Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: exon five_prime_UTR polypeptide CDS three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
CAGACCGAGTACATAACCATCAAGATCACAAGCTAGGTCTTCTTCCGTCTATATCTTGTTCCTCAACAATCAGAAACTCCATCTTCTTCCGTCTTTTTCCAATTCCATCTAAAAGGGCGTCCTGATTTTAGGAATCAGAGTTTTCCAGAAATCGAATCCTAGACTCACACTTTCTCTCTCCTAGGGTTCCATCACTGGTTTGTCTCAATTTCTTCCGATTTCAAAATTTTTAAGATTTGGGGGAAACCCCCTTTTGATACGCCACTGCCCAGCATACTACCCCTTTCAATAGGGGATGATTTTGTGTTCTGGGATTTGTGAATAAGGCGAGATAATCATAATATTGCTTTTTAGCAAGAATAATCCAGTAACATAGTTCTGGGGAATAATTTGGACTTTGATTTAGGGTTTTTATATTCATCAAAAATTCAAAAAAAAATCACTATTGGGGAGAACTTAAGATTTCCGTGCTTCCCAATTGTTGAGCCACAAAGCTCAATTTTATTGTTTTGAGTGTCGAATTCAAGCTTCGAGTGAACATTGCTTAATCTGGGGCATGGAAGAGTGTTGTAGTTATAGAGTCAGGCAATAGAGGATCACCGGGGATTTTTCGATACTTTGATTCAATTGAAGCTTGTTGTAGTAGCTAAAGAGTTGATTGATTGATTGGTAGAGGATCAGTGGGATAAATTTTGATTTTGGTTGCTTTGATTTGACCCAGCATACTACCCCTTTTCAATAGGGGATGATATTGTGTTTTGGAGCTTCAGAATAAGGCGGAATATAGAGAGAATCATTACAATTTCTCGAAATCGATTTGGGGATAAATTCGTCGACGATCCTTTGGCAATCTGGTTATTGAGCTGATATTGCATTGCTTTTGAGTTTGTGGGTGTTGTTTGTGGCAAGTGATTTGTGTGAATTTGATAATTTGATTTGGTGGGCTGAGACTGAGTTTATGGAAGTATTTTGAAGCTGGAAATGAATGTGGGGACATGGTGCATGGACAAGAGCTTAGTTGTTGGTTTGATTCTTGTTTGGAACATTGCCCTAGCACTAGCTTACTAGTCCAAGTATTTGCGCTTGCAAGGGGTGACAGATTCTTGAGGCCCTTGGAACTTTTGCA ATGTCTCGCTGCTTTCCTTTCCCTCCACCAGGATACGAAAGGAAGACGAAGGCGGACGACACTGACTTGCTAAAAAAG GTTAATACCAATGCTCTTTCAATTGGCTGTGAATCCATTATGTATGTTCATGTGATGCAAATCATAATGATAGACTATGTGCTGATATGGAACTTTTTGCTTGGTACTTATTCCACATTTCCACCGTCTGGTAGTGTGTGTGGTTTGTGTTTGTGGGGTTGGGGGAGAGCACAGTGTAGCACAAATGCCACTTAAAGGATTCATACTCTGTTCATTTCCGCGGTATAGGGAACACAGATTTATTATACTATTACAAAGGTGTCCTAAAATGAATTGAATCTTGATTTAGTATTCGTCCAGGACTTAGTTAAGAAATTGGAATCACCGTAAACCTCTCAATTCTGCATCTTCCGTGATCATGATCGTGATTGGATATAGATGCTAATTCTCTTAGTTTTCTTATGACTTTGCTATAAAACCTATGGCCGTGACACAAATAACATTTTACCGATTTTCTCTTCATAGTACTTATTGTTATGACATCTTCTGTTTCCCATTTGGGATCTTGATAGATTCTGACCTTGACACCTGAGTTGTTATAGAGAATGTGCTGGTTTTTGTCCCTGTTTCTCATTGTTTTTCCCTCCGTGGATTATTGTCTTAAAAGTAGCGGATAATGCTTGAATGCAGTTGTGGTTTAATTAAATAGTGGCAGTGGAGTTATGAGTCCTGGTCACTTATTTGTTTATCTGTTATCAGGTTATCTTATTTTTGCAATGTAGAGGCCACTGACAAACTCAAAGAGGTTGAACTTTGACTAATTAGTTGTATGAAAGTGTACTCCAATCACGAATGGTAAAAGAGTAAATATCTCAATAGAATCATTTTCTAGGAATCTAAGTTGCAAATGATGACTGGTTGAAAATTGCAATCCAGATAAAATTTGTGATTTCTCTATAATTATTCCGCCTTTCATTGCAAAGGTTCCATATTAGTTGAATATTTACCGGGATCATATTGTTGTATATGGTAGAGTAATAAAGCGTGTCCTTATAGTTTGTATTTACACAAGGTTCCCAACTTCTTTTAAACTTGGAGGTCGAGTTTTTGGTATTTTTATTTTGGATCTTTGACATGTAAGCCAAAATTTGGTTTTGAACTCGTGTCAAGGAATATTTTCGATATATATTCTTAATTTCATGCCAAGTTCTTCCAGACTGGACATGCTATTCATTAGGGAACTTAAACTGGACTAAATATTCAATGTGCTGGAGTATAAAAGCTCTTCACTTGTCAATTTGTCTTGCATCAGGTACAAAACCTTTTTTCTGTTTTTTTTCAATTTGATCCACTTAAACCACCATTTTAGTATTAGCGAATTTACCTCCCTTTACAAGTTGCTAGTGTGTGCATAGTTTTTGAAAGGGTCCTCATAAATTGATGGTATTACCTAATGTAGTGCTTAGATCTCAAATTTGCACGATGAGCAAAGGTTTAACTAGCCAACTCGTGTTATAAGTGCTTAAATGTGTTTTAAGCAGTAAACTTCCCTACAATGCAATCCTTATCCTATGTTTTAGTTTAGGTTTAGTCCATATTGGTTTATATTACAAAAGCTGTGAAACATGTGCTGGCTGACTTATCATTAGTCATAAGACGTCCTAGAAGAAGAAATAGACAGTCTTGCCCCGAGGAATCAACTCTAAATTTTTTATTGCAATTTTTGATTTTTAAGACTTCATTGATGAGTGATGAGTGCATATTTCTTTTAAAGGACTTTCTCGAATTCCCTTTGTCTAGATTATGTCCTAAGAGCTCTTACTCAATAGCCATCACTTGATGCCTTGACCCAATCAACAGATTACTTGCTATGGCTGGCTGGTTGCAAATTTGATTTTAAGACATTATATGTTTTTCTTTTGGTGCGTTTACAACTGTTATCAAGTATTTGCTTCTACAAGTTTGACAAGAACTTTCAGTAAAATTCTTGATTAAACTAGGAATTTTAGATGTGAAGTAGTACTTAGAGAGTGTTGTTGCTTGGTAAGAGTTTTGGAGGAAGTTATGCTTGAATTTCCTTTGAGCCAAAACCCTTTCTAGGTTCTACTCATATTAGGCTGATTCATTAGTCATTAATTACCCTTATATGCTTGCAATCTTTAGGTCTAGGAGAATGAACTCATAGAAGTTTCGTAAATGATTTTTCTGGAAGGACTATCTAAACCTCTCCTGCAAGTCTGCGACAATGTCCATAAACATAAATTCCTTTTTTGTATGTTTGTGTTCACTAAACATTGTGCCTTTGTTATCAATGGAGGACTTTACTAGGTAGCCGGAGTTGGAATTATAGGCATTTGTGGTAGGGTGATGTGTTCGAACCTTACTTTTCCGGATGTTAAAGTTCACAATACTTTTTCAGTGAGAAACATTTTTTTTTTGGACATAAAGTATTCACTTTGTATCAACATTGTGTATATGGTGATTGTAGTGGATGATAACACATTGCTTATAGGAACTCTATGTAGGACTGTATGAATTTTTGTGGCAGCTCAAGTGCTGAGACAAGATGCGCTTGATTTAAGTACCTTATGAATCATATTTACTACTTTCCTAGTGATGATCTTGGAAAGCTAGGTGTAGTGGCTACAGATACAATATGAGTTTAAAGTTGACTATTCACATGAAATTTTACTCTGCTATGACTTGCTATTTTCATGTTGCTATTGTTAGGACATTTTATGTGAATAGAATTTTTTGGGTCTATGGCTCTTTTTTGTTTATTTTTTGGGGGAGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGGGGGGGGGGGGGGGGGGGGGTGTGCGCGGTGCACTTCTAGTTTAATTTGACAGTTGACCCCCATTAGATTTATCAACAGTGTGTACATGGTTGTAGTGGAGGTTTCATGTTGTTGTTAGGACATTTATGTGAATAGAAATTTATTTGTTTTTTGGCTCTTTTTTTTAGTTGTTGGGGGGAGGAGGTGAAAATTATTAGGTACACCAGGGTGCACCGTGCACCCAAAGTTATTTTATCCCCATTGGTGGTCCCCATCATATTTTCACCTCACATGTAAGGAGAAAATGTAAGAGGGTGCACGGTGCACCCAGGTGCATGTAATATGTTCTAGGAGGGGGGGGGGGGGGGAAGGTGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCAGGGCCGTCTCTCGCAATTTGGAGGCCCTGTGCTAAAATACAGATATTGGGCTTCAATAAATTTTTACGAGTAATTATTTAATATAAAACACATAATTATTATATTAATATTGTTAATTATTATATTAATATTGTTTTTTTTATACAAAATATAAAGTCAAATTAATAATATGGTATAACGTTTTATGTGTGATGGTTTGAGAAAATTGATGGACATGAAAAAAGCAAATAAAAAAAGGGGGCATGAGAGGAATTGAACCTTGGTCTTGGCTACGACACTATTATTTCTTTACCAACTGGGACAAAGATTACTTAATGCATAATAAAGGAGCTGTTAAATATATAATATTTTTTCTTGGGGGTTTAACCAACATAATTTCTTTTTGGGNTATATTATGACCTCATATTCTTTTTTTATCTCTGTAATTATTAAAGAGTATGAAGCCGTTTTTGCCTGTTATATAGACTACCATATCCTGGTCATAGATTTGGTTTAGATTTTTGTTATCGTGGAGTTCATTTGTAATTGTATCGCAAGAAGGGGTATAATAATGCTAGTTGATCTCTTGCTCCACTCGACTTGTAAATTCGCAATCTCAAAATTGTAATATGGATGCCTACTGTTTCTTTTTTAGTTAAGGAAAAAGATAGCTTCCACATACTCCTTACAACATTAAAAATAAAAAAATAGATCACAGAATTATTCGAATGTTAAAGTAAAAAAAAAAATGTATTATCATTACCCCCATTGCCTCAAAGAGGCTCCCGCAAGAAGCGGGATAGGGGGGGTCAGACGTACGTAGGGGTGTAAATTGGATGGACTGGATTGGACTTTGCCAAGTCCAAATCCAATCCAAATTTTTTTGGACTTGGATATTTGAGTCCGAGTCCGATCCAAACTTTTTTCAAGTCCGATCCAGTCTGATCTATAAAAAAGTTCTTGAGTCCGAATCCAGTCCAATCCGATCCGATTTTTTTTTGAAAAAAAACTTTATTTTAATTTTTTTTTAAAAAAAGTTAAACTCAACTGGTTCGAACATAAATGAAAATAATACTAAATTCAAAAAAGAATGCAAATAATGCACATAAAATAGAATTTACGAGTATTAAAAATTGAGTATGAAATACTTTAACACCTATAACTACATGTCACTTTTGCATAAAGGGAAAAAAATATCCATTAAGAAATAGATATAATTGTAAGTAACATTATGTCTTACACATCTAAATACTTAGCCAAAAAATGTTCCAGTTCTTAAAAAACAAAGTTTTAAAATATTAAAGCTCAATAATCGACCATCACAGCCGACGAGAGAAAGGGAAAGAGGTTGATAGAATATTTATTGGGTTATGGGTTTTATATATAGGGTAATATTTGATTGTTTCTTGTTGCACATAGTAAATAAAGGCCTAAAAATCACATATTTCACAATAGTTTTTAAATTACATATGTTTATCTATAAATAAAATCTTAAAACTTTGGACTTAATTGGATTTTTGGACTCCAAAAGGTTGAGTCCAAGTCCAGTCCAAAAATAATTGGACTTTGTAATTTGAGTCCGAGTCCGATCCAGTTCGACAAGTTTGGACTGGATTGGACTTTGGACTTTTCTCAATCCACTTACACNGGGAAAGAGGTTGATAGAATATTTATTGGGTTATGGGTTTTATATATAGGGTAATATTTGATTGTTTCTTGTTGCACATAGTAAATAAAGGCCTAAAAATCACATATTTCACAATAGTTTTTAAATTACATATGTTTATCTATAAATAAAATCTTAAAACTTTGGACTTAATTGGATTTTTGGACTCCAAAAGGTTGAGTCCAAGTCCAGTCCAAAAATAATTGGACTTTGTAATTTGAGTCCGAGTCCGATCCAGTTCGACAAGTTTGGACTGGATTGGACTTTGGACTTTTCTCAATCCACTTACACCCCTAGACGTACGCAACCTTTCCCCTGTAAGCGGAGAGGTTGTTTCCAATTGACCCAAAATCGATAACGGGGCTAATACCGAACGACCATCTTCTACTTCATGGAAAGGAAGTGAAGAGGTTTTAAGAGCCATTTTGATTTAGTCCATTACATCCCACGGCCAAAAAAAAAATTACGACTACAAAAAAAATTTGAGCTGAAGTGTTTGGAAAAATTATATGTGAAAACAACTTCAAGTTTCTTGCAAGCTTTATGAGTTGCTCGACTCAACTCTTTAATATCTTGATCTGGGTTCAGTTGGGTTGAGTTTCGACCAACTTAGTAGCACATGTCTCATTATCATCTTTAGCTGTAAAGGACCTTTTGTGCTGTAGGTTTAAATTTTAAGTTGACATTTTTTCATAGCTTAAGTCTCATGCAATGCTTGTTGTATCGTTGCTGGAAACATTACATATGGCAATCCTTCTCCAAGCTGGTTACAGGTTTTGTTTTGGTTGCAAAAGGGTGAAGTAGGTGGTAACTGATAATGGGTGCAAGTGTTGGGGGCTGAGTGAGTGAATGCATTTTAGGTTCTATAGAGTTATTTTGATTAATAAATGAGCGAGTTCGGATTTCTGTGGTGATGGATCAGTGAGTACTGAAGGTAGCTTGTGGTAGTGGATGATTTCTCCACTGTATATAAGCAATTCTTTGAAGTATATTATCCTTGTTCAATAATCTAATGCTTCTCCCTCTTCATTCTTCTTCTACTTTGTACTATTCTTGCTCCTGCAAAGGAACCACACCTCCTTAAAAGTCGAATCTGCGAGGTTTTATGCAAAATGGTGCACCTTGTGTGCATGGGCACAAACCTTTCTCATAAACTTTTTGCAAATTGGACCGCCTCATTCTTTTCAAAACCAAGTAATGAACTGACTTGTGATATTAACTTTCAAATAGATTGAAAAAATTAGTAAGGGTACAATGAAAATTTAGGTGTTGTGATTTGAAGTTCTGTCCATGTTAGGGTTTTATAGAAGTAGTGAGGCTTTAAGGTTAGTTATATGGTCGGATGATATCTAGTTATGAGTTTTGAAATGGTAAGACCACGACTGAGATCATTTGAAGAATATGTGCTCAAGAAATAATTTCCTCAGACTTTATCCTTGAAAGAAAAGAAATCAATCTACCACATGTGTAACATGGTAGAATGAAGTTTCTGAAGTTATTCTAGTCCAATGCTACGTGAATAGTGAGATGTGCTATTTCAGTTTCTCGGCCGTAGTAGCTGACATTTTCATTTTTGCCAGTGTTTACCCTGTTAAGCAACTGAAAGCACAAATTCTTTGGAGCTATGGACCTTAGGTGAATATTGTGTTTAGGGAAGTGCGGTAGTCGATGGTGATTGCTACTATGGCCGAATATTTGGTGGCTTGTGTTAGTTGGATTCATTATGCTGTTTGATGATTTAGGAATTCCATGACAATTGTACATGCAGAAGTGTCATCTAGTCCCAAGATAGTTTATTTGAACTCATTAAAGATGTTACATGGTGTAAAGTGTGTTTGTGTTCCTGGGGGTCGTTTTACTTTCATACTTGACAAAACCATTGGTGTTTTCAAGTGGAGTTGGAGAAATAGATCTCTTATGAGCTCTTTGATGTATCCTTCATTTGTGAAGAGAAATTCATAGTAATTAACGTTGCCTAAGAATGCACATCTTTGCCTGAGTTAGTAGGCCTTTCTCTGCGGAATATTAAAGTTTGTCAAAAATCAAAGGCAGTACTGTATATTTTTGTTTAGGAAGAAAACTTGCTTTTGGTCTTGTAAGAATATGTTTCCTTATCGTGTATACTAATGAGAGCCAACAAGATTAATATTCCGTATAAGATTGAGAAAGTGTATGGGTTACAATTCTACTTTATTTGTAAATGCATATGGCTCTATCTTCATGTTGGTTTCCCTAAATGACATCATCATCATTATCATACCCCATTGCCTCAAAGAGGCTCCCACAACAAGCAGGGTAAGGGGGGGTCGGACGTACGCAACTTTACCCCGGCAATTGCAGAGAGGTTGTTTCCAATTGACCCAAAAGCGATGACTGGACAACGGGACGACCATCTTCTACTCCATTGAAAGGAAGCGAAGAGATGTCCCTAAGTGACATCATAATTTCTAAAAATTCATCCGCTTAAGTCTACTAGACAAGTAGACAATATATGTCCAGTGTATACATATACTGTCCCCTATCTATATACAGTTTATTTGCCGCCAGTAATATTTCATGAATTTTTTGTTCTAATGCTGATAGCTTGGTGTCTCTGGTGCTGGTCATGATGTTACAACTCTGATAGTACAATTTCCCCCTGTTTATGATTCTTGTTTTTGTTTGGTCTTCCCAGACTTCCTACCGATGACTATATTATTATAATTCTTGCTGTATGTTCTCGATTCTTGGTCTGGCGCTAACAGTATTGTAGGTTATGATTTCATTACTTTAAAGTTGTTTTCTGGATTTAACGTGTGAGATATTGCTAGAAATGCATTATTCCAGTCCCTTATTTTGGTTAGGTTGTTATAAAAAAATGTTCTGGGTATAAATATGGAAATTGAATGGTTCATGTTTGGTGACTTCACTCACCTCTACTGTTTTGACTACAAGTTACTGATGAATATGATCGTCCTACGATAAAAGCATAAACCTCGTTCCGCAGTTTAAATCTTTCTCAAGATGAACATGTAGAATTGGTCAGTTTATGCAAGGTGAATCGAACACTGGTTTTGCATTTTATACCCTATTTTCGAAGATAATCTATTTCCTTCCCCTTTTTTTTGTGGGAAGTTGGTACTATGTAAATCAATGTGCCACTGTTTGATTCATCTTGCATAAGCTGATCACCTGAAGGTACGTTACCCAATGTTAGATTGTTATCCCATTCATACGTGAACCAGCAGTAGTTACCATTTGAGTATTCTGACCATTTTATCTTCTTCAAATTATCGTATCTTTCCTATTATAATCCTGATTCCCAATCTTTTTCCTCTAGATATCTTTCTTATTTTACCTCCTTCCGGTTGTTATTTAATTCCTAGGTTTGTGTGTTTGTTGGGGGGAGTCACCTTGAAGGGTTGGGTTGAAGTGTGGCAGTTACTAATGATCCTTCTCATGTTTTCTATCTTGTATAATCTGTTCCATGTGAATGATTGCTTTGGTTCCTTGCTTTTGATGCTAACATCTTATATGCTGGTATTTGGTTTCGAAGTCTCGGTGTTTGGATTGATGGGTTTGATGAAGAATTGACTCTATGCATTTTGCAAGAAAATTTGAATAGGTGCCAGCAGTGTTTTTTTTTTAACTCATTGATTTACCTTAGGCTTCTATATGTTTCTTGATTGTTTTACTGGCGGAAAATTTTAATCAATCTATATCATGTTATACTGAGCTTGATTGGAGTTGGTTCAATGTTGGCATTTCAGGAAAAGCATAGAGAAAAGAAGCACAAAAAGGAGAAAAAAGACAAGGAGAAGAAAGAAGGGAAAGAAAAACGGGAGAAAGAAAGAAGTGATGAAAAACACAGAGAAAAGAAAGACAAAAAGGAGAAACATAGAGACAAAAAGAAAGACAAGGAGAAGGACAGGGATAAAGATAGACATAAAAGCAATCCCTTGCTTTCTGTTGAGAAGAAGGTTGTGGGTTCAGCTGATGACAGTCATGTTCATAAGTCCTCTGAGAAGAACAAGGAGTGGGAAAATGACAGAAATGCTATGTCAGCTGAGAAGAAGATCGATGGGCTGCCTGCAGCTCACAATGGGATGCCGGTTAGTAAGAATAATCACCAGGTTTCTGATGCTAGGAGTTTTAGGTGTGCTTCAGATTTGGGCCGGAAGAGCATGGATGAAGAAAGGAGAACAATTAATCAAGTGCCTGATAAGAATGTTGGTGCAGAGAGAACAAAAGATGGTGGAGTGGTCAAGTTGGCTACGAAGAGTGGCGGACCCATCCAGGATCCGAAGGAAAAGACCAAGGAGAAACCAACTCCTGATGGAAGGATGGATGGACGAGGTGTCATCGGGGATGCTAAATCTAGTGGAAATGCTTTGGTTCCGAATCCTGTTGGAGTGGTTCAAAACAGAGGGGGAGGAATTCTCAGACCCGTGGAGAAAAAGATTGAGCAGAAAATGGATGGGAAAGAAAAGATTAGAGAGAAAGAAGGGGATGATAGAAAAGGAGAGAAAAGAAAGGAAAGAGACAGGGAAAAACCAGTCCTCAAAGACAAGGACAGGGAAAAGGAAAAGGAGAAGAAGAAAGAGGAGATAGTGAAGGCAACTGCAGAAGAGAAGCAAATACAAGTTACAAGAGTGAAAGATATCAGTGAAAACCACATGCTAAAACCAAGTGCAAAGGATGAAAACAAGAAGGGTATTTCAGATGTCCAGAGTGTTGGGTCTCAAAACATAACAAAAGATAGCAATCATCATGCTGCTGTTAATAATAATCTCAAGAAACGGAAGGACACTGGTCCCAATGGAATTTACGATG GTGAGCTCTTTCTCAGCGTTGTTTTTGCTGCTTGTGGAAATTGCTTCATTAGATACATTAATTTTCTGTTAGATATAAGTGGTGGTTTAAATGAAAAGAAAAATAAAGGGATCCAGCTCCTAGGAGTATCGTAGTCTAGATCCTATTCCTTGCCCTGTGAAAGATTGGAAATGCTGCACAAAATGTGAAATGATACAGTACTAGTTAGATTTTCATGCCAATGATGTATGATCCCCTTGAATTTTCCTGTAGCTTATGTGAATGCTACTTATGTTTGGGTTTATCTCAACAGAGTTTGTCACTCGGCCTAATAAGCTGGCAAGAACATCAGCTTCTCCCCATCCGTTGGCGGAAAATGGAAGGAGCTTGGAGCCTTGCCAGAATTCAGCTGCATTTGCTCTTCCTGTTACACAACAGCAGCCACCCATGGATATTAAAGTGGAACGCAGTGATGATAAACAGAGGCCGCCCATGAAAATTAAAGTGGATGGCAAGATTAATGGCACAGTTGTTGTTCCCTCTACACAATCTTCTCGAGAAAAAACTGCACGGAAATCTGATGCTCCTGCAAAGCAACCTCATCCAGATACCAAGTATCTTGGCCAGGTGATTTCAGTACCTAAAGTGGATGAATGGTCTGATTTTGATGACCAAGAGTGGTTGTTCGATTCCTCAACAAGGAAGCCAGAGGTCAAATTGTCTGATATTGATGAGACTATTGATGAGACTCCACAGGTATGGGCAAGAGCTTTGTGGTTAGAGCCAGTAGATGTTTATGCTTTGCCATATGTAATTCCGCACTGA TGAATTGCGGTTGTTGTGGTTATTCTTTACCTTCCCTCCTTATGTGGAGAGAAAACCCTATGCCAAGCTCGGGGAAATTTGCAGCAGATGGTGTGAGATTGGAATTCCAGTTTCTTGCCCTAAAAGCAAGCTCCTTGAAACTACGAAATGTCGTAGATTGGACTGAGCTCTTCCTGCATGTTCTGTACATTAGCATTTGGTGTGGTCATCAACTTTTTCCAGAGCTTTCTCAAATAGAAAGGAAGCTGTTGGTTGTATCACACCTGCCTCAGCAGCAACTCGTTCCAAGAGCTAGGGTTTTGATGACAATTTTGGGCCTCTTAGAGCGAGAAACACTGATTCTTTTCACAAGGGGAGTATAAATGAGCTTGCTTCCCCTATAGTTGCAACGGTTGAGAAGATTGTTTAGATGGGAGAGATGCATTAGTTTGTGAAAATATTATGGTTAGAGCAATTGGAAGGAGCTTTTGCTAATCTTTTCAGTGTAAGGCGAAACTTAGCTGTGGTGTATGCATGCGCCAACCGATTTTGATTTGTAACATAATACTCTTAATTTACAGGAGAAAATGTAACATAGAAGGGAATGGGAAGAGGTAGCTTGATAAATATATACAAGTACGGATATTTTTTCCACCAAATATGCTTAGGATTTAGGGTTTAGATTTATCTTAAAATTGTTTCTGTCTTCACTTTCGAGTCTTGAATGATGTTTAGTTGATATATATATATTTAGTAGCTCCCATCAATGACCCACCTATCATATAAGATGTCATTTGATATGCACAAATGTTAAAAATTAAGATAAATATTACTTTGGTTATGATAATTGGACTTTTACAATCAAACCAACCTTGAATTGTAGGTTTGTAAAGTAAGTGGAACCCTGATAAATACCAAATAGGGCGAAAACATCAGTTTTTCTGAGAAAATAATTAGAAATAGGTATGTATACACTGAATACTTGGGCTAAATTCCTATGAAAATTGTGTAACTTGAAACCAAAGAAGAACAGGATTGTGCTAGGGTAAAGTGAAACTCTTGTGAATCACTAGTACGAGAAAACAACGGACAAACTAGATAACCAGAAAATTGCAGAAAGCAATAAACCTTTCCCCTAAAATGGTTGGAGAACAA mRNA sequence
CAGACCGAGTACATAACCATCAAGATCACAAGCTAGGTCTTCTTCCGTCTATATCTTGTTCCTCAACAATCAGAAACTCCATCTTCTTCCGTCTTTTTCCAATTCCATCTAAAAGGGCGTCCTGATTTTAGGAATCAGAGTTTTCCAGAAATCGAATCCTAGACTCACACTTTCTCTCTCCTAGGGTTCCATCACTGGTTTGTCTCAATTTCTTCCGATTTCAAAATTTTTAAGATTTGGGGGAAACCCCCTTTTGATACGCCACTGCCCAGCATACTACCCCTTTCAATAGGGGATGATTTTGTGTTCTGGGATTTGTGAATAAGGCGAGATAATCATAATATTGCTTTTTAGCAAGAATAATCCAGTAACATAGTTCTGGGGAATAATTTGGACTTTGATTTAGGGTTTTTATATTCATCAAAAATTCAAAAAAAAATCACTATTGGGGAGAACTTAAGATTTCCGTGCTTCCCAATTGTTGAGCCACAAAGCTCAATTTTATTGTTTTGAGTGTCGAATTCAAGCTTCGAGTGAACATTGCTTAATCTGGGGCATGGAAGAGTGTTGTAGTTATAGAGTCAGGCAATAGAGGATCACCGGGGATTTTTCGATACTTTGATTCAATTGAAGCTTGTTGTAGTAGCTAAAGAGTTGATTGATTGATTGGTAGAGGATCAGTGGGATAAATTTTGATTTTGGTTGCTTTGATTTGACCCAGCATACTACCCCTTTTCAATAGGGGATGATATTGTGTTTTGGAGCTTCAGAATAAGGCGGAATATAGAGAGAATCATTACAATTTCTCGAAATCGATTTGGGGATAAATTCGTCGACGATCCTTTGGCAATCTGGTTATTGAGCTGATATTGCATTGCTTTTGAGTTTGTGGGTGTTGTTTGTGGCAAGTGATTTGTGTGAATTTGATAATTTGATTTGGTGGGCTGAGACTGAGTTTATGGAAGTATTTTGAAGCTGGAAATGAATGTGGGGACATGGTGCATGGACAAGAGCTTAGTTGTTGGTTTGATTCTTGTTTGGAACATTGCCCTAGCACTAGCTTACTAGTCCAAGTATTTGCGCTTGCAAGGGGTGACAGATTCTTGAGGCCCTTGGAACTTTTGCAATGTCTCGCTGCTTTCCTTTCCCTCCACCAGGATACGAAAGGAAGACGAAGGCGGACGACACTGACTTGCTAAAAAAGGAAAAGCATAGAGAAAAGAAGCACAAAAAGGAGAAAAAAGACAAGGAGAAGAAAGAAGGGAAAGAAAAACGGGAGAAAGAAAGAAGTGATGAAAAACACAGAGAAAAGAAAGACAAAAAGGAGAAACATAGAGACAAAAAGAAAGACAAGGAGAAGGACAGGGATAAAGATAGACATAAAAGCAATCCCTTGCTTTCTGTTGAGAAGAAGGTTGTGGGTTCAGCTGATGACAGTCATGTTCATAAGTCCTCTGAGAAGAACAAGGAGTGGGAAAATGACAGAAATGCTATGTCAGCTGAGAAGAAGATCGATGGGCTGCCTGCAGCTCACAATGGGATGCCGGTTAGTAAGAATAATCACCAGGTTTCTGATGCTAGGAGTTTTAGGTGTGCTTCAGATTTGGGCCGGAAGAGCATGGATGAAGAAAGGAGAACAATTAATCAAGTGCCTGATAAGAATGTTGGTGCAGAGAGAACAAAAGATGGTGGAGTGGTCAAGTTGGCTACGAAGAGTGGCGGACCCATCCAGGATCCGAAGGAAAAGACCAAGGAGAAACCAACTCCTGATGGAAGGATGGATGGACGAGGTGTCATCGGGGATGCTAAATCTAGTGGAAATGCTTTGGTTCCGAATCCTGTTGGAGTGGTTCAAAACAGAGGGGGAGGAATTCTCAGACCCGTGGAGAAAAAGATTGAGCAGAAAATGGATGGGAAAGAAAAGATTAGAGAGAAAGAAGGGGATGATAGAAAAGGAGAGAAAAGAAAGGAAAGAGACAGGGAAAAACCAGTCCTCAAAGACAAGGACAGGGAAAAGGAAAAGGAGAAGAAGAAAGAGGAGATAGTGAAGGCAACTGCAGAAGAGAAGCAAATACAAGTTACAAGAGTGAAAGATATCAGTGAAAACCACATGCTAAAACCAAGTGCAAAGGATGAAAACAAGAAGGGTATTTCAGATGTCCAGAGTGTTGGGTCTCAAAACATAACAAAAGATAGCAATCATCATGCTGCTGTTAATAATAATCTCAAGAAACGGAAGGACACTGGTCCCAATGGAATTTACGATGAGTTTGTCACTCGGCCTAATAAGCTGGCAAGAACATCAGCTTCTCCCCATCCGTTGGCGGAAAATGGAAGGAGCTTGGAGCCTTGCCAGAATTCAGCTGCATTTGCTCTTCCTGTTACACAACAGCAGCCACCCATGGATATTAAAGTGGAACGCAGTGATGATAAACAGAGGCCGCCCATGAAAATTAAAGTGGATGGCAAGATTAATGGCACAGTTGTTGTTCCCTCTACACAATCTTCTCGAGAAAAAACTGCACGGAAATCTGATGCTCCTGCAAAGCAACCTCATCCAGATACCAAGTATCTTGGCCAGGTGATTTCAGTACCTAAAGTGGATGAATGGTCTGATTTTGATGACCAAGAGTGGTTGTTCGATTCCTCAACAAGGAAGCCAGAGGTCAAATTGTCTGATATTGATGAGACTATTGATGAGACTCCACAGGTATGGGCAAGAGCTTTGTGGTTAGAGCCAGTAGATGTTTATGCTTTGCCATATGTAATTCCGCACTGATGAATTGCGGTTGTTGTGGTTATTCTTTACCTTCCCTCCTTATGTGGAGAGAAAACCCTATGCCAAGCTCGGGGAAATTTGCAGCAGATGGTGTGAGATTGGAATTCCAGTTTCTTGCCCTAAAAGCAAGCTCCTTGAAACTACGAAATGTCGTAGATTGGACTGAGCTCTTCCTGCATGTTCTGTACATTAGCATTTGGTGTGGTCATCAACTTTTTCCAGAGCTTTCTCAAATAGAAAGGAAGCTGTTGGTTGTATCACACCTGCCTCAGCAGCAACTCGTTCCAAGAGCTAGGGTTTTGATGACAATTTTGGGCCTCTTAGAGCGAGAAACACTGATTCTTTTCACAAGGGGAGTATAAATGAGCTTGCTTCCCCTATAGTTGCAACGGTTGAGAAGATTGTTTAGATGGGAGAGATGCATTAGTTTGTGAAAATATTATGGTTAGAGCAATTGGAAGGAGCTTTTGCTAATCTTTTCAGTGTAAGGCGAAACTTAGCTGTGGTGTATGCATGCGCCAACCGATTTTGATTTGTAACATAATACTCTTAATTTACAGGAGAAAATGTAACATAGAAGGGAATGGGAAGAGGTAGCTTGATAAATATATACAAGTACGGATATTTTTTCCACCAAATATGCTTAGGATTTAGGGTTTAGATTTATCTTAAAATTGTTTCTGTCTTCACTTTCGAGTCTTGAATGATGTTTAGTTGATATATATATATTTAGTAGCTCCCATCAATGACCCACCTATCATATAAGATGTCATTTGATATGCACAAATGTTAAAAATTAAGATAAATATTACTTTGGTTATGATAATTGGACTTTTACAATCAAACCAACCTTGAATTGTAGGTTTGTAAAGTAAGTGGAACCCTGATAAATACCAAATAGGGCGAAAACATCAGTTTTTCTGAGAAAATAATTAGAAATAGGTATGTATACACTGAATACTTGGGCTAAATTCCTATGAAAATTGTGTAACTTGAAACCAAAGAAGAACAGGATTGTGCTAGGGTAAAGTGAAACTCTTGTGAATCACTAGTACGAGAAAACAACGGACAAACTAGATAACCAGAAAATTGCAGAAAGCAATAAACCTTTCCCCTAAAATGGTTGGAGAACAA Coding sequence (CDS)
ATGTCTCGCTGCTTTCCTTTCCCTCCACCAGGATACGAAAGGAAGACGAAGGCGGACGACACTGACTTGCTAAAAAAGGAAAAGCATAGAGAAAAGAAGCACAAAAAGGAGAAAAAAGACAAGGAGAAGAAAGAAGGGAAAGAAAAACGGGAGAAAGAAAGAAGTGATGAAAAACACAGAGAAAAGAAAGACAAAAAGGAGAAACATAGAGACAAAAAGAAAGACAAGGAGAAGGACAGGGATAAAGATAGACATAAAAGCAATCCCTTGCTTTCTGTTGAGAAGAAGGTTGTGGGTTCAGCTGATGACAGTCATGTTCATAAGTCCTCTGAGAAGAACAAGGAGTGGGAAAATGACAGAAATGCTATGTCAGCTGAGAAGAAGATCGATGGGCTGCCTGCAGCTCACAATGGGATGCCGGTTAGTAAGAATAATCACCAGGTTTCTGATGCTAGGAGTTTTAGGTGTGCTTCAGATTTGGGCCGGAAGAGCATGGATGAAGAAAGGAGAACAATTAATCAAGTGCCTGATAAGAATGTTGGTGCAGAGAGAACAAAAGATGGTGGAGTGGTCAAGTTGGCTACGAAGAGTGGCGGACCCATCCAGGATCCGAAGGAAAAGACCAAGGAGAAACCAACTCCTGATGGAAGGATGGATGGACGAGGTGTCATCGGGGATGCTAAATCTAGTGGAAATGCTTTGGTTCCGAATCCTGTTGGAGTGGTTCAAAACAGAGGGGGAGGAATTCTCAGACCCGTGGAGAAAAAGATTGAGCAGAAAATGGATGGGAAAGAAAAGATTAGAGAGAAAGAAGGGGATGATAGAAAAGGAGAGAAAAGAAAGGAAAGAGACAGGGAAAAACCAGTCCTCAAAGACAAGGACAGGGAAAAGGAAAAGGAGAAGAAGAAAGAGGAGATAGTGAAGGCAACTGCAGAAGAGAAGCAAATACAAGTTACAAGAGTGAAAGATATCAGTGAAAACCACATGCTAAAACCAAGTGCAAAGGATGAAAACAAGAAGGGTATTTCAGATGTCCAGAGTGTTGGGTCTCAAAACATAACAAAAGATAGCAATCATCATGCTGCTGTTAATAATAATCTCAAGAAACGGAAGGACACTGGTCCCAATGGAATTTACGATGAGTTTGTCACTCGGCCTAATAAGCTGGCAAGAACATCAGCTTCTCCCCATCCGTTGGCGGAAAATGGAAGGAGCTTGGAGCCTTGCCAGAATTCAGCTGCATTTGCTCTTCCTGTTACACAACAGCAGCCACCCATGGATATTAAAGTGGAACGCAGTGATGATAAACAGAGGCCGCCCATGAAAATTAAAGTGGATGGCAAGATTAATGGCACAGTTGTTGTTCCCTCTACACAATCTTCTCGAGAAAAAACTGCACGGAAATCTGATGCTCCTGCAAAGCAACCTCATCCAGATACCAAGTATCTTGGCCAGGTGATTTCAGTACCTAAAGTGGATGAATGGTCTGATTTTGATGACCAAGAGTGGTTGTTCGATTCCTCAACAAGGAAGCCAGAGGTCAAATTGTCTGATATTGATGAGACTATTGATGAGACTCCACAGGTATGGGCAAGAGCTTTGTGGTTAGAGCCAGTAGATGTTTATGCTTTGCCATATGTAATTCCGCACTGA Protein sequence
MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHREKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDRNAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNVGAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVGVVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHHAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVTQQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVDVYALPYVIPH
Homology
BLAST of Spo13812.1 vs. NCBI nr
Match:
gi|902215808|gb|KNA17488.1| (hypothetical protein SOVF_078950 [Spinacia oleracea])
HSP 1 Score: 1022.7 bits (2643), Expect = 2.400e-295
Identity = 550/550 (100.00%), Postives = 550/550 (100.00%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR Sbjct: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR Sbjct: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV Sbjct: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 Query: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG Sbjct: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 Query: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE 300 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE Sbjct: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE 300 Query: 301 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH 360 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH Sbjct: 301 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH 360 Query: 361 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT 420 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT Sbjct: 361 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT 420 Query: 421 QQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDT 480 QQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDT Sbjct: 421 QQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDT 480 Query: 481 KYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVD 540 KYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVD Sbjct: 481 KYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVD 540 Query: 541 VYALPYVIPH 551 VYALPYVIPH Sbjct: 541 VYALPYVIPH 550
BLAST of Spo13812.1 vs. NCBI nr
Match:
gi|731325211|ref|XP_010673393.1| (PREDICTED: glutamic acid-rich protein isoform X2 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 710.7 bits (1833), Expect = 2.000e-201
Identity = 414/562 (73.67%), Postives = 467/562 (83.10%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYERKTK DDTDLLKKEK +EKKHKKEKKDKEKKEGKEKREK+R+DEK R Sbjct: 1 MSRCFPFPPPGYERKTKEDDTDLLKKEKQKEKKHKKEKKDKEKKEGKEKREKDRNDEKQR 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 +KKD+KEK +DKKKDKEKDRDKD+HKS+ LLS EKKVVGS DSHVHKSS+K+K ENDR Sbjct: 61 DKKDRKEKQKDKKKDKEKDRDKDKHKSDLLLSDEKKVVGST-DSHVHKSSDKSKHRENDR 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 NA SAEK+I GL A NGM V KNNHQV +++SF+C +LGRKSMDEERRT+NQ+ DKNV Sbjct: 121 NATSAEKRIGGLSAVPNGMVVHKNNHQVPNSKSFKCTPELGRKSMDEERRTVNQLSDKNV 180 Query: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 GAER KDGGVVKLA KSGGP+ D KE+TKEKP DGRMDGRGVIGDA+ S + L P VG Sbjct: 181 GAERNKDGGVVKLAAKSGGPLLDSKERTKEKPALDGRMDGRGVIGDARPSKSPLDPKSVG 240 Query: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE 300 VVQNR GGILRPVEKKIEQK++GKEK+REKEGDD+KG++RKE+DREK VLKD +EKE Sbjct: 241 VVQNRVGGILRPVEKKIEQKVEGKEKVREKEGDDKKGDRRKEKDREKSVLKD----REKE 300 Query: 301 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH 360 KKKEE+ K T EEK +Q+TR+KD SENH+LKPSAK+ K +S VQSVG NITKDSNHH Sbjct: 301 KKKEEVAKTTYEEKHLQMTRMKDGSENHLLKPSAKNGTMKDVSGVQSVGFHNITKDSNHH 360 Query: 361 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT 420 NN +KRKD G NG YDE VT PNK+ART+ SPH L ENGR LEPCQNSAAFA P T Sbjct: 361 TPTVNN-RKRKDIGLNGTYDELVTGPNKMARTTTSPHQLTENGRILEPCQNSAAFA-PAT 420 Query: 421 QQQPPMDIKVERS---DDKQRPPMKIKVDG---KINGTVVVPSTQSSREKTA---RKSDA 480 Q+PP++IK ER+ DD QRPPMKIK+DG KINGT+V P TQSSRE TA RKSDA Sbjct: 421 -QRPPVNIKGERNLPHDDTQRPPMKIKMDGKECKINGTIVDPCTQSSRETTAKAERKSDA 480 Query: 481 PAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWLFD---SSTRKPEVKLSDIDETIDETPQ 540 PAK PHPDTKYLGQV+ VPK+DEWSD DQEWLF+ SSTR+P+VKLS IDETPQ Sbjct: 481 PAKPPHPDTKYLGQVLVVPKLDEWSDLVDQEWLFNSNSSSTRRPDVKLSG----IDETPQ 540 Query: 541 VWARALWLEPVDVYALPYVIPH 551 VW RALWLEPVD++ALPYVIPH Sbjct: 541 VWERALWLEPVDIHALPYVIPH 550
BLAST of Spo13812.1 vs. NCBI nr
Match:
gi|731325209|ref|XP_010673391.1| (PREDICTED: myb-like protein X isoform X1 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 683.3 bits (1762), Expect = 3.400e-193
Identity = 410/585 (70.09%), Postives = 464/585 (79.32%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYERKTK DDTDLLKKEK +EKKHKKEKKDKEKKEGKEKREK+R+DEK R Sbjct: 1 MSRCFPFPPPGYERKTKEDDTDLLKKEKQKEKKHKKEKKDKEKKEGKEKREKDRNDEKQR 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 +KKD+KEK +DKKKDKEKDRDKD+HKS+ LLS EKKVVGS D SHVHKSS+K+K ENDR Sbjct: 61 DKKDRKEKQKDKKKDKEKDRDKDKHKSDLLLSDEKKVVGSTD-SHVHKSSDKSKHRENDR 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQ------ 180 NA SAEK+I GL A NGM V KNNHQV +++SF+C +LGRKSMDEERRT+NQ Sbjct: 121 NATSAEKRIGGLSAVPNGMVVHKNNHQVPNSKSFKCTPELGRKSMDEERRTVNQLSDKNV 180 Query: 181 --VPDKNVGA---------------ERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGR 240 +K+ G ER KDGGVVKLA KSGGP+ D KE+TKEKP DGR Sbjct: 181 GAERNKDGGVVKLAAKSGGPLLDSKERDKDGGVVKLAAKSGGPLLDSKERTKEKPALDGR 240 Query: 241 MDGRGVIGDAKSSGNALVPNPVGVVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKG 300 MDGRGVIGDA+ S + L P VGVVQNR GGILRPVEKKIEQK++GKEK+REKEGDD+KG Sbjct: 241 MDGRGVIGDARPSKSPLDPKSVGVVQNRVGGILRPVEKKIEQKVEGKEKVREKEGDDKKG 300 Query: 301 EKRKERDREKPVLKDKDREKEKEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDE 360 ++RKE+DREK VLKD +EKEKKKEE+ K T EEK +Q+TR+KD SENH+LKPSAK+ Sbjct: 301 DRRKEKDREKSVLKD----REKEKKKEEVAKTTYEEKHLQMTRMKDGSENHLLKPSAKNG 360 Query: 361 NKKGISDVQSVGSQNITKDSNHHAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPH 420 K +S VQSVG NITKDSNHH NN +KRKD G NG YDE VT PNK+ART+ SPH Sbjct: 361 TMKDVSGVQSVGFHNITKDSNHHTPTVNN-RKRKDIGLNGTYDELVTGPNKMARTTTSPH 420 Query: 421 PLAENGRSLEPCQNSAAFALPVTQQQPPMDIKVERS---DDKQRPPMKIKVDG---KING 480 L ENGR LEPCQNSAAFA P T Q+PP++IK ER+ DD QRPPMKIK+DG KING Sbjct: 421 QLTENGRILEPCQNSAAFA-PAT-QRPPVNIKGERNLPHDDTQRPPMKIKMDGKECKING 480 Query: 481 TVVVPSTQSSREKTA---RKSDAPAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWLFD-- 540 T+V P TQSSRE TA RKSDAPAK PHPDTKYLGQV+ VPK+DEWSD DQEWLF+ Sbjct: 481 TIVDPCTQSSRETTAKAERKSDAPAKPPHPDTKYLGQVLVVPKLDEWSDLVDQEWLFNSN 540 Query: 541 -SSTRKPEVKLSDIDETIDETPQVWARALWLEPVDVYALPYVIPH 551 SSTR+P+VKLS IDETPQVW RALWLEPVD++ALPYVIPH Sbjct: 541 SSSTRRPDVKLSG----IDETPQVWERALWLEPVDIHALPYVIPH 573
BLAST of Spo13812.1 vs. NCBI nr
Match:
gi|590656307|ref|XP_007034233.1| (Electron transport complex protein rnfC, putative isoform 1 [Theobroma cacao])
HSP 1 Score: 346.7 bits (888), Expect = 7.600e-92
Identity = 241/575 (41.91%), Postives = 350/575 (60.87%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYE+K + DD D++KKEK +EKKHKK+KK+KEK+E KEK+EK+RSD KH+ Sbjct: 1 MSRCFPFPPPGYEKKARTDDVDIIKKEKQKEKKHKKDKKEKEKRENKEKKEKDRSDGKHK 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRH--------------KSNPLLSVEKKVVGSADDSHV 120 +KKDKKEKH+DKKK+K++D++KDR ++ +S EKK+ G + Sbjct: 61 DKKDKKEKHKDKKKEKDRDKEKDRSNNSEEKKFPGHPEGQNGEKISDEKKLQGKFEGHSG 120 Query: 121 HKSSEKNKEWENDRNAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMD 180 K +K K + DR++ S EKK+ G + +NG +++N+H D R + +LGR+ D Sbjct: 121 EKFIQKEKGRDKDRSSFSGEKKLAGQFSGYNGEKITQNSHLAEDFRDSKFVQELGRRVRD 180 Query: 181 EERRTINQVPDKNVGAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGD 240 E T NQ+ D+ +G ++ +D G+V+L K+ ++ EK K K + D ++D +G+ + Sbjct: 181 EGAGTGNQLADRFMGTDQKRDEGMVRLVAKTANILE---EKEKSKRSDDRKLDVQGIREE 240 Query: 241 AKSSGNALVPNPVGVVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDRE 300 +SSGNA+V N G + R GI R VEK E++M+GKEK +EK+ DD+ +KRK++DRE Sbjct: 241 TRSSGNAMVQNLPGAAKARVEGIPRQVEKDTERRMEGKEKTKEKQSDDKIRDKRKDKDRE 300 Query: 301 KPVLKDKDREKEKEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQ 360 K KD++++KEKKKEE KA +E + I+ +N KG + Sbjct: 301 KK-SHGKDKDRDKEKKKEEKAKAKSERRNIE------------------QDNVKGSNKDD 360 Query: 361 SVGSQNI-----TKDSNHHAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAE 420 VG+ N+ +K+ N A NL+KRKD NG + +PNK RT++S HPL + Sbjct: 361 PVGTINLKTSHPSKEGNKDAVAEGNLRKRKDLEKNGFFHVNDNKPNKFPRTTSSSHPLTD 420 Query: 421 NGRSLEPCQNSAAFALPVTQQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQ-- 480 NGR+LE CQ A L Q +KV+ D KV+G I ++ S Sbjct: 421 NGRTLESCQ--APIPLTSDSQGAGTSLKVDNKD--------CKVNGIIEAQLLSVSPTKP 480 Query: 481 -SSREKTARKSDAPAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWLF---DSSTRKPEVK 540 ++ + + + K PHPD+KYL QV+SVPK++EWSDFDDQ+WLF +S ++KP+V Sbjct: 481 LAANAQAIQIDEVSMKPPHPDSKYLSQVLSVPKMEEWSDFDDQDWLFHSNESQSKKPKVG 539 Query: 541 LSDIDETIDETPQVWARALWLEPVDVYALPYVIPH 551 S+ IDE PQVWA AL +E D+ ALPYVIP+ Sbjct: 541 FSE----IDEAPQVWAEALQIESADICALPYVIPY 539
BLAST of Spo13812.1 vs. NCBI nr
Match:
gi|731390351|ref|XP_010650330.1| (PREDICTED: pre-mRNA-splicing factor CWC22 homolog [Vitis vinifera])
HSP 1 Score: 343.6 bits (880), Expect = 6.400e-91
Identity = 239/554 (43.14%), Postives = 344/554 (62.09%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYE+K + DD DLLKKEKHREKKHKKEK++KEKKEGKEKREK+R D +H+ Sbjct: 1 MSRCFPFPPPGYEKKARTDDADLLKKEKHREKKHKKEKREKEKKEGKEKREKDRGDGRHK 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 EKKD+K+KHRD+KKDKEKDR+K++ K+ + S EK++ + + K S+K + D+ Sbjct: 61 EKKDRKDKHRDRKKDKEKDREKEKDKN--ITSDEKRLASEFEGFNAEKLSQKEVR-DRDK 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 N++S EK+ G +N +++++H + + +LGR+ E+ NQ+ +K Sbjct: 121 NSVSNEKRFAGQLVGYNEEKLTQSSHLGEGNKDSKFLQELGRRIRAEDGGNGNQLVEKFT 180 Query: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 G +R KD + +L K G + KEK K+K D ++DG+GV +++ SGN++ + G Sbjct: 181 GTDRRKDEAMARLVAKDVGIRTEGKEKNKDKRGEDRKIDGQGVRDESRISGNSVAQSLTG 240 Query: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVL-KDKDREKEK 300 +R G +P+EKKIE++M+ KEK ++KEGDD++G+KRK+RDREK K+KDR+KEK Sbjct: 241 TGLHRLEGTPKPLEKKIERRMEAKEKTKDKEGDDKRGDKRKDRDREKKSQGKEKDRDKEK 300 Query: 301 EKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNH 360 K+++E K + K++ +K+ NK ++ ++ + ++ KDSN Sbjct: 301 RKEEKEKEKIEHKNKELD---------------KSKESNKDDVTVTHNIKTSHLHKDSNK 360 Query: 361 HAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPV 420 AA N +KRKD+ NG +PNKL R ++ HPL ENGR LEPCQ S Sbjct: 361 SAATEGNHRKRKDSDTNGFLHVNEVKPNKLPRPTS--HPLIENGRKLEPCQTSILITSD- 420 Query: 421 TQQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPD 480 Q ++KVE + K + G +V S + + +DA K PHPD Sbjct: 421 RQGGTANNLKVENKEHKLN-----GIIGAQPFSVASTKPLSVASQADQIADASKKPPHPD 480 Query: 481 TKYLGQVISVPKVDEWSDFDDQEWLFDSS---TRKPEVKLSDIDETIDETPQVWARALWL 540 +KYL QV+ VPK++EWSDFDDQEWLF SS + KP++ S DETPQVWA AL + Sbjct: 481 SKYLSQVLLVPKMEEWSDFDDQEWLFSSSISQSEKPKMGSSG----GDETPQVWAEALQV 524 Query: 541 EPVDVYALPYVIPH 551 + D+YALPYVIP+ Sbjct: 541 DSADIYALPYVIPY 524
BLAST of Spo13812.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9RDH4_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_078950 PE=4 SV=1)
HSP 1 Score: 1022.7 bits (2643), Expect = 1.700e-295
Identity = 550/550 (100.00%), Postives = 550/550 (100.00%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR Sbjct: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR Sbjct: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV Sbjct: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 Query: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG Sbjct: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 Query: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE 300 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE Sbjct: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKEKE 300 Query: 301 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH 360 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH Sbjct: 301 KKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNHH 360 Query: 361 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT 420 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT Sbjct: 361 AAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVT 420 Query: 421 QQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDT 480 QQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDT Sbjct: 421 QQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPDT 480 Query: 481 KYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVD 540 KYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVD Sbjct: 481 KYLGQVISVPKVDEWSDFDDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVD 540 Query: 541 VYALPYVIPH 551 VYALPYVIPH Sbjct: 541 VYALPYVIPH 550
BLAST of Spo13812.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8CMS0_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g065560 PE=4 SV=1)
HSP 1 Score: 683.3 bits (1762), Expect = 2.400e-193
Identity = 410/585 (70.09%), Postives = 464/585 (79.32%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYERKTK DDTDLLKKEK +EKKHKKEKKDKEKKEGKEKREK+R+DEK R Sbjct: 1 MSRCFPFPPPGYERKTKEDDTDLLKKEKQKEKKHKKEKKDKEKKEGKEKREKDRNDEKQR 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 +KKD+KEK +DKKKDKEKDRDKD+HKS+ LLS EKKVVGS D SHVHKSS+K+K ENDR Sbjct: 61 DKKDRKEKQKDKKKDKEKDRDKDKHKSDLLLSDEKKVVGSTD-SHVHKSSDKSKHRENDR 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQ------ 180 NA SAEK+I GL A NGM V KNNHQV +++SF+C +LGRKSMDEERRT+NQ Sbjct: 121 NATSAEKRIGGLSAVPNGMVVHKNNHQVPNSKSFKCTPELGRKSMDEERRTVNQLSDKNV 180 Query: 181 --VPDKNVGA---------------ERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGR 240 +K+ G ER KDGGVVKLA KSGGP+ D KE+TKEKP DGR Sbjct: 181 GAERNKDGGVVKLAAKSGGPLLDSKERDKDGGVVKLAAKSGGPLLDSKERTKEKPALDGR 240 Query: 241 MDGRGVIGDAKSSGNALVPNPVGVVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKG 300 MDGRGVIGDA+ S + L P VGVVQNR GGILRPVEKKIEQK++GKEK+REKEGDD+KG Sbjct: 241 MDGRGVIGDARPSKSPLDPKSVGVVQNRVGGILRPVEKKIEQKVEGKEKVREKEGDDKKG 300 Query: 301 EKRKERDREKPVLKDKDREKEKEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDE 360 ++RKE+DREK VLKD +EKEKKKEE+ K T EEK +Q+TR+KD SENH+LKPSAK+ Sbjct: 301 DRRKEKDREKSVLKD----REKEKKKEEVAKTTYEEKHLQMTRMKDGSENHLLKPSAKNG 360 Query: 361 NKKGISDVQSVGSQNITKDSNHHAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPH 420 K +S VQSVG NITKDSNHH NN +KRKD G NG YDE VT PNK+ART+ SPH Sbjct: 361 TMKDVSGVQSVGFHNITKDSNHHTPTVNN-RKRKDIGLNGTYDELVTGPNKMARTTTSPH 420 Query: 421 PLAENGRSLEPCQNSAAFALPVTQQQPPMDIKVERS---DDKQRPPMKIKVDG---KING 480 L ENGR LEPCQNSAAFA P T Q+PP++IK ER+ DD QRPPMKIK+DG KING Sbjct: 421 QLTENGRILEPCQNSAAFA-PAT-QRPPVNIKGERNLPHDDTQRPPMKIKMDGKECKING 480 Query: 481 TVVVPSTQSSREKTA---RKSDAPAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWLFD-- 540 T+V P TQSSRE TA RKSDAPAK PHPDTKYLGQV+ VPK+DEWSD DQEWLF+ Sbjct: 481 TIVDPCTQSSRETTAKAERKSDAPAKPPHPDTKYLGQVLVVPKLDEWSDLVDQEWLFNSN 540 Query: 541 -SSTRKPEVKLSDIDETIDETPQVWARALWLEPVDVYALPYVIPH 551 SSTR+P+VKLS IDETPQVW RALWLEPVD++ALPYVIPH Sbjct: 541 SSSTRRPDVKLSG----IDETPQVWERALWLEPVDIHALPYVIPH 573
BLAST of Spo13812.1 vs. UniProtKB/TrEMBL
Match:
A0A061EJK1_THECC (Electron transport complex protein rnfC, putative isoform 1 OS=Theobroma cacao GN=TCM_020238 PE=4 SV=1)
HSP 1 Score: 346.7 bits (888), Expect = 5.300e-92
Identity = 241/575 (41.91%), Postives = 350/575 (60.87%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYE+K + DD D++KKEK +EKKHKK+KK+KEK+E KEK+EK+RSD KH+ Sbjct: 1 MSRCFPFPPPGYEKKARTDDVDIIKKEKQKEKKHKKDKKEKEKRENKEKKEKDRSDGKHK 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRH--------------KSNPLLSVEKKVVGSADDSHV 120 +KKDKKEKH+DKKK+K++D++KDR ++ +S EKK+ G + Sbjct: 61 DKKDKKEKHKDKKKEKDRDKEKDRSNNSEEKKFPGHPEGQNGEKISDEKKLQGKFEGHSG 120 Query: 121 HKSSEKNKEWENDRNAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMD 180 K +K K + DR++ S EKK+ G + +NG +++N+H D R + +LGR+ D Sbjct: 121 EKFIQKEKGRDKDRSSFSGEKKLAGQFSGYNGEKITQNSHLAEDFRDSKFVQELGRRVRD 180 Query: 181 EERRTINQVPDKNVGAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGD 240 E T NQ+ D+ +G ++ +D G+V+L K+ ++ EK K K + D ++D +G+ + Sbjct: 181 EGAGTGNQLADRFMGTDQKRDEGMVRLVAKTANILE---EKEKSKRSDDRKLDVQGIREE 240 Query: 241 AKSSGNALVPNPVGVVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDRE 300 +SSGNA+V N G + R GI R VEK E++M+GKEK +EK+ DD+ +KRK++DRE Sbjct: 241 TRSSGNAMVQNLPGAAKARVEGIPRQVEKDTERRMEGKEKTKEKQSDDKIRDKRKDKDRE 300 Query: 301 KPVLKDKDREKEKEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQ 360 K KD++++KEKKKEE KA +E + I+ +N KG + Sbjct: 301 KK-SHGKDKDRDKEKKKEEKAKAKSERRNIE------------------QDNVKGSNKDD 360 Query: 361 SVGSQNI-----TKDSNHHAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAE 420 VG+ N+ +K+ N A NL+KRKD NG + +PNK RT++S HPL + Sbjct: 361 PVGTINLKTSHPSKEGNKDAVAEGNLRKRKDLEKNGFFHVNDNKPNKFPRTTSSSHPLTD 420 Query: 421 NGRSLEPCQNSAAFALPVTQQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQ-- 480 NGR+LE CQ A L Q +KV+ D KV+G I ++ S Sbjct: 421 NGRTLESCQ--APIPLTSDSQGAGTSLKVDNKD--------CKVNGIIEAQLLSVSPTKP 480 Query: 481 -SSREKTARKSDAPAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWLF---DSSTRKPEVK 540 ++ + + + K PHPD+KYL QV+SVPK++EWSDFDDQ+WLF +S ++KP+V Sbjct: 481 LAANAQAIQIDEVSMKPPHPDSKYLSQVLSVPKMEEWSDFDDQDWLFHSNESQSKKPKVG 539 Query: 541 LSDIDETIDETPQVWARALWLEPVDVYALPYVIPH 551 S+ IDE PQVWA AL +E D+ ALPYVIP+ Sbjct: 541 FSE----IDEAPQVWAEALQIESADICALPYVIPY 539
BLAST of Spo13812.1 vs. UniProtKB/TrEMBL
Match:
D7SNQ8_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_05s0029g00470 PE=4 SV=1)
HSP 1 Score: 343.6 bits (880), Expect = 4.500e-91
Identity = 239/554 (43.14%), Postives = 344/554 (62.09%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYE+K + DD DLLKKEKHREKKHKKEK++KEKKEGKEKREK+R D +H+ Sbjct: 1 MSRCFPFPPPGYEKKARTDDADLLKKEKHREKKHKKEKREKEKKEGKEKREKDRGDGRHK 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 EKKD+K+KHRD+KKDKEKDR+K++ K+ + S EK++ + + K S+K + D+ Sbjct: 61 EKKDRKDKHRDRKKDKEKDREKEKDKN--ITSDEKRLASEFEGFNAEKLSQKEVR-DRDK 120 Query: 121 NAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKNV 180 N++S EK+ G +N +++++H + + +LGR+ E+ NQ+ +K Sbjct: 121 NSVSNEKRFAGQLVGYNEEKLTQSSHLGEGNKDSKFLQELGRRIRAEDGGNGNQLVEKFT 180 Query: 181 GAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPVG 240 G +R KD + +L K G + KEK K+K D ++DG+GV +++ SGN++ + G Sbjct: 181 GTDRRKDEAMARLVAKDVGIRTEGKEKNKDKRGEDRKIDGQGVRDESRISGNSVAQSLTG 240 Query: 241 VVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKERDREKPVL-KDKDREKEK 300 +R G +P+EKKIE++M+ KEK ++KEGDD++G+KRK+RDREK K+KDR+KEK Sbjct: 241 TGLHRLEGTPKPLEKKIERRMEAKEKTKDKEGDDKRGDKRKDRDREKKSQGKEKDRDKEK 300 Query: 301 EKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSNH 360 K+++E K + K++ +K+ NK ++ ++ + ++ KDSN Sbjct: 301 RKEEKEKEKIEHKNKELD---------------KSKESNKDDVTVTHNIKTSHLHKDSNK 360 Query: 361 HAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPV 420 AA N +KRKD+ NG +PNKL R ++ HPL ENGR LEPCQ S Sbjct: 361 SAATEGNHRKRKDSDTNGFLHVNEVKPNKLPRPTS--HPLIENGRKLEPCQTSILITSD- 420 Query: 421 TQQQPPMDIKVERSDDKQRPPMKIKVDGKINGTVVVPSTQSSREKTARKSDAPAKQPHPD 480 Q ++KVE + K + G +V S + + +DA K PHPD Sbjct: 421 RQGGTANNLKVENKEHKLN-----GIIGAQPFSVASTKPLSVASQADQIADASKKPPHPD 480 Query: 481 TKYLGQVISVPKVDEWSDFDDQEWLFDSS---TRKPEVKLSDIDETIDETPQVWARALWL 540 +KYL QV+ VPK++EWSDFDDQEWLF SS + KP++ S DETPQVWA AL + Sbjct: 481 SKYLSQVLLVPKMEEWSDFDDQEWLFSSSISQSEKPKMGSSG----GDETPQVWAEALQV 524 Query: 541 EPVDVYALPYVIPH 551 + D+YALPYVIP+ Sbjct: 541 DSADIYALPYVIPY 524
BLAST of Spo13812.1 vs. UniProtKB/TrEMBL
Match:
A0A0B0PDI1_GOSAR (Uncharacterized protein OS=Gossypium arboreum GN=F383_28772 PE=4 SV=1)
HSP 1 Score: 319.3 bits (817), Expect = 9.100e-84
Identity = 240/575 (41.74%), Postives = 334/575 (58.09%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYE+K + DD DLL KEK +EK HKKEKK+KEK+E KEK+EK+RSD KH+ Sbjct: 1 MSRCFPFPPPGYEKKARTDDVDLLNKEKQKEKSHKKEKKEKEKREKKEKKEKDRSDGKHK 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSE--------- 120 +KKDKKEKH+DK K KEK RDK++ K S EKK G D + K+S+ Sbjct: 61 DKKDKKEKHKDKDKKKEKSRDKEKEKERSNPSEEKKFSGHPDGQNGEKTSDEKKFLGKPE 120 Query: 121 ---------KNKEWENDRNAMSAEKKIDGLPAAHNGMPVSKNNHQVSDARSFRCASDLGR 180 K K + DR++ S+EK G + NG +S+N+H D R + +L Sbjct: 121 GHSGEKFIQKEKGRDKDRSSFSSEKNFAGHILSFNGEKISQNSHPAQDFRDSKFVQELAG 180 Query: 181 KSMDEERRTINQVPDKNVGAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRG 240 + DE +Q+ DK++G R +D G+V K+ + KEK+K + D R D G Sbjct: 181 RVRDEGAGAASQLADKSMGTNRKRDEGMVGFVAKTANKPAEEKEKSKR--SDDRRFDVHG 240 Query: 241 VIGDAKSSGNALVPNPVGVVQNRGGGILRPVEKKIEQKMDGKEKIREKEGDDRKGEKRKE 300 + + ++ GNA+VPN G V+ + GI + VE E++ +GKEK++EKEGD++ +KRK+ Sbjct: 241 IKEETRAGGNAMVPNLAGAVKAKVEGIPKQVENNTEKRGEGKEKVKEKEGDNKTKDKRKD 300 Query: 301 RDREKPVL-KDKDREKEKEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKG 360 +DREK KDKDR+K KE+K KA E + +++ +K NK G Sbjct: 301 KDREKQSHGKDKDRDKAKEEK----AKAKGEHRNLELDNLKG-------------SNKDG 360 Query: 361 ISDVQSVGSQNITKDSNHHAAVNNNLKKRKDTGPNGIYDEFVTRPNKLARTSASPHPLAE 420 ++ + + +KD N NL+KRK+ NG + +PNKL +TS S PL Sbjct: 361 PGGNINLKTSHPSKDGNKGVVAEENLRKRKNLEKNGFFHVDDIKPNKLPKTS-SFQPLTG 420 Query: 421 NGRSLEPCQNSAAFALPVTQQQPPMDIKVERSDDKQRPPMKIKVDGKING---TVVVPST 480 NGR+LEPCQ A L + + +KV D+K+R KV+G I +V P Sbjct: 421 NGRTLEPCQ--APIPLTLDSKGAGTSLKV---DNKER-----KVNGIIEAQLLSVSPPKQ 480 Query: 481 QSSREKTARKSDAPAKQPHPDTKYLGQVISVPKVDEWSDFDDQEWL---FDSSTRKPEVK 540 SS + ++ + + PHPD KYL QV+SVPK++EWSDFDDQ WL +S ++KP+V Sbjct: 481 LSSSAQASQIDEVSIRPPHPDLKYLSQVLSVPKMEEWSDFDDQSWLLHSIESQSKKPKVG 540 Query: 541 LSDIDETIDETPQVWARALWLEPVDVYALPYVIPH 551 S+ IDE PQVWA AL +E DV ALPYVIP+ Sbjct: 541 FSE----IDEPPQVWADALQIESADVCALPYVIPY 541
BLAST of Spo13812.1 vs. TAIR (Arabidopsis)
Match:
AT5G48610.1 (unknown protein)
HSP 1 Score: 73.9 bits (180), Expect = 3.400e-13
Identity = 119/389 (30.59%), Postives = 186/389 (47.81%), Query Frame = 1
Query: 1 MSRCFPFPPPGYERKTKADDTDLLKKEKHREKKHKKEKKDKEKKEGKEKREKERSDEKHR 60 MSRCFPFPPPGYE+K + D+ D L K+K++EKKHKK DKEK+EGKEK+ K+RS +K Sbjct: 1 MSRCFPFPPPGYEKKIRTDEADPLVKDKYKEKKHKK---DKEKREGKEKKSKDRSKDK-- 60 Query: 61 EKKDKKEKHRDKKKDKEKDRDKDRHKSNPLLSVEKKVVGSADDSHVHKSSEKNKEWENDR 120 +K R +KKDK KD+ KD+ K EK K E Sbjct: 61 ------QKERKEKKDKHKDQ-KDKEKGK----------------------EKGKPLE--- 120 Query: 121 NAMSAEKKIDGLP-AAHNGMPVSKNNHQVSDARSFRCASDLGRKSMDEERRTINQVPDKN 180 EKK + L A H V+ S+ S + DL R+ +E T +Q + Sbjct: 121 -----EKKAELLTNAGHRENRVTDTVQNNSNGES-KYVQDLARRIRYDEEATGSQSAQR- 180 Query: 181 VGAERTKDGGVVKLATKSGGPIQDPKEKTKEKPTPDGRMDGRGVIGDAKSSGNALVPNPV 240 + K+ G+ + A ++ P E+T + + R++ + AKSS NA+ Sbjct: 181 IDHPNQKNVGITEKAFENS-----PIEETSHRVDDNKRINNQKNFTAAKSSENAVSRVSF 240 Query: 241 GVVQNRGGGILRPVEKKIE-QKMDGKEKIREKEGDDRKGEKRKERDREKPVLKDKDREKE 300 G R + +P+E + + ++ + EK KE + + R + +K KDKDR KE Sbjct: 241 GADHKRAEVMGKPMENRDQVRQTESAEKSHRKENVTKSEKPRDQEGVKKTEAKDKDRNKE 300 Query: 301 KEKKKEEIVKATAEEKQIQVTRVKDISENHMLKPSAKDENKKGISDVQSVGSQNITKDSN 360 K+++K E + T +EK +++ +E +K D+++ ++++ S Sbjct: 301 KKEEKTESINKTRQEKP------------KLIRGPKLEEREKDSPDLRNCKLPDVSRTSI 328 Query: 361 HHAAVNNNLKKRKDTGPNG-IYDEFVTRP 387 + NL KRKD NG +Y E + P Sbjct: 361 KNLHTEGNLGKRKDHMTNGFLYGELFSDP 328
BLAST of Spo13812.1 vs. TAIR (Arabidopsis)
Match:
AT5G43490.1 (unknown protein)
HSP 1 Score: 65.9 bits (159), Expect = 9.200e-11
Identity = 51/179 (28.49%), Postives = 80/179 (44.69%), Query Frame = 1
Query: 382 FVTRPNKLARTSASPHPLAENGRSLEPCQNSAAFALPVTQQQPPMDIKVERSDDKQRPPM 441 ++ R K +PH L + + +N P T P +++ +P + Sbjct: 14 YLKRFFKFMENGTTPHKLQKLSACVPSVENGITLGAPRTPPMPASEVQGTTC----KPQV 73 Query: 442 KIKVDGKINGTVVV----------PSTQSSREKTARKSDAPAKQPHPDTKYLGQVISVPK 501 K + +ING V P + + K + AK PHPD KYL Q++ VP Sbjct: 74 K---EVRINGFTVSGKKHKVCPPSPLAATMKVKVKENGEPSAKPPHPDLKYLNQILHVPT 133 Query: 502 VDEWSDF-DDQEWLFDSSTRKPEVKLSDIDETIDETPQVWARALWLEPVDVYALPYVIP 550 + + DDQEWL S K + +D ++ E+ QVW +A +E D+ ALPYV+P Sbjct: 134 RELLPEIDDDQEWLLGQSGIKLKKARTDPPDS-GESLQVWNQAFRIESADITALPYVVP 184
The following BLAST results are available for this feature:
BLAST of Spo13812.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
C A G A C C G A G T A C A T A A C C A T C A A G A T C A C A A G C T A G G T C T T C T T C C G T C T A T A T C T T G T T C C T C A A C A A T C A G A A A C T C C A T C T T C T T C C G T C T T T T T C C A A T T C C A T C T A A A A G G G C G T C C T G A T T T T A G G A A T C A G A G T T T T C C A G A A A T C G A A T C C T A G A C T C A C A C T T T C T C T C T C C T A G G G T T C C A T C A C T G G T T T G T C T C A A T T T C T T C C G A T T T C A A A A T T T T T A A G A T T T G G G G G A A A C C C C C T T T T G A T A C G C C A C T G C C C A G C A T A C T A C C C C T T T C A A T A G G G G A T G A T T T T G T G T T C T G G G A T T T G T G A A T A A G G C G A G A T A A T C A T A A T A T T G C T T T T T A G C A A G A A T A A T C C A G T A A C A T A G T T C T G G G G A A T A A T T T G G A C T T T G A T T T A G G G T T T T T A T A T T C A T C A A A A A T T C A A A A A A A A A T C A C T A T T G G G G A G A A C T T A A G A T T T C C G T G C T T C C C A A T T G T T G A G C C A C A A A G C T C A A T T T T A T T G T T T T G A G T G T C G A A T T C A A G C T T C G A G T G A A C A T T G C T T A A T C T G G G G C A T G G A A G A G T G T T G T A G T T A T A G A G T C A G G C A A T A G A G G A T C A C C G G G G A T T T T T C G A T A C T T T G A T T C A A T T G A A G C T T G T T G T A G T A G C T A A A G A G T T G A T T G A T T G A T T G G T A G A G G A T C A G T G G G A T A A A T T T T G A T T T T G G T T G C T T T G A T T T G A C C C A G C A T A C T A C C C C T T T T C A A T A G G G G A T G A T A T T G T G T T T T G G A G C T T C A G A A T A A G G C G G A A T A T A G A G A G A A T C A T T A C A A T T T C T C G A A A T C G A T T T G G G G A T A A A T T C G T C G A C G A T C C T T T G G C A A T C T G G T T A T T G A G C T G A T A T T G C A T T G C T T T T G A G T T T G T G G G T G T T G T T T G T G G C A A G T G A T T T G T G T G A A T T T G A T A A T T T G A T T T G G T G G G C T G A G A C T G A G T T T A T G G A A G T A T T T T G A A G C T G G A A A T G A A T G T G G G G A C A T G G T G C A T G G A C A A G A G C T T A G T T G T T G G T T T G A T T C T T G T T T G G A A C A T T G C C C T A G C A C T A G C T T A C T A G T C C A A G T A T T T G C G C T T G C A A G G G G T G A C A G A T T C T T G A G G C C C T T G G A A C T T T T G C A A T G T C T C G C T G C T T T C C T T T C C C T C C A C C A G G A T A C G A A A G G A A G A C G A A G G C G G A C G A C A C T G A C T T G C T A A A A A A G G A A A A G C A T A G A G A A A A G A A G C A C A A A A A G G A G A A A A A A G A C A A G G A G A A G A A A G A A G G G A A A G A A A A A C G G G A G A A A G A A A G A A G T G A T G A A A A A C A C A G A G A A A A G A A A G A C A A A A A G G A G A A A C A T A G A G A C A A A A A G A A A G A C A A G G A G A A G G A C A G G G A T A A A G A T A G A C A T A A A A G C A A T C C C T T G C T T T C T G T T G A G A A G A A G G T T G T G G G T T C A G C T G A T G A C A G T C A T G T T C A T A A G T C C T C T G A G A A G A A C A A G G A G T G G G A A A A T G A C A G A A A T G C T A T G T C A G C T G A G A A G A A G A T C G A T G G G C T G C C T G C A G C T C A C A A T G G G A T G C C G G T T A G T A A G A A T A A T C A C C A G G T T T C T G A T G C T A G G A G T T T T A G G T G T G C T T C A G A T T T G G G C C G G A A G A G C A T G G A T G A A G A A A G G A G A A C A A T T A A T C A A G T G C C T G A T A A G A A T G T T G G T G C A G A G A G A A C A A A A G A T G G T G G A G T G G T C A A G T T G G C T A C G A A G A G T G G C G G A C C C A T C C A G G A T C C G A A G G A A A A G A C C A A G G A G A A A C C A A C T C C T G A T G G A A G G A T G G A T G G A C G A G G T G T C A T C G G G G A T G C T A A A T C T A G T G G A A A T G C T T T G G T T C C G A A T C C T G T T G G A G T G G T T C A A A A C A G A G G G G G A G G A A T T C T C A G A C C C G T G G A G A A A A A G A T T G A G C A G A A A A T G G A T G G G A A A G A A A A G A T T A G A G A G A A A G A A G G G G A T G A T A G A A A A G G A G A G A A A A G A A A G G A A A G A G A C A G G G A A A A A C C A G T C C T C A A A G A C A A G G A C A G G G A A A A G G A A A A G G A G A A G A A G A A A G A G G A G A T A G T G A A G G C A A C T G C A G A A G A G A A G C A A A T A C A A G T T A C A A G A G T G A A A G A T A T C A G T G A A A A C C A C A T G C T A A A A C C A A G T G C A A A G G A T G A A A A C A A G A A G G G T A T T T C A G A T G T C C A G A G T G T T G G G T C T C A A A A C A T A A C A A A A G A T A G C A A T C A T C A T G C T G C T G T T A A T A A T A A T C T C A A G A A A C G G A A G G A C A C T G G T C C C A A T G G A A T T T A C G A T G A G T T T G T C A C T C G G C C T A A T A A G C T G G C A A G A A C A T C A G C T T C T C C C C A T C C G T T G G C G G A A A A T G G A A G G A G C T T G G A G C C T T G C C A G A A T T C A G C T G C A T T T G C T C T T C C T G T T A C A C A A C A G C A G C C A C C C A T G G A T A T T A A A G T G G A A C G C A G T G A T G A T A A A C A G A G G C C G C C C A T G A A A A T T A A A G T G G A T G G C A A G A T T A A T G G C A C A G T T G T T G T T C C C T C T A C A C A A T C T T C T C G A G A A A A A A C T G C A C G G A A A T C T G A T G C T C C T G C A A A G C A A C C T C A T C C A G A T A C C A A G T A T C T T G G C C A G G T G A T T T C A G T A C C T A A A G T G G A T G A A T G G T C T G A T T T T G A T G A C C A A G A G T G G T T G T T C G A T T C C T C A A C A A G G A A G C C A G A G G T C A A A T T G T C T G A T A T T G A T G A G A C T A T T G A T G A G A C T C C A C A G G T A T G G G C A A G A G C T T T G T G G T T A G A G C C A G T A G A T G T T T A T G C T T T G C C A T A T G T A A T T C C G C A C T G A T G A A T T G C G G T T G T T G T G G T T A T T C T T T A C C T T C C C T C C T T A T G T G G A G A G A A A A C C C T A T G C C A A G C T C G G G G A A A T T T G C A G C A G A T G G T G T G A G A T T G G A A T T C C A G T T T C T T G C C C T A A A A G C A A G C T C C T T G A A A C T A C G A A A T G T C G T A G A T T G G A C T G A G C T C T T C C T G C A T G T T C T G T A C A T T A G C A T T T G G T G T G G T C A T C A A C T T T T T C C A G A G C T T T C T C A A A T A G A A A G G A A G C T G T T G G T T G T A T C A C A C C T G C C T C A G C A G C A A C T C G T T C C A A G A G C T A G G G T T T T G A T G A C A A T T T T G G G C C T C T T A G A G C G A G A A A C A C T G A T T C T T T T C A C A A G G G G A G T A T A A A T G A G C T T G C T T C C C C T A T A G T T G C A A C G G T T G A G A A G A T T G T T T A G A T G G G A G A G A T G C A T T A G T T T G T G A A A A T A T T A T G G T T A G A G C A A T T G G A A G G A G C T T T T G C T A A T C T T T T C A G T G T A A G G C G A A A C T T A G C T G T G G T G T A T G C A T G C G C C A A C C G A T T T T G A T T T G T A A C A T A A T A C T C T T A A T T T A C A G G A G A A A A T G T A A C A T A G A A G G G A A T G G G A A G A G G T A G C T T G A T A A A T A T A T A C A A G T A C G G A T A T T T T T T C C A C C A A A T A T G C T T A G G A T T T A G G G T T T A G A T T T A T C T T A A A A T T G T T T C T G T C T T C A C T T T C G A G T C T T G A A T G A T G T T T A G T T G A T A T A T A T A T A T T T A G T A G C T C C C A T C A A T G A C C C A C C T A T C A T A T A A G A T G T C A T T T G A T A T G C A C A A A T G T T A A A A A T T A A G A T A A A T A T T A C T T T G G T T A T G A T A A T T G G A C T T T T A C A A T C A A A C C A A C C T T G A A T T G T A G G T T T G T A A A G T A A G T G G A A C C C T G A T A A A T A C C A A A T A G G G C G A A A A C A T C A G T T T T T C T G A G A A A A T A A T T A G A A A T A G G T A T G T A T A C A C T G A A T A C T T G G G C T A A A T T C C T A T G A A A A T T G T G T A A C T T G A A A C C A A A G A A G A A C A G G A T T G T G C T A G G G T A A A G T G A A A C T C T T G T G A A T C A C T A G T A C G A G A A A A C A A C G G A C A A A C T A G A T A A C C A G A A A A T T G C A G A A A G C A A T A A A C C T T T C C C C T A A A A T G G T T G G A G A A C A A 500 1000 1500 2000 2500 3000 3500 Expect = 2.40e-295 / Id = 100.00 Expect = 2.00e-201 / Id = 73.67 Expect = 3.40e-193 / Id = 70.09 Expect = 7.60e-92 / Id = 41.91 Expect = 6.40e-91 / Id = 43.14 Sequence KNA17488.1 XP_010673393.1 XP_010673391.1 XP_007034233.1 XP_010650330.1
back to top
BLAST of Spo13812.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
C A G A C C G A G T A C A T A A C C A T C A A G A T C A C A A G C T A G G T C T T C T T C C G T C T A T A T C T T G T T C C T C A A C A A T C A G A A A C T C C A T C T T C T T C C G T C T T T T T C C A A T T C C A T C T A A A A G G G C G T C C T G A T T T T A G G A A T C A G A G T T T T C C A G A A A T C G A A T C C T A G A C T C A C A C T T T C T C T C T C C T A G G G T T C C A T C A C T G G T T T G T C T C A A T T T C T T C C G A T T T C A A A A T T T T T A A G A T T T G G G G G A A A C C C C C T T T T G A T A C G C C A C T G C C C A G C A T A C T A C C C C T T T C A A T A G G G G A T G A T T T T G T G T T C T G G G A T T T G T G A A T A A G G C G A G A T A A T C A T A A T A T T G C T T T T T A G C A A G A A T A A T C C A G T A A C A T A G T T C T G G G G A A T A A T T T G G A C T T T G A T T T A G G G T T T T T A T A T T C A T C A A A A A T T C A A A A A A A A A T C A C T A T T G G G G A G A A C T T A A G A T T T C C G T G C T T C C C A A T T G T T G A G C C A C A A A G C T C A A T T T T A T T G T T T T G A G T G T C G A A T T C A A G C T T C G A G T G A A C A T T G C T T A A T C T G G G G C A T G G A A G A G T G T T G T A G T T A T A G A G T C A G G C A A T A G A G G A T C A C C G G G G A T T T T T C G A T A C T T T G A T T C A A T T G A A G C T T G T T G T A G T A G C T A A A G A G T T G A T T G A T T G A T T G G T A G A G G A T C A G T G G G A T A A A T T T T G A T T T T G G T T G C T T T G A T T T G A C C C A G C A T A C T A C C C C T T T T C A A T A G G G G A T G A T A T T G T G T T T T G G A G C T T C A G A A T A A G G C G G A A T A T A G A G A G A A T C A T T A C A A T T T C T C G A A A T C G A T T T G G G G A T A A A T T C G T C G A C G A T C C T T T G G C A A T C T G G T T A T T G A G C T G A T A T T G C A T T G C T T T T G A G T T T G T G G G T G T T G T T T G T G G C A A G T G A T T T G T G T G A A T T T G A T A A T T T G A T T T G G T G G G C T G A G A C T G A G T T T A T G G A A G T A T T T T G A A G C T G G A A A T G A A T G T G G G G A C A T G G T G C A T G G A C A A G A G C T T A G T T G T T G G T T T G A T T C T T G T T T G G A A C A T T G C C C T A G C A C T A G C T T A C T A G T C C A A G T A T T T G C G C T T G C A A G G G G T G A C A G A T T C T T G A G G C C C T T G G A A C T T T T G C A A T G T C T C G C T G C T T T C C T T T C C C T C C A C C A G G A T A C G A A A G G A A G A C G A A G G C G G A C G A C A C T G A C T T G C T A A A A A A G G A A A A G C A T A G A G A A A A G A A G C A C A A A A A G G A G A A A A A A G A C A A G G A G A A G A A A G A A G G G A A A G A A A A A C G G G A G A A A G A A A G A A G T G A T G A A A A A C A C A G A G A A A A G A A A G A C A A A A A G G A G A A A C A T A G A G A C A A A A A G A A A G A C A A G G A G A A G G A C A G G G A T A A A G A T A G A C A T A A A A G C A A T C C C T T G C T T T C T G T T G A G A A G A A G G T T G T G G G T T C A G C T G A T G A C A G T C A T G T T C A T A A G T C C T C T G A G A A G A A C A A G G A G T G G G A A A A T G A C A G A A A T G C T A T G T C A G C T G A G A A G A A G A T C G A T G G G C T G C C T G C A G C T C A C A A T G G G A T G C C G G T T A G T A A G A A T A A T C A C C A G G T T T C T G A T G C T A G G A G T T T T A G G T G T G C T T C A G A T T T G G G C C G G A A G A G C A T G G A T G A A G A A A G G A G A A C A A T T A A T C A A G T G C C T G A T A A G A A T G T T G G T G C A G A G A G A A C A A A A G A T G G T G G A G T G G T C A A G T T G G C T A C G A A G A G T G G C G G A C C C A T C C A G G A T C C G A A G G A A A A G A C C A A G G A G A A A C C A A C T C C T G A T G G A A G G A T G G A T G G A C G A G G T G T C A T C G G G G A T G C T A A A T C T A G T G G A A A T G C T T T G G T T C C G A A T C C T G T T G G A G T G G T T C A A A A C A G A G G G G G A G G A A T T C T C A G A C C C G T G G A G A A A A A G A T T G A G C A G A A A A T G G A T G G G A A A G A A A A G A T T A G A G A G A A A G A A G G G G A T G A T A G A A A A G G A G A G A A A A G A A A G G A A A G A G A C A G G G A A A A A C C A G T C C T C A A A G A C A A G G A C A G G G A A A A G G A A A A G G A G A A G A A G A A A G A G G A G A T A G T G A A G G C A A C T G C A G A A G A G A A G C A A A T A C A A G T T A C A A G A G T G A A A G A T A T C A G T G A A A A C C A C A T G C T A A A A C C A A G T G C A A A G G A T G A A A A C A A G A A G G G T A T T T C A G A T G T C C A G A G T G T T G G G T C T C A A A A C A T A A C A A A A G A T A G C A A T C A T C A T G C T G C T G T T A A T A A T A A T C T C A A G A A A C G G A A G G A C A C T G G T C C C A A T G G A A T T T A C G A T G A G T T T G T C A C T C G G C C T A A T A A G C T G G C A A G A A C A T C A G C T T C T C C C C A T C C G T T G G C G G A A A A T G G A A G G A G C T T G G A G C C T T G C C A G A A T T C A G C T G C A T T T G C T C T T C C T G T T A C A C A A C A G C A G C C A C C C A T G G A T A T T A A A G T G G A A C G C A G T G A T G A T A A A C A G A G G C C G C C C A T G A A A A T T A A A G T G G A T G G C A A G A T T A A T G G C A C A G T T G T T G T T C C C T C T A C A C A A T C T T C T C G A G A A A A A A C T G C A C G G A A A T C T G A T G C T C C T G C A A A G C A A C C T C A T C C A G A T A C C A A G T A T C T T G G C C A G G T G A T T T C A G T A C C T A A A G T G G A T G A A T G G T C T G A T T T T G A T G A C C A A G A G T G G T T G T T C G A T T C C T C A A C A A G G A A G C C A G A G G T C A A A T T G T C T G A T A T T G A T G A G A C T A T T G A T G A G A C T C C A C A G G T A T G G G C A A G A G C T T T G T G G T T A G A G C C A G T A G A T G T T T A T G C T T T G C C A T A T G T A A T T C C G C A C T G A T G A A T T G C G G T T G T T G T G G T T A T T C T T T A C C T T C C C T C C T T A T G T G G A G A G A A A A C C C T A T G C C A A G C T C G G G G A A A T T T G C A G C A G A T G G T G T G A G A T T G G A A T T C C A G T T T C T T G C C C T A A A A G C A A G C T C C T T G A A A C T A C G A A A T G T C G T A G A T T G G A C T G A G C T C T T C C T G C A T G T T C T G T A C A T T A G C A T T T G G T G T G G T C A T C A A C T T T T T C C A G A G C T T T C T C A A A T A G A A A G G A A G C T G T T G G T T G T A T C A C A C C T G C C T C A G C A G C A A C T C G T T C C A A G A G C T A G G G T T T T G A T G A C A A T T T T G G G C C T C T T A G A G C G A G A A A C A C T G A T T C T T T T C A C A A G G G G A G T A T A A A T G A G C T T G C T T C C C C T A T A G T T G C A A C G G T T G A G A A G A T T G T T T A G A T G G G A G A G A T G C A T T A G T T T G T G A A A A T A T T A T G G T T A G A G C A A T T G G A A G G A G C T T T T G C T A A T C T T T T C A G T G T A A G G C G A A A C T T A G C T G T G G T G T A T G C A T G C G C C A A C C G A T T T T G A T T T G T A A C A T A A T A C T C T T A A T T T A C A G G A G A A A A T G T A A C A T A G A A G G G A A T G G G A A G A G G T A G C T T G A T A A A T A T A T A C A A G T A C G G A T A T T T T T T C C A C C A A A T A T G C T T A G G A T T T A G G G T T T A G A T T T A T C T T A A A A T T G T T T C T G T C T T C A C T T T C G A G T C T T G A A T G A T G T T T A G T T G A T A T A T A T A T A T T T A G T A G C T C C C A T C A A T G A C C C A C C T A T C A T A T A A G A T G T C A T T T G A T A T G C A C A A A T G T T A A A A A T T A A G A T A A A T A T T A C T T T G G T T A T G A T A A T T G G A C T T T T A C A A T C A A A C C A A C C T T G A A T T G T A G G T T T G T A A A G T A A G T G G A A C C C T G A T A A A T A C C A A A T A G G G C G A A A A C A T C A G T T T T T C T G A G A A A A T A A T T A G A A A T A G G T A T G T A T A C A C T G A A T A C T T G G G C T A A A T T C C T A T G A A A A T T G T G T A A C T T G A A A C C A A A G A A G A A C A G G A T T G T G C T A G G G T A A A G T G A A A C T C T T G T G A A T C A C T A G T A C G A G A A A A C A A C G G A C A A A C T A G A T A A C C A G A A A A T T G C A G A A A G C A A T A A A C C T T T C C C C T A A A A T G G T T G G A G A A C A A 500 1000 1500 2000 2500 3000 3500 Expect = 1.70e-295 / Id = 100.00 Expect = 2.40e-193 / Id = 70.09 Expect = 5.30e-92 / Id = 41.91 Expect = 4.50e-91 / Id = 43.14 Expect = 9.10e-84 / Id = 41.74 Sequence A0A0K9RDH4_SPIOL A0A0J8CMS0_BETVU A0A061EJK1_THECC D7SNQ8_VITVI A0A0B0PDI1_GOSAR
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BLAST of Spo13812.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
C A G A C C G A G T A C A T A A C C A T C A A G A T C A C A A G C T A G G T C T T C T T C C G T C T A T A T C T T G T T C C T C A A C A A T C A G A A A C T C C A T C T T C T T C C G T C T T T T T C C A A T T C C A T C T A A A A G G G C G T C C T G A T T T T A G G A A T C A G A G T T T T C C A G A A A T C G A A T C C T A G A C T C A C A C T T T C T C T C T C C T A G G G T T C C A T C A C T G G T T T G T C T C A A T T T C T T C C G A T T T C A A A A T T T T T A A G A T T T G G G G G A A A C C C C C T T T T G A T A C G C C A C T G C C C A G C A T A C T A C C C C T T T C A A T A G G G G A T G A T T T T G T G T T C T G G G A T T T G T G A A T A A G G C G A G A T A A T C A T A A T A T T G C T T T T T A G C A A G A A T A A T C C A G T A A C A T A G T T C T G G G G A A T A A T T T G G A C T T T G A T T T A G G G T T T T T A T A T T C A T C A A A A A T T C A A A A A A A A A T C A C T A T T G G G G A G A A C T T A A G A T T T C C G T G C T T C C C A A T T G T T G A G C C A C A A A G C T C A A T T T T A T T G T T T T G A G T G T C G A A T T C A A G C T T C G A G T G A A C A T T G C T T A A T C T G G G G C A T G G A A G A G T G T T G T A G T T A T A G A G T C A G G C A A T A G A G G A T C A C C G G G G A T T T T T C G A T A C T T T G A T T C A A T T G A A G C T T G T T G T A G T A G C T A A A G A G T T G A T T G A T T G A T T G G T A G A G G A T C A G T G G G A T A A A T T T T G A T T T T G G T T G C T T T G A T T T G A C C C A G C A T A C T A C C C C T T T T C A A T A G G G G A T G A T A T T G T G T T T T G G A G C T T C A G A A T A A G G C G G A A T A T A G A G A G A A T C A T T A C A A T T T C T C G A A A T C G A T T T G G G G A T A A A T T C G T C G A C G A T C C T T T G G C A A T C T G G T T A T T G A G C T G A T A T T G C A T T G C T T T T G A G T T T G T G G G T G T T G T T T G T G G C A A G T G A T T T G T G T G A A T T T G A T A A T T T G A T T T G G T G G G C T G A G A C T G A G T T T A T G G A A G T A T T T T G A A G C T G G A A A T G A A T G T G G G G A C A T G G T G C A T G G A C A A G A G C T T A G T T G T T G G T T T G A T T C T T G T T T G G A A C A T T G C C C T A G C A C T A G C T T A C T A G T C C A A G T A T T T G C G C T T G C A A G G G G T G A C A G A T T C T T G A G G C C C T T G G A A C T T T T G C A A T G T C T C G C T G C T T T C C T T T C C C T C C A C C A G G A T A C G A A A G G A A G A C G A A G G C G G A C G A C A C T G A C T T G C T A A A A A A G G A A A A G C A T A G A G A A A A G A A G C A C A A A A A G G A G A A A A A A G A C A A G G A G A A G A A A G A A G G G A A A G A A A A A C G G G A G A A A G A A A G A A G T G A T G A A A A A C A C A G A G A A A A G A A A G A C A A A A A G G A G A A A C A T A G A G A C A A A A A G A A A G A C A A G G A G A A G G A C A G G G A T A A A G A T A G A C A T A A A A G C A A T C C C T T G C T T T C T G T T G A G A A G A A G G T T G T G G G T T C A G C T G A T G A C A G T C A T G T T C A T A A G T C C T C T G A G A A G A A C A A G G A G T G G G A A A A T G A C A G A A A T G C T A T G T C A G C T G A G A A G A A G A T C G A T G G G C T G C C T G C A G C T C A C A A T G G G A T G C C G G T T A G T A A G A A T A A T C A C C A G G T T T C T G A T G C T A G G A G T T T T A G G T G T G C T T C A G A T T T G G G C C G G A A G A G C A T G G A T G A A G A A A G G A G A A C A A T T A A T C A A G T G C C T G A T A A G A A T G T T G G T G C A G A G A G A A C A A A A G A T G G T G G A G T G G T C A A G T T G G C T A C G A A G A G T G G C G G A C C C A T C C A G G A T C C G A A G G A A A A G A C C A A G G A G A A A C C A A C T C C T G A T G G A A G G A T G G A T G G A C G A G G T G T C A T C G G G G A T G C T A A A T C T A G T G G A A A T G C T T T G G T T C C G A A T C C T G T T G G A G T G G T T C A A A A C A G A G G G G G A G G A A T T C T C A G A C C C G T G G A G A A A A A G A T T G A G C A G A A A A T G G A T G G G A A A G A A A A G A T T A G A G A G A A A G A A G G G G A T G A T A G A A A A G G A G A G A A A A G A A A G G A A A G A G A C A G G G A A A A A C C A G T C C T C A A A G A C A A G G A C A G G G A A A A G G A A A A G G A G A A G A A G A A A G A G G A G A T A G T G A A G G C A A C T G C A G A A G A G A A G C A A A T A C A A G T T A C A A G A G T G A A A G A T A T C A G T G A A A A C C A C A T G C T A A A A C C A A G T G C A A A G G A T G A A A A C A A G A A G G G T A T T T C A G A T G T C C A G A G T G T T G G G T C T C A A A A C A T A A C A A A A G A T A G C A A T C A T C A T G C T G C T G T T A A T A A T A A T C T C A A G A A A C G G A A G G A C A C T G G T C C C A A T G G A A T T T A C G A T G A G T T T G T C A C T C G G C C T A A T A A G C T G G C A A G A A C A T C A G C T T C T C C C C A T C C G T T G G C G G A A A A T G G A A G G A G C T T G G A G C C T T G C C A G A A T T C A G C T G C A T T T G C T C T T C C T G T T A C A C A A C A G C A G C C A C C C A T G G A T A T T A A A G T G G A A C G C A G T G A T G A T A A A C A G A G G C C G C C C A T G A A A A T T A A A G T G G A T G G C A A G A T T A A T G G C A C A G T T G T T G T T C C C T C T A C A C A A T C T T C T C G A G A A A A A A C T G C A C G G A A A T C T G A T G C T C C T G C A A A G C A A C C T C A T C C A G A T A C C A A G T A T C T T G G C C A G G T G A T T T C A G T A C C T A A A G T G G A T G A A T G G T C T G A T T T T G A T G A C C A A G A G T G G T T G T T C G A T T C C T C A A C A A G G A A G C C A G A G G T C A A A T T G T C T G A T A T T G A T G A G A C T A T T G A T G A G A C T C C A C A G G T A T G G G C A A G A G C T T T G T G G T T A G A G C C A G T A G A T G T T T A T G C T T T G C C A T A T G T A A T T C C G C A C T G A T G A A T T G C G G T T G T T G T G G T T A T T C T T T A C C T T C C C T C C T T A T G T G G A G A G A A A A C C C T A T G C C A A G C T C G G G G A A A T T T G C A G C A G A T G G T G T G A G A T T G G A A T T C C A G T T T C T T G C C C T A A A A G C A A G C T C C T T G A A A C T A C G A A A T G T C G T A G A T T G G A C T G A G C T C T T C C T G C A T G T T C T G T A C A T T A G C A T T T G G T G T G G T C A T C A A C T T T T T C C A G A G C T T T C T C A A A T A G A A A G G A A G C T G T T G G T T G T A T C A C A C C T G C C T C A G C A G C A A C T C G T T C C A A G A G C T A G G G T T T T G A T G A C A A T T T T G G G C C T C T T A G A G C G A G A A A C A C T G A T T C T T T T C A C A A G G G G A G T A T A A A T G A G C T T G C T T C C C C T A T A G T T G C A A C G G T T G A G A A G A T T G T T T A G A T G G G A G A G A T G C A T T A G T T T G T G A A A A T A T T A T G G T T A G A G C A A T T G G A A G G A G C T T T T G C T A A T C T T T T C A G T G T A A G G C G A A A C T T A G C T G T G G T G T A T G C A T G C G C C A A C C G A T T T T G A T T T G T A A C A T A A T A C T C T T A A T T T A C A G G A G A A A A T G T A A C A T A G A A G G G A A T G G G A A G A G G T A G C T T G A T A A A T A T A T A C A A G T A C G G A T A T T T T T T C C A C C A A A T A T G C T T A G G A T T T A G G G T T T A G A T T T A T C T T A A A A T T G T T T C T G T C T T C A C T T T C G A G T C T T G A A T G A T G T T T A G T T G A T A T A T A T A T A T T T A G T A G C T C C C A T C A A T G A C C C A C C T A T C A T A T A A G A T G T C A T T T G A T A T G C A C A A A T G T T A A A A A T T A A G A T A A A T A T T A C T T T G G T T A T G A T A A T T G G A C T T T T A C A A T C A A A C C A A C C T T G A A T T G T A G G T T T G T A A A G T A A G T G G A A C C C T G A T A A A T A C C A A A T A G G G C G A A A A C A T C A G T T T T T C T G A G A A A A T A A T T A G A A A T A G G T A T G T A T A C A C T G A A T A C T T G G G C T A A A T T C C T A T G A A A A T T G T G T A A C T T G A A A C C A A A G A A G A A C A G G A T T G T G C T A G G G T A A A G T G A A A C T C T T G T G A A T C A C T A G T A C G A G A A A A C A A C G G A C A A A C T A G A T A A C C A G A A A A T T G C A G A A A G C A A T A A A C C T T T C C C C T A A A A T G G T T G G A G A A C A A 500 1000 1500 2000 2500 3000 3500 Sequence
Match Name E-value Identity Description
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BLAST of Spo13812.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 2
C A G A C C G A G T A C A T A A C C A T C A A G A T C A C A A G C T A G G T C T T C T T C C G T C T A T A T C T T G T T C C T C A A C A A T C A G A A A C T C C A T C T T C T T C C G T C T T T T T C C A A T T C C A T C T A A A A G G G C G T C C T G A T T T T A G G A A T C A G A G T T T T C C A G A A A T C G A A T C C T A G A C T C A C A C T T T C T C T C T C C T A G G G T T C C A T C A C T G G T T T G T C T C A A T T T C T T C C G A T T T C A A A A T T T T T A A G A T T T G G G G G A A A C C C C C T T T T G A T A C G C C A C T G C C C A G C A T A C T A C C C C T T T C A A T A G G G G A T G A T T T T G T G T T C T G G G A T T T G T G A A T A A G G C G A G A T A A T C A T A A T A T T G C T T T T T A G C A A G A A T A A T C C A G T A A C A T A G T T C T G G G G A A T A A T T T G G A C T T T G A T T T A G G G T T T T T A T A T T C A T C A A A A A T T C A A A A A A A A A T C A C T A T T G G G G A G A A C T T A A G A T T T C C G T G C T T C C C A A T T G T T G A G C C A C A A A G C T C A A T T T T A T T G T T T T G A G T G T C G A A T T C A A G C T T C G A G T G A A C A T T G C T T A A T C T G G G G C A T G G A A G A G T G T T G T A G T T A T A G A G T C A G G C A A T A G A G G A T C A C C G G G G A T T T T T C G A T A C T T T G A T T C A A T T G A A G C T T G T T G T A G T A G C T A A A G A G T T G A T T G A T T G A T T G G T A G A G G A T C A G T G G G A T A A A T T T T G A T T T T G G T T G C T T T G A T T T G A C C C A G C A T A C T A C C C C T T T T C A A T A G G G G A T G A T A T T G T G T T T T G G A G C T T C A G A A T A A G G C G G A A T A T A G A G A G A A T C A T T A C A A T T T C T C G A A A T C G A T T T G G G G A T A A A T T C G T C G A C G A T C C T T T G G C A A T C T G G T T A T T G A G C T G A T A T T G C A T T G C T T T T G A G T T T G T G G G T G T T G T T T G T G G C A A G T G A T T T G T G T G A A T T T G A T A A T T T G A T T T G G T G G G C T G A G A C T G A G T T T A T G G A A G T A T T T T G A A G C T G G A A A T G A A T G T G G G G A C A T G G T G C A T G G A C A A G A G C T T A G T T G T T G G T T T G A T T C T T G T T T G G A A C A T T G C C C T A G C A C T A G C T T A C T A G T C C A A G T A T T T G C G C T T G C A A G G G G T G A C A G A T T C T T G A G G C C C T T G G A A C T T T T G C A A T G T C T C G C T G C T T T C C T T T C C C T C C A C C A G G A T A C G A A A G G A A G A C G A A G G C G G A C G A C A C T G A C T T G C T A A A A A A G G A A A A G C A T A G A G A A A A G A A G C A C A A A A A G G A G A A A A A A G A C A A G G A G A A G A A A G A A G G G A A A G A A A A A C G G G A G A A A G A A A G A A G T G A T G A A A A A C A C A G A G A A A A G A A A G A C A A A A A G G A G A A A C A T A G A G A C A A A A A G A A A G A C A A G G A G A A G G A C A G G G A T A A A G A T A G A C A T A A A A G C A A T C C C T T G C T T T C T G T T G A G A A G A A G G T T G T G G G T T C A G C T G A T G A C A G T C A T G T T C A T A A G T C C T C T G A G A A G A A C A A G G A G T G G G A A A A T G A C A G A A A T G C T A T G T C A G C T G A G A A G A A G A T C G A T G G G C T G C C T G C A G C T C A C A A T G G G A T G C C G G T T A G T A A G A A T A A T C A C C A G G T T T C T G A T G C T A G G A G T T T T A G G T G T G C T T C A G A T T T G G G C C G G A A G A G C A T G G A T G A A G A A A G G A G A A C A A T T A A T C A A G T G C C T G A T A A G A A T G T T G G T G C A G A G A G A A C A A A A G A T G G T G G A G T G G T C A A G T T G G C T A C G A A G A G T G G C G G A C C C A T C C A G G A T C C G A A G G A A A A G A C C A A G G A G A A A C C A A C T C C T G A T G G A A G G A T G G A T G G A C G A G G T G T C A T C G G G G A T G C T A A A T C T A G T G G A A A T G C T T T G G T T C C G A A T C C T G T T G G A G T G G T T C A A A A C A G A G G G G G A G G A A T T C T C A G A C C C G T G G A G A A A A A G A T T G A G C A G A A A A T G G A T G G G A A A G A A A A G A T T A G A G A G A A A G A A G G G G A T G A T A G A A A A G G A G A G A A A A G A A A G G A A A G A G A C A G G G A A A A A C C A G T C C T C A A A G A C A A G G A C A G G G A A A A G G A A A A G G A G A A G A A G A A A G A G G A G A T A G T G A A G G C A A C T G C A G A A G A G A A G C A A A T A C A A G T T A C A A G A G T G A A A G A T A T C A G T G A A A A C C A C A T G C T A A A A C C A A G T G C A A A G G A T G A A A A C A A G A A G G G T A T T T C A G A T G T C C A G A G T G T T G G G T C T C A A A A C A T A A C A A A A G A T A G C A A T C A T C A T G C T G C T G T T A A T A A T A A T C T C A A G A A A C G G A A G G A C A C T G G T C C C A A T G G A A T T T A C G A T G A G T T T G T C A C T C G G C C T A A T A A G C T G G C A A G A A C A T C A G C T T C T C C C C A T C C G T T G G C G G A A A A T G G A A G G A G C T T G G A G C C T T G C C A G A A T T C A G C T G C A T T T G C T C T T C C T G T T A C A C A A C A G C A G C C A C C C A T G G A T A T T A A A G T G G A A C G C A G T G A T G A T A A A C A G A G G C C G C C C A T G A A A A T T A A A G T G G A T G G C A A G A T T A A T G G C A C A G T T G T T G T T C C C T C T A C A C A A T C T T C T C G A G A A A A A A C T G C A C G G A A A T C T G A T G C T C C T G C A A A G C A A C C T C A T C C A G A T A C C A A G T A T C T T G G C C A G G T G A T T T C A G T A C C T A A A G T G G A T G A A T G G T C T G A T T T T G A T G A C C A A G A G T G G T T G T T C G A T T C C T C A A C A A G G A A G C C A G A G G T C A A A T T G T C T G A T A T T G A T G A G A C T A T T G A T G A G A C T C C A C A G G T A T G G G C A A G A G C T T T G T G G T T A G A G C C A G T A G A T G T T T A T G C T T T G C C A T A T G T A A T T C C G C A C T G A T G A A T T G C G G T T G T T G T G G T T A T T C T T T A C C T T C C C T C C T T A T G T G G A G A G A A A A C C C T A T G C C A A G C T C G G G G A A A T T T G C A G C A G A T G G T G T G A G A T T G G A A T T C C A G T T T C T T G C C C T A A A A G C A A G C T C C T T G A A A C T A C G A A A T G T C G T A G A T T G G A C T G A G C T C T T C C T G C A T G T T C T G T A C A T T A G C A T T T G G T G T G G T C A T C A A C T T T T T C C A G A G C T T T C T C A A A T A G A A A G G A A G C T G T T G G T T G T A T C A C A C C T G C C T C A G C A G C A A C T C G T T C C A A G A G C T A G G G T T T T G A T G A C A A T T T T G G G C C T C T T A G A G C G A G A A A C A C T G A T T C T T T T C A C A A G G G G A G T A T A A A T G A G C T T G C T T C C C C T A T A G T T G C A A C G G T T G A G A A G A T T G T T T A G A T G G G A G A G A T G C A T T A G T T T G T G A A A A T A T T A T G G T T A G A G C A A T T G G A A G G A G C T T T T G C T A A T C T T T T C A G T G T A A G G C G A A A C T T A G C T G T G G T G T A T G C A T G C G C C A A C C G A T T T T G A T T T G T A A C A T A A T A C T C T T A A T T T A C A G G A G A A A A T G T A A C A T A G A A G G G A A T G G G A A G A G G T A G C T T G A T A A A T A T A T A C A A G T A C G G A T A T T T T T T C C A C C A A A T A T G C T T A G G A T T T A G G G T T T A G A T T T A T C T T A A A A T T G T T T C T G T C T T C A C T T T C G A G T C T T G A A T G A T G T T T A G T T G A T A T A T A T A T A T T T A G T A G C T C C C A T C A A T G A C C C A C C T A T C A T A T A A G A T G T C A T T T G A T A T G C A C A A A T G T T A A A A A T T A A G A T A A A T A T T A C T T T G G T T A T G A T A A T T G G A C T T T T A C A A T C A A A C C A A C C T T G A A T T G T A G G T T T G T A A A G T A A G T G G A A C C C T G A T A A A T A C C A A A T A G G G C G A A A A C A T C A G T T T T T C T G A G A A A A T A A T T A G A A A T A G G T A T G T A T A C A C T G A A T A C T T G G G C T A A A T T C C T A T G A A A A T T G T G T A A C T T G A A A C C A A A G A A G A A C A G G A T T G T G C T A G G G T A A A G T G A A A C T C T T G T G A A T C A C T A G T A C G A G A A A A C A A C G G A C A A A C T A G A T A A C C A G A A A A T T G C A G A A A G C A A T A A A C C T T T C C C C T A A A A T G G T T G G A G A A C A A 500 1000 1500 2000 2500 3000 3500 Expect = 3.40e-13 / Id = 30.59 Expect = 9.20e-11 / Id = 28.49 Sequence AT5G48610.1 AT5G43490.1
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