCCTCCAGCTCTGTCTCCCCGGCATAAACCTTGTTTGACCGAACACCACGCATCAACACA
136 AAGACCAAGAATGCTGACTAAATGCTAACATTTCAGGGAAATCCAAAGACTTTTTACTATTTTTTTACACAACCATATAG
137 GTTGCAAACAGAGGTTTAGCCCTGTTTACAGGTTGTCATCAATGTGATGTCAGTATGTACAATATAGTCAACTTGATAGC
138 AAGTTGTTGGCTTATTTCAGATTGTATGGGCAATGTAATCAACCATATGTGAAATAAATTGCAA