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.
TCAATTTTATTTTTGTTATTTATTTATTTTTATTTCTGTAAAACATAAAGTAAAATTAAATCAAATAAAATCAATGGCGCTTCTGCTCCAGCAAACTCAACCTCTGTTGAAGATGCCGTAAATTTCACACATTATTATTACTCCTATTTTATTATCACATCACCTAATTGCAAATAAAATAAAATAAAATAAAATAAAATAAAAATTATTAATTAGTTTTCAGCTAAAGATTGTTATACGAAATTTAATTTCTTTTATATAAATTTCCAAAATTAGTTTGCTCATATTCTAGGGTTCTTTTACCCTTCCTCTCTCTCCCATATCTTCGTTTTCTTCGGAGATTTGGGAGTTTTTTTTTCGCAATTTGATCATTGTTTTGATCAAGAGAGATCTGCTGAATTCTGGATTTGAACCGATTCGAATTAAAAAAAGTTCTTCAATTTTGAAATCCGAATTGCGATTTTGCCGGTGCAGTTTGATCTGTTTAAGACGATTTCCTTGGGTGAAGCGGATCAGATTGAAGATCAAATTTGTGGACCCTCGGAATTTTTTATTGCGCTGTTTTTGGGTAGAAATTGAAGAGTTTTGAAGGAGGTTCGATTTTGAATGTGGGTTTGTATAATGCTGATTTAGGGGGGTGATTTTTGTTCTGGAA ATGGCATCTGCTCAAGTTTTACCCAAGCCTGCGGTTTCATCCCGTAAAAAGAAGGATTTGGAAGCTGGTAAACGTTTG GTATGGCCTCGATTTCGGGTTTTAATTGTTTATTTTAAGCTCTTTTTCTTCTAGTTTATTCCTTTTGTTGATGTAAACGTATCATGTATGTATATGCAACTTGGGAAGAGTGATCCGACCTGGGAACTAATTTTAGTATGACCGCTTTGATCAATAGGCTAAGTTGGCGTTGGTAAGTGATGTGTACTTTGAATGATTTAGGTGGATCATGAATAATGCATAGGAAAGTTTTTGACTTGGTGAAGATACTTGATTGGTTTGAAATAGTTGGTGCTTTGATTTGTTTGAGCTCCAAGATGTTGCAGATAATGGTGGATTTTGTTTGTTTCAGAGTGTGCAGACTTTAGGATTTATTTACTCCGAGCTCCTAGTTAGAGTAGCTTCCCCTTCATTGTTCTTAGATGAAATGGTGTTAATTCTGATAATTGTGGTAGCAAACTTGCCGGTAATTGACGAATCATGCCAGGTGCTTAGTTGATTGCATATCTTGTGTCTGTTTGGATTTTGTTTTGTGCCCTTAATAGTTTTTGTTGTAGTGCATAATGAACCATGGATGGCAACTTGTCAAGGTTGGTTGCCTTCGGACTATGCCAGTCTACAACGAAGGAGGGAACCTGTACATTTTTGATGTTGATTTGTAATCTAAAAATCTGAAGCATGTGAGGCTTGAAATATAAAGCTTGCATAGATGATCGACGTCTAATGCCACAAATCTCTTTTTTTTTCTTCTTCTTTTTCTCTGGAGATTTGAGGTAGTTAGGTACTTAGGTGCCTGTTGTAGATTGTTTTCAATTATAACTACAACTCTGTTTTTCAGCTTCTATTAGGTTTCGTAATTAGATTCAAATTGACCTTTAATTCCCAAAATTCCTGAAAAATCAAAATGAGAATTAAATAATAGAATGGGTTTTTCTCTTCTTTTTTGGAATTTGAAGTCATATCTAAATGTGTTTTCTATCATAAAGTATAATTAAGTAAGTTGGTCCTATTGAAAGTCAATGGATTATAGGATGTTAGGGAGGATTAGATTTTTCTTCAGCTTTATTGCTGTTTTGCCTTTAGTTGTCGGTTGAGTCTATATTCTATTACATCTGCCCTACCCCTCATGTGTTGTATGGAGAGGCTGAGATGGATTCAGTATTATACTAGGAAGTGAAGACTTGCAGGTTGTTTTTATTACAACAACAAAACAACTGCTACAAGTATACACCACTGATTGTTAGTAATTTTTAGTTGTTTATGATAATATCAAAATACGCTCCTCATCAATTTATTGTGCGAAGAACCGACAATGGGGTATTCTAGACTTCTGGTCATGCTTTGCTCACAATTGTTTGTTTCTATCAATAGGTTGTAGTGCCCTGTTTCTCTTTTGCTTGGAATTGATCTAATCATAGTATATCTATTCATTGGCGTTGTAGTCAGGGATTGCTCACAGAGTGTATGGCTGGACAATAAGTCTTCGCTAATGGAAAACTGCCTAATCTGCACAGGAAATTAAGTTACAGCAGCTAATTCTTGGGCATTGGGTGGTGGTTGTATTACACTTGTCTAGTTGTCTTTAATTTGTTTCTTAATGGTGGATATGTCTTTCTCTTCTTTGAGTAAAAAGAGAGAATGGGGCAAGAAGAATGAGAGAGCTTTGTCATCCCAGAAATCCATTCCTTCAGTACAACATCTCCCAGTTTATAAGAACAATGGAGGACTTTTAGAGCACATACAATAGTGACCTTGGGTTGTTGGCCTAGTTGTTATGGATTTTATCTCTCCAACCTTCTTTCTCCTCCACATTACATCTTTTTACTTTGTTGAGGCACCATTGTGAAGTGGTGAGCTAGGGTTACAGGGGAGAGAGATTTTGTATCGGGTAAGGGGCACCATAGTCAATGCTAAATGATTGGGTACTGTTATAGTGTTGTGCTGAATTCAAACTATGTTCTTGTTGTTACTTCAAGTATTACATGCTAATCAGTCTCAACATGGCTTAAGGTTGTTCAACTTTATATATGTACTTGCTATTTGCAAAAATCAGAGGACCAATCTATTCCATTTTTTTTAATATACAAATGTGCTGTTTCTCTTAGCTGGAAGAGTTCAAAAAGAAGAGAGGAGCGGCCAAAAAGCAACCATCATCTAGCCAACCTCGTACTGATGATACTACACCATCTGAGAAACAAGCTGCAGGATATGGACAAGCATTGTCTGTCAATGCTCTTACTGATGATAGCTCTGACGCAGTGTCAGGAGCTTCTGTTTTTTCTAACCACACTGGCAAATCACATGTTTTCACTCATTATAATGGGTCTGAATCGGTTTCTCCTGCACACATCGATACCCAAATTGATAAGTTAAGCGGACCTGAGTTGCTTCAGAAATTACCTAATCAAGTGGGAAAGGGCCATGAGGATCCACTTTTAAACTACCAGTCAGGTTCTGACTTTCCACAATTAGCAGATGATATTAATGGTAAGTCTGGGAGTGATACAGGAAGAGGAAGATTTGCAGATGCAATATCGTCTAGTAGACCCAGTGCTTCTCAAGTTTATAGTAGTAGTGAGTCTCACTCAAATTCTTATGGATCTGATAAGTACTTTAGTTCTTCTGTAAGCTTTCCAAATGCAAATGGAGGCACCAATGATTTTGCTGCTAAAGTCTTTACCAAGGGACATGTCACCAATGTTTTAGATCAGGAGTCTG GTAAGTAGAGTTGTTTAAGCAGGTACTTAGTGTGACAGTTGAAAATCTATTATTGTGTCATGTAACATGTTCTGTCATGATTGCAGATTCAGTTCTCTCGCGTATGGATTTGCCAGCATCTTCGTCAGAGTTTGGTCATAGCCATCTGGAGTCGAAGAATCATTTAACATTTGGTTTGGAGGAAAGACAGCCTAGTAATGCAGTGGGGAATTTGACGGGTTTTGGAAGTCAATGGGCATCTGAATCACGTTCAACTGGTTTAAACTCTAACACGGGTGGTTTATTTAATGGTCCCTCACATTCAGTTGTTGCTGAACCATTTCCCAGAAGATCTCGTCCTTCTTTCCTTGATAACATTGTTAAAGATTCTTCTGTTTCTGGCCGCCCTTTTGTTGAGAAAGACAAGTTCACGAATGCAACACTTCCCGGCAGCAATGCTGCTGCATCGTCTGCAATTCATGATTCTTCTACAGCATATTCTCCCATCGAACCCCTTCCGACACCGGCTTATTTTAATCCAAGTGATGATTTCTTTAGCAATGCGTCAAGGGGACACACGTCATTTGAGCACAGCGTGGAGAACAAGTTGGAATTCACTTCACAGAAACAAAACGAAGATTTTGCCGCTTTGGAGCAG GTATCTCTTTTTCTCTAATGCGTACAATTGCCTTGGCACTGTTGCTCGGTCATGGTCCATGTTGCATGCATTTTTACCTTTTGTAACATCTCATGTTTTTTTCTTCTCCTCTCGATGCGAATCGTACTTCTTTTAGTTGGAAAAGATCTTTCCTCAGCTGCTCTATAGCATCCAAGAGCATTCCCTCCCTCAAGATATGTATTACACCTCTACAAAGTTGCATGAAACCATGTGATTATACCAGTTTGTAGAATATTCACCATTTATGTATTTTTCATAAAATCACATTATATCAAAGTATGTACTGTAGCACTTTTTTATTCTATAAACAAACTTATTTGAAATTTCACTTCATTTTTTTGTATCAAACTAGGCAAGTTTAGGGCTTGTTCGGTACCATTTTAAGTTTTGAGTTGTGAGTTTTATCAAAACCACCGATTTAAGTTTTGTTTTACCAAAATAAAAAAACAGATTTAAAAATATTAAAACAGCCTCCATTGGAACCCCACACTAAAGTCTAAAAGAGATGCTTCTCTTAAATTTAGGGAGTACAGTACTTCGTATTAGCCTATTTTACTGCACTCCATCCATTTCTCTCTCCTCTGGCTACTAACCCACCATTGACAAAGAGCTAAATACCAGATTCCATTGTTAATTTTCTATAATCTCATAAATTCTTTATTTAGTAGATCTTTAAGTTCTTTGGAAGGCATAAACCCCCAAATTCACTACTGTAGCAATCTTCTATAGATCATCACCACCAGTCCACCACCATCATCGCTGCCTATAATTGGTTATTTCTCTCTTCTTTTTACATACCTTTGCAAATCAAGTCCTCTAGTGAAATTTTGATTCAGAATTTCTGAGGCCTAATCATCAAGGTAAATTTTTTTTTTTTTGGAATTTCTAACGATTGAGTACCAAGATGAGAGAGAAATTTCATGGAGGAAGGAAGAAAGCGGTTGAGAATTTGAGTAGTATCATATGGGAACAGTGAAAAAGAGAGGAGAGAGCATGACTGAATGAGCCCATAACACTGTTCCTAAAAAACGAAAATCCAGAAACCACTAAAAGTGGTTTTGGATTTTTCTTTAATTTCTGTATAAACTGAATGAAAGTTGATTTAAAAAACGATTTTGGCGAACAGTTTCGTTTTACATTTTAAGAAAAAAAAAAAACGCAAAACCGCATCAGTGCCGAACGTACCCTTAAATAATGATACGCAATTCAAATGTGAAGGTTTCCTGTTAGCAAAGTGTATGTTATATAGTGTCCCCTGATTTCTATCAAAAGGAACGTCCAACTGCTAGAGTTGCAAGTTGGAGACTTTTGTTGGGAGAATCTTATTCTCATGCACTAGTGCATAATGCACCTTTACATAAATATTTGCATCCTTTAGTGTATGTGAATTCGGCTAGCAGAAGAGTTACAATTCTGAAATGCTTTTTGTCCTTGAATAAAGATCTATATTTCCGTTTCCTTATTTCCTTTGCCTTTGCCCACAGCACATTGAAGATTTGACGCAAGACAAGTTCTCTTTGCAACGCACATTGGAGGCCTCTAAAACTTTGACTGAGTCATTAGCTTCTGAGAATTCTTCCTTGACGGAGAGCTATAATCAGCAA GTTAGTGTCTCTTCTGTTGACTACAAAATTTGATACGGTCTATTATTTACTCAATTGGATACACTGTTGGGTAACTTATCTTGATTTTTCCCCACTCCATGTCTCAAGACTCGCCTATTGGTTAATTTGCGTTTATTATGTGATCTCTTTCTGATTCAGAGAAATGGAGTCTATTATTACCAATCGTTGGTAAATGAGAATGTTGTGATCTGTAGGTAACCGCTTATAGCCTTCTAGTGTTGGCAGAGCCACATCTCTTGGTTAAGTGTGGCACTTCTTAATTCTTATGACTTGGAGAGTTTTTTTTTTCTATTTTTTCTATTTATTTTTTTTGCCCAACAGTTTCCTCACCCCACTCTCCAACCGCAAAAATGGGAAAAGATAATCTAGAGTCCAGACAAATTTGAAACCTGTCAAATTTAACCTCTTCAAACTCCTTTCTCATTAGTCTACAGATAAATTGTATTAATTTGCGTTTATAGACACAAATTCCTTAATGTCCTGCCGCTTCTTGTTCAGTGCTCTTTTGATATTTTGAGGTTATTTTTGTTGACATTTTATTTTAAATAGCTTTCTTTTCTTTCATCTCAATTGCCGCCCAACATGATCTTTGGTTATAGTTGACGTTATTATTTTGCCTAATTTCAGGCAAGCATTGTGAGCCAGTTAAAGGCTGATATGGAAAGATTGCAGGATGAAATCAAGGCCCTTCTG GTTAGTGTCATTATCCTTGTTTGTCAGTATTGATACCTTTTTGAGTGTGGTTGGACAATAATAGGGAGTTTGTAGTGATATTAACAATTTTATGAAGTATTGTGTATATTTTCGTCAAGTGACCTTTTGATAAGAAAATATAGTGTAATTTGTATCAGCAATAGGAAAAAAGGAGAATAAACCATTTCTTTGTGCAATCAAAAATTCTAGTGAGAACAATCAAAATATCAAAACGAGAACACACAATAAGCCGTCCTCTGAAGAGTTCCCCAATTTCTTTGTACCTCCTCAACTGAGTAATTCTTGAATGATCCACCAGCCTTAGCCCATAAAGATGCTAAATATGTGACCTTGCCCACAGTAAATTGAAAGGTAATGAAACTCGTGAAAAGACCCTTCTTTGCAAATATACACACCACATAATTGCCATGAAAGCATTGCACAATAACAATCTCTTCTCCTTACCCTTACCAAACCCCTTAAAGAAAATTTGCAGCAAATCCAAGGTTCCTCATGAATCACAAACAATCTCCTCCAAAGGCAACTTGCTGCTTCACGGTATAAGGAAACATGTGAGCATGACTCACTATTAGCGCTGCAAATCAAGCAAATGCCTTATCTTTTGGAGCATGTCATAAGTGTTAATCCTCCCTAACGCGAATGTCCACACAGAAGCCCTTGCCTTAAGAGGTACCTTCACTTTCCAAATGAAATTTGTCACCGCAATAATTGGAAAATTAGGGGGTGGATTCAAGTGAACCAAAAAAAGATTTACAAGAAAAATACCCTGATGAATCCCAGTCCACTGCACACTCTAGCATCCTCCACCCTACTCCCTATCACGCAGTGGCCTTCGAAAATGCTAATCCAATTTATTACCACCATAGAAACCAGACACAGGGGTGTTGTGTGGTGAAGACAGCTGAAATAACCGATGGAAGTCATGGAACTGGAAACAAGAAGGTTGCTCTTCTCTCCAAACATCTTACGGAAATTGAACACGACAACCATTCCCTACTTTGAACTTCACTAAAGGAAAGTAAAGATTGAAAACCTTGGAAATGAACTTCCAAGGACAATCATGTGTTACCTTAAGAACACTTTTAGCAACTCTCCCATTTGTTTGCAAACCATATTTTCCTTTTTTGACTCGATGCCACAACGACTCAGAATCGTCACGAGCAAAACGTCACAACCACTTTCTGACCAAAGCAAATTTTTTTACAACCACTTTCCCTAAGCCTAGACCCCCATCTATTTTGGTGATGTGATGACGTTTTAAATAAGTTTTGGTTAGTGTACCACAATCTTTATATACTACGTAAAAGAAAACTTTATTTACTTAGTTACAATCTGCCCATCACTAAAAACTTACAATCTTTCACTTTTAAGGAAAATATATAGTTTTATAATTTAAACCTCAAGAAAGCAGGAAAGTGATAGGGAGTTCATAATTTGGATACCAACTTTCTCACTCCATAGGCCCTTATAGAATAGAGAGTCTCTAGATATTACAATTCTTATAGGATGGAAAGGAGTGTTATTCTTTATAAATTTCATCCTTATTGAAAACCATATTTATAAATTTTGCATGGAGTTCTTACGAGTTATGATAGAGAGCAGTATAAGTAAACTAAATTACAAAGGAAAAAGAATAAAGTAAAACCATATCTGTAATAAGAAAATATTTCTTTGGTTTATTCTGATGGTCACATTTTCAATCCAGTTTTTGGCTTTTTTTAATTCTGTCATCTTGGTGCAGTAGGCTGAGCTTGAGGCTATCAAGGCTGAATATGTGAATGCACAGCTTGAGTGCAATGCAGCTGATGAGCGTGCAAAGCTCCTGGCTTCTGAAGTTATTAGCTTGGAAGAGAAG GTGGTTTTCTTCTTACATAAGCATTTATCCATGTCTTTTGTATCATAACTTTGAAGTGTAAATTTGGTGTCTCTTCTCTGCTATACTTCTATTATTAGGTCCTGCATTGACTATTGATATTCGATCTGTTTAAATGTATCAAATTTGTGCTTCTAATATGTATGGTTATTGGGTGTATCATATTTATATCTTGTAGGCCCTTAGATTAAGATCTAATGAGCTGAAGTTGGAGAGGGAATTGGAAAACTCAAGTGCTGAAATTGCTTCCTACAA GTATGGATCCCTTTTCCTAAGGAGTTCTAAAAGCCACTGTCTATTGTTGCTATGCTGGTTCTTCTTTTATATGATTCTATGTGATTGGCTTGTTTTTTGTGGTATGCACGCCATGCAGCCTTTATCTGTAATTATGTATGAATGTTTATGGGGCGTGCAACCTATAACATTCTTGGTAATGGTGGTAAGAACATGTGTAACTTCAATTTCCTTAAATACTGTTTCTGATTTTGTTTCCAGTTTTTTTTGTTAATCCATATACTTATGGCCTTACTGTAAAGCAATGTGCCAACTGATTATTGGTTTAGGTACTGTTCTATTCACCTGGATTTCACTTATCTTATATTATCTTATCTTTATCACCCCTTATTGGAAGTTATAAAATGTGTCCTTTGAACTTATTGACTCTTATCTTATCTGAACTTATCTTATATTATCTTATCTGAATTTATTGGCCCTTATTTTGTCTTATCTTATCTTATCTTATTAGACCTGAAGTAAGTGAAAATAAGGTGACGAGAACAAAGCCTTAATTTAGTAATCGATCGCAAAACGTACTCTTGTTATTGGTGTTGGTTTAGCAAGATATCTTTTCTGAATTCTTTAATTAGACCAAACCTTCGCTGTTCTGGATATGGATCATTCTCACACCTGTTGTTGCAGACTTTTTATTGATCAATTCTTGATGTTGGGTAAATCTTTTTTCATTTCCTCACTTAAAATTCAAAGACATTGAAAGATACTATGTACAGAAAATGGCATTTTGAGTTCTTCCACTGATTCTGTAATGTAACAAATACCGGTCATTTATATACAATTAGAAACACCCCTACATCATTACATTAATGTAAAAAAAGGAAGTTCTACAGTAAATGGGCGATAGAACGCTTCTTGATGTTTATGCATTTTTTGTTGGAATATCATTAACTCTTCCATCCCAAAATTATAGTCCTGTTTGACTAAAAACACAGGTTTTAAGAAAAGTGGAATATAGTGTATGGGAAAGTGGGAAAGTGGAATATAGTTTATGGGAAAGTGTAAAGAGTGGAATATAGTGTATGGGAAAGTTGGAAAGTGTATGGAAAAGTGGGAAAGTACAATATAGTGTATGGGGAAAGTGGGAAAAGTAATGTCCAAATATGGAAACAAGACTATAAATTTGGAACGCCCGAAATAGAAATAGGACTATATTTTGGGACGGAGGGATTATCAGTTTATGAATCATTGATGAGCTTGTGTAGTTGAAGGTCAGATAAGATGTATTTCCATTGACTACCTTTTTGTATTGTTCATGCAAGAAATTATTGATAATGTATGCAATAATAGATTATGTTATTTGTCTAATGTTTAATTTATACCTTATGGGGATCTTGTACAGTTGGATTCAAGTGTTTCAACACGAGTACTGGTTTTCCTTAATTTTGTACATAAGTCATGCTTGATTCTATAGATTGAGGACTTGTGTAATTTGTCTATTGAATGAAGATTATAAAGGGTTGTTTTTTTCTGATCTCCCCTCCTTGGCAGTTCCTTTTATGGCTTTTATTATTCTTTATGACCTATATGATGAATTTAGCCCTCCCTTGGCTAAAATTAATTATGCCGTAAAAGAGTTTCTAGTTTTACCTGTGCAAATATCATGTGAGTTGTGATGTGCTTGCTTCTTCCTAGAGAAATTCGTTCCGAAAGTCATGCGCTTGTAATCTTTTTCGTATTGTTATCTTCCTTGTAAATGACTTTTCTTGTTTCGAACACGATGTAAAATCTCTTTGATTATCCTTCCCTAGACTGTAGCATTCAAATTTAAAAGTGTTGTTTTCCATTCTAAAGTTTAATATGGTGGGTCATGCAGAAAGAAAATGTCTAGCCTTGACAAAGAGCGCCGAGATTTGCTGCAGACAATTGATGCTTTACAGGAAG GTATGTAGTTATAAAGTTCTACAGATTTTCTTCAATACGATTTTATGAAGCTATAAATTTTGTTGGTTGCTTACTTTCTTCCTCCATAAATACTGCATTTGTTGCTAATTTTTTTAATTTACCGCTACTTGAACTTGAAGAGTATAGGTCAATTCTTAATCATTTATGTACGCGACATGATTATTAATCTTTTAAAATGTTGGTAAGTTTAATGTTTTCTTCGAAAACGATGAGGTATCGCTTTGATAAAAACGAGAATTTCGAAAACAAATTTGAAATTCAAGTGTCAGTAGCGGGACGTTCTGTCAATCGGGAAGGAGGAATTTCATCTGCCTGGAGCGAGCCAGGTCTGAGGCATAGCCCTACTATGACCGAAGAAGACGATTTACTAATGTTCCCAATGCTGGGCTACCCCCGGAGTTGAAAATGCCCGACTGTTACCAATTAACGAAAAAGATTGATCCAAGGATCGGTCGGGACCGATTTATCAGATTCTGATATTCTTGATCGACGTAATTAGACACTGACACTGCATTTTTTTTCTTTTTTTCTTGTTATGTTGTAAATAATACTGATGACTGATAAGGTTCCGGCGTTTCTGTTAGTTATCGTAATTTTTGACTGCTGTAGCTTGAACTTTACCACTCTTTGCAACTTGAAATTTGATCTATTTGCTTATTAATCGTCATTCGTGACTGCTGTAGCTTGAATTTTACCACTGTTTGTACTTTGAAATTTGATATATTTGCTTGTTAAGTGTTTAGTCTGTGCTCGATCTGACTGTAAACGTTCTTATGCAGAGAAAAAGTTGCTCCAGTCTAAATTAAGGACAGCTTCAGCTGGTGGAATTCCAATTGTTCCTAGCAAGGGACATGTGAAAAAAGATGCTTCAACTTCTACTAACGATTTAG GTATTTGTGATCCCAAGATGCCCAACTCTCTCTGTCACCAATTTTTAAACGCGGGTGTTATTCTAGTATTGAAATGACAACAGTTATAAGTGGAGCTAGATAGATTTCTGTTTATGAATTGTTGTGAAGCCTGATTGTAGAGAGGTCAATGTTCTATGTTTTTTTTGAGGGACGCCCAATGTTCTATGATACTAAGCAGGAGTTGAAGCTTACAGGATACTCAGTAAAAAGCATATGTTTTTTTTTCTCACTTGTCTGAATGGAGGTTCTGTTGTATCCTTCACATCATACAGGCTATGATTTCTTTCACCTTCTCTTTTAAGTATAGTGCATTTGTTTTTAGCGTATTTGAAGCTTACAGGCTACTCAACAAAAAGCATATGTATTCAGTAACATTTTTAATATTTTTTTTCAAGGGTTTGTTAGAAATCTTAACATGCTATTCACACTACATTTCCCACTTTATTTGATGTGCTTCATCCCCTCAGCCCACTTTTTGTCACTGTATTCCCCTAGTATTGCATGTCCAACTACATTTGTTGATAATTTTAGAACTAAATGTGTGCCATTGATGGCTTTTCTACCTCTATTGTAGGTCCAGATGAAACAAGAGATAGCTCTGAACAAGCTGCATCCAACATTCAAATGCTTGAAAATGTCGACAACTTGCTGCTTTTACAGAGTAATTCTGCTGGTCACGAAGATTTTGCTTTGAGTATTCCCCCGGACCAAGTGCAAACGATACAAAATATCAACTCACTAATTACCGAG GTAGTTGATCACTTCTGTTCATGGGTTTTTTTGTGGCAAAAATATTGTCAGTAGCTAAATGTAGAAGTTATGGTCGCAGATAATATCGGAAAAAGAGGAGTTGATGCAAGCTCTGATTACTGAAGTCTCAACAAGTACTAAGCTGAAG GTAATTGATTAGATTGTGAAGTAGATTGTGAAGGGAGTTAGATAACTGTATTGTTTCTGTCTGGCATGTTTATTACTTCTCCGTTTCTTTTTAGTTGTAACTTGTCTTATTTTCACGCGTTGCATGCTTAAATTACTTAGTGTTTTACGGAGTATTTGCATTTTTAGTACTCGTAAAATCGTAATATATAGCATCAATAACAACTGTAAAAAAATGCTAAAAGACCATAATCGCGCAACATGAACAACCCCTTATTTAGTACAATGATAAATCTTAGCTAAATCTTCTAGACAAAAATACATTGTATTACCACAACTCCCACAATTAACTCTTAATTTCTAAACCCACCTCCAAAATTAATAAATAAATAACCAACTACATATGAATGCCAAATTTCCACTTCAGCACATTTACATAAGGTGAAAAATTTGAATCTTCCTACTATATCAATGCAGTAACAAAAGAGTGACTTATTTGACAATTATAATTCAACTTCTTGATCCTGCAACCTAATAGATCACTGTTTATATTTTCGCTAAATTTTATGTTTATAGTTTCAGCTTAATTCGTTTGAGTTTATAATTATTGACGAGTCCCATTTTGTATGTAGTATATAGCTAAATGAAAATTTGCCCTAAACCATTTTATGGGATATTCATCTATATTCTGTATATATTATTTATTTTCGTACTAATAATGGCAATTGACTATGTTATACACTTATACCCCTTAATATTTTGATTGAATTTTTATTTGATGTAAAATGTAATGAATAGGGGTAGTATATGTAATTCATAGTCATTAAGGGTGATATGGATATTTCATAGGGGGCCCACCAAAAAGTCTAAGACCTCTATAGTTACCTTATAGAATGAAGATGCTCTTTGATCATTAACCTTAGTCTATAATTTCTTTTGAAAAAATGAGTAAATACTATTCTTTAACTTTAGCCGATCTTGGAATTTTTCTTATAAGAAAAGGCCCCTTCTATTTTTATTTTTGAATTATATTTGCATATTCAAAATTTTAAATCTTCATATTTAATTCAAAATTTGAACAAATACAGTGTAAAAAAAGAACTCTGAAGATTATCAAAGATTTTCAGTTAAAATTTATTTTCTTCTCAAGCAGCACATATATCTGGAGGGAAAACCTTCACAGTATTCCGCCAAGTGTCCCTTGTGTTTATTACTATAGTAGCGATATCATGATATGCTCAAAGTTTGTGAAGTTAGACTTTTGAAAAAGAAAATTTTGTAACTAAAGCAAATGAAGTAATTAACCAAAAAACCAAAACAAGTTGTAACCTCATAGCATATTTTTTGAAATCAGTTAATGTGAAGGAATTGAACATGCATCCGTTACATGTATTATTGACTTGAACGCGATTACCGTGAGCTAACACTGTTTGTGTTCATAATATGTTTTTGATCTGAAGGAATTGAACAAGGAGCTATCTCAGAAACTTGAAGTTCAGACCCAAAGACTGGAGTTGTTGACAGCCCAAAGCATGGCAAGTGAGGGTATTGTTTCCAAGCAGCCTACTGCTTCTCATATTGTACGGGAAACCGTTGCATATGCAGATGAAGGCGATGAG GTACCTTTTGTTTTTTCTTTGTATGTTTGATAAAGTAAAACGGAAGCTTAATGGGTTTAGGAATCTCGAGTCTCATAGTAATGGTAATTGTCATGGTGAATTCTTTTCTATTGCCACTTTCTTGGTCATCTTTCAAACACAAATAGTGAAATGTAGATGATTGTCTGGTTTGTGAGTAAATGAAATCTTAATTTATGATGGTTGATTACTGACGGCCTTTTTTTGGTGAAACCTGTTTGAAATGTTTACTTAGACTGGATAACTCTCAACTGGTTCATGCGTAAGAAATTGTGATTCCGTGTTAGTCTGTCAAATCCTTGTGCTACTTTGTTGTCTTATGAAGTGTCACCTACTCACCTGTTAGCCTTCTGGATTTCACAGGGCTATCAGTTTTAAGCTCTATGCTTTTAAGAGGCATATATGAAATAATAAATAAAGTTGGGGTTGCTATATCTGGGGTTTACCAAGAAATGAGTATGCTCTGACAAATATGATGCATTAAATTGAGTAAAAAGAATAAAAAGTTAGGGAAGTATCAGAAAATACTTCCAGCGTCTAGGTTTGCCAGATGATTCTCTTCTGCAAAACGGCATGGACTTCGTTTGGTTAGCACTTGTGGTGGGAAGGAAGGGGAGGGTAAAAAAGAGGGAACAAAAGGGGAGGGTGGGTTGAGGGTAAGAGTGAGCTTCCATTTTCCTATCCAAACGTAGTGCAATTTGCAAAAGTCAGATGGTGAAATTTTGTTTTGGGAGGAAAGTAAAATATTGACTATGGAGTTATACAAACTTTTATACTTCATAAGGCAGTCTTACACAAAATACCACCTTGTGTCATATAAGTTAATCAATAAAATCAACAAAAGGTCTTGCGCGCACTAGGTGTACAATAAATTTATTGTACACCAAGATAACTTTTACCCATTTTTTTGTAACTTTAACCTAGTTTTGATTAACTTTTATATTAGTAAAAAACGTTGATAGATAAACATTTTAAAGAGTTAAATGATTAATTTTATACATTATTAATGATTTTGAAGAAATAAGTTTTATTAAAATGAAAAAATTTATCACTAAAGAATGGATAACTTTTACATATATAGCTTAACTTTTAAGCATTTTGAGTTAACTTTTAATGTGGTGTACAATATTTATTGTACAACCCTTGTAAATAAGAATTTGTGTAAAACCAATTAGTTAAGCACTAGAGCTAATTATTTAAGCATTTAAACCAATTAGTTAAACAATGAATCTAATTAGTAAAGCACTAGAACTAATTAGTTAAACAATGGAACCAATAAGTTAAAGCAATCAAAGTGGTCTTTCCGGTAAGGCGGTTTTACAGAAAAGTTACCGATTGAATTATTGATTAACATCACAATTGGTTTGTTCTTCCCTATATGTTGCCGTGGTTTATCACAAATCTAAGTATTATTTATCTTCTAATCTTGATTAATCTATAAGGAGACGTTTAATCTCGTAAAGAGAGTGCAAATAGGCTTGCTGAACATTGATAAAGAGTAATTATCCTGATGTGTAACTTGTTCCATCAGGTGGTTGAGCGAGTGCTGGGATGGATAATGAAGTTATTTCCTGGAGGGCCGTCAAAGCGGAGGACCAGCAGACTCTAA GTTGAGTATAAAGCTTGGATCATTCGTTGTCCGTACTCCTTAGTCGCATTTTCAGGGCTAGAGTAGAGGATAAATACTGTATATCATGTGTTTGACATTTTGTTTATTCTTTTCACTTAAGGAAGAATTTCAAAATGTTCAAAAATGAGCAATTTTCTTAGATACATTAGATTGTTTGGAAATTTTAATTACACATTTATTTGACACAGGAAAATAATTTCATTTCTTTGTACTTAATGTTTCTTAAAATGTGTTTTCTTTTTCTTTGGTGTACAACCGAAGGATTTTTGATATAAGATGTACAAATCGTGTATCTTGTCGTTCTTTTTTATCTTGTCGTGTAATACGGAATATTGTTCTAGTGTATCGCTATTCGACGCGACGTCCTCGTTTGCTAAGAACGCCTGCGTATTTTACTTGGAATGACGGTTGTGCCCTTATAAAACTCTACCATACCTCTTCATTTCTCACCTCAAGCTTTCACTCTCCCCCTTATTTCGGCAGCCTATTTCATTTTCCGGCGATAAAATCCGGCAGCCCATGACTCACCTCACCATCTTCTACCACCACCTTTCATCTTCAAACGCCATCCCATCCCTTCACCATCATCACCGTCCCTTTACCTGCACAACACCACCATCATCATCGTCGTCGGCTCTTTTTTTTTATGGATGGTTGATGCCGCCTAGAATTGGTGGCCTAGGGCC mRNA sequence
TCAATTTTATTTTTGTTATTTATTTATTTTTATTTCTGTAAAACATAAAGTAAAATTAAATCAAATAAAATCAATGGCGCTTCTGCTCCAGCAAACTCAACCTCTGTTGAAGATGCCGTAAATTTCACACATTATTATTACTCCTATTTTATTATCACATCACCTAATTGCAAATAAAATAAAATAAAATAAAATAAAATAAAAATTATTAATTAGTTTTCAGCTAAAGATTGTTATACGAAATTTAATTTCTTTTATATAAATTTCCAAAATTAGTTTGCTCATATTCTAGGGTTCTTTTACCCTTCCTCTCTCTCCCATATCTTCGTTTTCTTCGGAGATTTGGGAGTTTTTTTTTCGCAATTTGATCATTGTTTTGATCAAGAGAGATCTGCTGAATTCTGGATTTGAACCGATTCGAATTAAAAAAAGTTCTTCAATTTTGAAATCCGAATTGCGATTTTGCCGGTGCAGTTTGATCTGTTTAAGACGATTTCCTTGGGTGAAGCGGATCAGATTGAAGATCAAATTTGTGGACCCTCGGAATTTTTTATTGCGCTGTTTTTGGGTAGAAATTGAAGAGTTTTGAAGGAGGTTCGATTTTGAATGTGGGTTTGTATAATGCTGATTTAGGGGGGTGATTTTTGTTCTGGAAATGGCATCTGCTCAAGTTTTACCCAAGCCTGCGGTTTCATCCCGTAAAAAGAAGGATTTGGAAGCTGGTAAACGTTTGCTGGAAGAGTTCAAAAAGAAGAGAGGAGCGGCCAAAAAGCAACCATCATCTAGCCAACCTCGTACTGATGATACTACACCATCTGAGAAACAAGCTGCAGGATATGGACAAGCATTGTCTGTCAATGCTCTTACTGATGATAGCTCTGACGCAGTGTCAGGAGCTTCTGTTTTTTCTAACCACACTGGCAAATCACATGTTTTCACTCATTATAATGGGTCTGAATCGGTTTCTCCTGCACACATCGATACCCAAATTGATAAGTTAAGCGGACCTGAGTTGCTTCAGAAATTACCTAATCAAGTGGGAAAGGGCCATGAGGATCCACTTTTAAACTACCAGTCAGGTTCTGACTTTCCACAATTAGCAGATGATATTAATGGTAAGTCTGGGAGTGATACAGGAAGAGGAAGATTTGCAGATGCAATATCGTCTAGTAGACCCAGTGCTTCTCAAGTTTATAGTAGTAGTGAGTCTCACTCAAATTCTTATGGATCTGATAAGTACTTTAGTTCTTCTGTAAGCTTTCCAAATGCAAATGGAGGCACCAATGATTTTGCTGCTAAAGTCTTTACCAAGGGACATGTCACCAATGTTTTAGATCAGGAGTCTGATTCAGTTCTCTCGCGTATGGATTTGCCAGCATCTTCGTCAGAGTTTGGTCATAGCCATCTGGAGTCGAAGAATCATTTAACATTTGGTTTGGAGGAAAGACAGCCTAGTAATGCAGTGGGGAATTTGACGGGTTTTGGAAGTCAATGGGCATCTGAATCACGTTCAACTGGTTTAAACTCTAACACGGGTGGTTTATTTAATGGTCCCTCACATTCAGTTGTTGCTGAACCATTTCCCAGAAGATCTCGTCCTTCTTTCCTTGATAACATTGTTAAAGATTCTTCTGTTTCTGGCCGCCCTTTTGTTGAGAAAGACAAGTTCACGAATGCAACACTTCCCGGCAGCAATGCTGCTGCATCGTCTGCAATTCATGATTCTTCTACAGCATATTCTCCCATCGAACCCCTTCCGACACCGGCTTATTTTAATCCAAGTGATGATTTCTTTAGCAATGCGTCAAGGGGACACACGTCATTTGAGCACAGCGTGGAGAACAAGTTGGAATTCACTTCACAGAAACAAAACGAAGATTTTGCCGCTTTGGAGCAGCACATTGAAGATTTGACGCAAGACAAGTTCTCTTTGCAACGCACATTGGAGGCCTCTAAAACTTTGACTGAGTCATTAGCTTCTGAGAATTCTTCCTTGACGGAGAGCTATAATCAGCAAGCAAGCATTGTGAGCCAGTTAAAGGCTGATATGGAAAGATTGCAGGATGAAATCAAGGCCCTTCTGGCTGAGCTTGAGGCTATCAAGGCTGAATATGTGAATGCACAGCTTGAGTGCAATGCAGCTGATGAGCGTGCAAAGCTCCTGGCTTCTGAAGTTATTAGCTTGGAAGAGAAGGCCCTTAGATTAAGATCTAATGAGCTGAAGTTGGAGAGGGAATTGGAAAACTCAAGTGCTGAAATTGCTTCCTACAAAAAGAAAATGTCTAGCCTTGACAAAGAGCGCCGAGATTTGCTGCAGACAATTGATGCTTTACAGGAAGAGAAAAAGTTGCTCCAGTCTAAATTAAGGACAGCTTCAGCTGGTGGAATTCCAATTGTTCCTAGCAAGGGACATGTGAAAAAAGATGCTTCAACTTCTACTAACGATTTAGGTCCAGATGAAACAAGAGATAGCTCTGAACAAGCTGCATCCAACATTCAAATGCTTGAAAATGTCGACAACTTGCTGCTTTTACAGAGTAATTCTGCTGGTCACGAAGATTTTGCTTTGAGTATTCCCCCGGACCAAGTGCAAACGATACAAAATATCAACTCACTAATTACCGAGATAATATCGGAAAAAGAGGAGTTGATGCAAGCTCTGATTACTGAAGTCTCAACAAGTACTAAGCTGAAGGAATTGAACAAGGAGCTATCTCAGAAACTTGAAGTTCAGACCCAAAGACTGGAGTTGTTGACAGCCCAAAGCATGGCAAGTGAGGGTATTGTTTCCAAGCAGCCTACTGCTTCTCATATTGTACGGGAAACCGTTGCATATGCAGATGAAGGCGATGAGGTGGTTGAGCGAGTGCTGGGATGGATAATGAAGTTATTTCCTGGAGGGCCGTCAAAGCGGAGGACCAGCAGACTCTAAGTTGAGTATAAAGCTTGGATCATTCGTTGTCCGTACTCCTTAGTCGCATTTTCAGGGCTAGAGTAGAGGATAAATACTGTATATCATGTGTTTGACATTTTGTTTATTCTTTTCACTTAAGGAAGAATTTCAAAATGTTCAAAAATGAGCAATTTTCTTAGATACATTAGATTGTTTGGAAATTTTAATTACACATTTATTTGACACAGGAAAATAATTTCATTTCTTTGTACTTAATGTTTCTTAAAATGTGTTTTCTTTTTCTTTGGTGTACAACCGAAGGATTTTTGATATAAGATGTACAAATCGTGTATCTTGTCGTTCTTTTTTATCTTGTCGTGTAATACGGAATATTGTTCTAGTGTATCGCTATTCGACGCGACGTCCTCGTTTGCTAAGAACGCCTGCGTATTTTACTTGGAATGACGGTTGTGCCCTTATAAAACTCTACCATACCTCTTCATTTCTCACCTCAAGCTTTCACTCTCCCCCTTATTTCGGCAGCCTATTTCATTTTCCGGCGATAAAATCCGGCAGCCCATGACTCACCTCACCATCTTCTACCACCACCTTTCATCTTCAAACGCCATCCCATCCCTTCACCATCATCACCGTCCCTTTACCTGCACAACACCACCATCATCATCGTCGTCGGCTCTTTTTTTTTATGGATGGTTGATGCCGCCTAGAATTGGTGGCCTAGGGCC Coding sequence (CDS)
ATGGCATCTGCTCAAGTTTTACCCAAGCCTGCGGTTTCATCCCGTAAAAAGAAGGATTTGGAAGCTGGTAAACGTTTGCTGGAAGAGTTCAAAAAGAAGAGAGGAGCGGCCAAAAAGCAACCATCATCTAGCCAACCTCGTACTGATGATACTACACCATCTGAGAAACAAGCTGCAGGATATGGACAAGCATTGTCTGTCAATGCTCTTACTGATGATAGCTCTGACGCAGTGTCAGGAGCTTCTGTTTTTTCTAACCACACTGGCAAATCACATGTTTTCACTCATTATAATGGGTCTGAATCGGTTTCTCCTGCACACATCGATACCCAAATTGATAAGTTAAGCGGACCTGAGTTGCTTCAGAAATTACCTAATCAAGTGGGAAAGGGCCATGAGGATCCACTTTTAAACTACCAGTCAGGTTCTGACTTTCCACAATTAGCAGATGATATTAATGGTAAGTCTGGGAGTGATACAGGAAGAGGAAGATTTGCAGATGCAATATCGTCTAGTAGACCCAGTGCTTCTCAAGTTTATAGTAGTAGTGAGTCTCACTCAAATTCTTATGGATCTGATAAGTACTTTAGTTCTTCTGTAAGCTTTCCAAATGCAAATGGAGGCACCAATGATTTTGCTGCTAAAGTCTTTACCAAGGGACATGTCACCAATGTTTTAGATCAGGAGTCTGATTCAGTTCTCTCGCGTATGGATTTGCCAGCATCTTCGTCAGAGTTTGGTCATAGCCATCTGGAGTCGAAGAATCATTTAACATTTGGTTTGGAGGAAAGACAGCCTAGTAATGCAGTGGGGAATTTGACGGGTTTTGGAAGTCAATGGGCATCTGAATCACGTTCAACTGGTTTAAACTCTAACACGGGTGGTTTATTTAATGGTCCCTCACATTCAGTTGTTGCTGAACCATTTCCCAGAAGATCTCGTCCTTCTTTCCTTGATAACATTGTTAAAGATTCTTCTGTTTCTGGCCGCCCTTTTGTTGAGAAAGACAAGTTCACGAATGCAACACTTCCCGGCAGCAATGCTGCTGCATCGTCTGCAATTCATGATTCTTCTACAGCATATTCTCCCATCGAACCCCTTCCGACACCGGCTTATTTTAATCCAAGTGATGATTTCTTTAGCAATGCGTCAAGGGGACACACGTCATTTGAGCACAGCGTGGAGAACAAGTTGGAATTCACTTCACAGAAACAAAACGAAGATTTTGCCGCTTTGGAGCAGCACATTGAAGATTTGACGCAAGACAAGTTCTCTTTGCAACGCACATTGGAGGCCTCTAAAACTTTGACTGAGTCATTAGCTTCTGAGAATTCTTCCTTGACGGAGAGCTATAATCAGCAAGCAAGCATTGTGAGCCAGTTAAAGGCTGATATGGAAAGATTGCAGGATGAAATCAAGGCCCTTCTGGCTGAGCTTGAGGCTATCAAGGCTGAATATGTGAATGCACAGCTTGAGTGCAATGCAGCTGATGAGCGTGCAAAGCTCCTGGCTTCTGAAGTTATTAGCTTGGAAGAGAAGGCCCTTAGATTAAGATCTAATGAGCTGAAGTTGGAGAGGGAATTGGAAAACTCAAGTGCTGAAATTGCTTCCTACAAAAAGAAAATGTCTAGCCTTGACAAAGAGCGCCGAGATTTGCTGCAGACAATTGATGCTTTACAGGAAGAGAAAAAGTTGCTCCAGTCTAAATTAAGGACAGCTTCAGCTGGTGGAATTCCAATTGTTCCTAGCAAGGGACATGTGAAAAAAGATGCTTCAACTTCTACTAACGATTTAGGTCCAGATGAAACAAGAGATAGCTCTGAACAAGCTGCATCCAACATTCAAATGCTTGAAAATGTCGACAACTTGCTGCTTTTACAGAGTAATTCTGCTGGTCACGAAGATTTTGCTTTGAGTATTCCCCCGGACCAAGTGCAAACGATACAAAATATCAACTCACTAATTACCGAGATAATATCGGAAAAAGAGGAGTTGATGCAAGCTCTGATTACTGAAGTCTCAACAAGTACTAAGCTGAAGGAATTGAACAAGGAGCTATCTCAGAAACTTGAAGTTCAGACCCAAAGACTGGAGTTGTTGACAGCCCAAAGCATGGCAAGTGAGGGTATTGTTTCCAAGCAGCCTACTGCTTCTCATATTGTACGGGAAACCGTTGCATATGCAGATGAAGGCGATGAGGTGGTTGAGCGAGTGCTGGGATGGATAATGAAGTTATTTCCTGGAGGGCCGTCAAAGCGGAGGACCAGCAGACTCTAA Protein sequence
MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAGYGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPELLQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVYSSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLPASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGPSHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTAYSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLTQDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELEAIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKKKMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGPDETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHIVRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL
Relationships
This mRNA is a part of the following gene feature(s):
Feature Name Unique Name Type
Spo25219 Spo25219 gene
The following polypeptide feature(s) derives from this mRNA:
Feature Name Unique Name Type
Spo25219.1 Spo25219.1-protein polypeptide
The following exon feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo25219.1.exon.1 Spo25219.1.exon.1 exon
Spo25219.1.exon.2 Spo25219.1.exon.2 exon
Spo25219.1.exon.3 Spo25219.1.exon.3 exon
Spo25219.1.exon.4 Spo25219.1.exon.4 exon
Spo25219.1.exon.5 Spo25219.1.exon.5 exon
Spo25219.1.exon.6 Spo25219.1.exon.6 exon
Spo25219.1.exon.7 Spo25219.1.exon.7 exon
Spo25219.1.exon.8 Spo25219.1.exon.8 exon
Spo25219.1.exon.9 Spo25219.1.exon.9 exon
Spo25219.1.exon.10 Spo25219.1.exon.10 exon
Spo25219.1.exon.11 Spo25219.1.exon.11 exon
Spo25219.1.exon.12 Spo25219.1.exon.12 exon
Spo25219.1.exon.13 Spo25219.1.exon.13 exon
The following five_prime_UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo25219.1.utr5p.1 Spo25219.1.utr5p.1 five_prime_UTR
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo25219.1.CDS.1 Spo25219.1.CDS.1 CDS
Spo25219.1.CDS.2 Spo25219.1.CDS.2 CDS
Spo25219.1.CDS.3 Spo25219.1.CDS.3 CDS
Spo25219.1.CDS.4 Spo25219.1.CDS.4 CDS
Spo25219.1.CDS.5 Spo25219.1.CDS.5 CDS
Spo25219.1.CDS.6 Spo25219.1.CDS.6 CDS
Spo25219.1.CDS.7 Spo25219.1.CDS.7 CDS
Spo25219.1.CDS.8 Spo25219.1.CDS.8 CDS
Spo25219.1.CDS.9 Spo25219.1.CDS.9 CDS
Spo25219.1.CDS.10 Spo25219.1.CDS.10 CDS
Spo25219.1.CDS.11 Spo25219.1.CDS.11 CDS
Spo25219.1.CDS.12 Spo25219.1.CDS.12 CDS
Spo25219.1.CDS.13 Spo25219.1.CDS.13 CDS
The following three_prime_UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Type
Spo25219.1.utr3p.1 Spo25219.1.utr3p.1 three_prime_UTR
Homology
BLAST of Spo25219.1 vs. NCBI nr
Match:
gi|902146620|gb|KNA05083.1| (hypothetical protein SOVF_193660 [Spinacia oleracea])
HSP 1 Score: 1400.6 bits (3624), Expect = 0.000e+0
Identity = 758/758 (100.00%), Postives = 758/758 (100.00%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG 60 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG Sbjct: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG 60 Query: 61 YGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPEL 120 YGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPEL Sbjct: 61 YGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPEL 120 Query: 121 LQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVY 180 LQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVY Sbjct: 121 LQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVY 180 Query: 181 SSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLP 240 SSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLP Sbjct: 181 SSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLP 240 Query: 241 ASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGP 300 ASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGP Sbjct: 241 ASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGP 300 Query: 301 SHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTA 360 SHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTA Sbjct: 301 SHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTA 360 Query: 361 YSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLT 420 YSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLT Sbjct: 361 YSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLT 420 Query: 421 QDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELE 480 QDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELE Sbjct: 421 QDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELE 480 Query: 481 AIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKK 540 AIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKK Sbjct: 481 AIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKK 540 Query: 541 KMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGP 600 KMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGP Sbjct: 541 KMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGP 600 Query: 601 DETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIIS 660 DETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIIS Sbjct: 601 DETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIIS 660 Query: 661 EKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHI 720 EKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHI Sbjct: 661 EKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHI 720 Query: 721 VRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 759 VRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL Sbjct: 721 VRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 758
BLAST of Spo25219.1 vs. NCBI nr
Match:
gi|731366923|ref|XP_010695332.1| (PREDICTED: uncharacterized protein LOC104907992 [Beta vulgaris subsp. vulgaris])
HSP 1 Score: 911.4 bits (2354), Expect = 1.100e-261
Identity = 535/762 (70.21%), Postives = 606/762 (79.53%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG 60 MASAQVL PAVSSRKK DLEAG+R LEEF+KK+ A KK S+SQP DD TP+EKQ + Sbjct: 1 MASAQVLSNPAVSSRKK-DLEAGRRKLEEFRKKKAATKKAVSTSQPSIDDATPNEKQISE 60 Query: 61 YGQALSVNA---LTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSG 120 GQA S+NA L D +S+ GAS + KS TH +GSESV AHI TQ D S Sbjct: 61 NGQASSLNATSALGDGNSNTALGASGYD----KSRASTHPDGSESVPHAHIVTQSDNDSS 120 Query: 121 PELLQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSAS 180 +LLQKLPNQ+ E P + YQ+GSDF + GK +D G+GR A+ +S SRPS S Sbjct: 121 HDLLQKLPNQMENSPEIPGVKYQTGSDFESQTGENVGKFVTDMGKGRDAEVMSYSRPSGS 180 Query: 181 QVYSSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRM 240 Q Y +S+SH+N YG + FSS+VSF N TND A KV T GHVTNV Q+S+S S M Sbjct: 181 QDYVNSDSHTNLYGFVRDFSSAVSFQQTNESTNDVATKVSTDGHVTNVSRQDSESTHSSM 240 Query: 241 DLPASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLF 300 +LPAS+SE HSH + KN+L GLEER+PS VGN G+GSQ ASES TG NS GG Sbjct: 241 NLPASASELDHSHAKLKNNLFSGLEERKPSQVVGNFVGYGSQQASESHLTGFNSYVGGSL 300 Query: 301 NGPSHSVVAEPFPRRSRPSFLDNI-VKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHD 360 NGPS+S V E +PRR+ PSFLD++ +KDSS SGR FVEKDK +N+ L SN A SSAIH Sbjct: 301 NGPSYSAVVESYPRRTYPSFLDSLNIKDSSASGRTFVEKDKLSNSKLSSSNIATSSAIHA 360 Query: 361 SSTAYSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHI 420 TA SP EPLPTPA+ NPSD+ F AS G SFE S+ENKLEFTSQKQNEDFAALEQHI Sbjct: 361 PFTASSPAEPLPTPAFSNPSDEHFGYASMGLNSFEQSLENKLEFTSQKQNEDFAALEQHI 420 Query: 421 EDLTQDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALL 480 EDLTQ+KFSLQR+LE SKTL ESLA+ENSSLTESYNQQA IVSQLKA+MERLQ EIKA L Sbjct: 421 EDLTQEKFSLQRSLEVSKTLAESLATENSSLTESYNQQAGIVSQLKAEMERLQKEIKARL 480 Query: 481 AELEAIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIA 540 ELEAIKAEY+NAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELE S+AE+A Sbjct: 481 VELEAIKAEYMNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELEYSNAELA 540 Query: 541 SYKKKMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTN 600 SYKKKMSSLDKER+DLLQTIDALQEEKKLLQSK+R ASA GI + +KG KDASTSTN Sbjct: 541 SYKKKMSSLDKERQDLLQTIDALQEEKKLLQSKIRGASASGISVDLNKGRGNKDASTSTN 600 Query: 601 DLGPDETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLIT 660 DLGP+ T D+SEQA+SN+QML+++DN LL+Q++ HEDFA+SIPPDQ Q I+NINSLI Sbjct: 601 DLGPEATGDNSEQASSNMQMLDDIDNSLLVQNSFNSHEDFAMSIPPDQAQMIENINSLIA 660 Query: 661 EIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPT 720 EI SEKEELMQALI+EVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMA+E I KQPT Sbjct: 661 EITSEKEELMQALISEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMANENIAVKQPT 720 Query: 721 ASHIVRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 759 A +VRE+VAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL Sbjct: 721 AL-VVRESVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 756
BLAST of Spo25219.1 vs. NCBI nr
Match:
gi|225433351|ref|XP_002282738.1| (PREDICTED: uncharacterized protein LOC100251145 [Vitis vinifera])
HSP 1 Score: 451.4 bits (1160), Expect = 3.000e-123
Identity = 376/825 (45.58%), Postives = 480/825 (58.18%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGA--AKKQPSSSQPRTDDTT----PS 60 MASAQVL RK++ LEAGKR LEEF+KK+ A AKK S SQ ++ D + P Sbjct: 1 MASAQVL-------RKQEHLEAGKRRLEEFRKKKAADRAKKVASISQLQSADVSLCVQPL 60 Query: 61 EKQAAGYGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYN--GSESVSPAHIDTQI 120 E + + ++D +AV+ V +N K +F + S+ + T+ Sbjct: 61 ENEQVRVMDSDGAG-ISDGVGEAVT--KVINNDNKKIEIFQNSEPCSSDIYAKPPFSTKD 120 Query: 121 DKLSGPELLQKLPNQVGKGHEDPLLNYQSGSDF----PQLADDINGKSGSDTGRGRFADA 180 K + +Q N G N S F QLA + N G G A Sbjct: 121 YKAFSADSVQTQVNDQG-------FNRYDASGFLGLVGQLAKEKNDDGGIHAGAEGSAYE 180 Query: 181 ISSSR----PSASQVYSSSESHSNSY-----------GSDKYFS----SSVSFPNANGGT 240 I S + P A + SS S SN + S K F+ P AN + Sbjct: 181 IVSDQSIAFPQAIRDTDSSSSQSNFHRMEETQQKDHKSSLKSFTVIDPGISQVPLANASS 240 Query: 241 NDFAAKVFTKGHVTNVLDQESDSVLSRMDLPASSSEFGHSH-----LESKNHLTFGLEER 300 + + + + +DSV A S FG ++ H+ E++ Sbjct: 241 ENSGNAILPNNYGYANMKSSADSV--HPITTAKQSAFGVGQDVPGSVDFNVHMLSNKEDK 300 Query: 301 QPSNAVGNL--TGFGSQWASESRSTGLNSNTGGLFNG-PSHSVVAEPFPRRSRPSFLD-- 360 + S++ G L T S ASES ST + G N P +SV E RRSRPSFLD Sbjct: 301 KLSSSFGYLPSTHGASPLASESSSTSFAFDVRGSSNHLPLYSVTPETNARRSRPSFLDSI 360 Query: 361 NIVKDSSVSGRPFVEKDK----FTNATLPGSNAAASSAIHDSSTAYSP-IEPLPT----- 420 N+ + S S P E K F++++ S S+ S A S EP Sbjct: 361 NVPRVPSASHLPLTEPGKAEPFFSSSSKVNSMDVLGSSASTKSLAESENFEPFSKAGNSN 420 Query: 421 -PAYFNPSDDFFSNASRG-------HTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLTQ 480 P+ F+ S + S+ S G H ++S+E K EF SQKQNEDFAALEQHIEDLTQ Sbjct: 421 GPSLFDHSIN--SSVSVGNRVEMLRHGLDQNSLERKFEFHSQKQNEDFAALEQHIEDLTQ 480 Query: 481 DKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELEA 540 +KFSLQR LEAS+ L ESLA+ENSSLT+SYNQQ S+V+QLK+DME+LQ+EIKA L +LE+ Sbjct: 481 EKFSLQRALEASRALAESLAAENSSLTDSYNQQGSVVNQLKSDMEKLQEEIKAQLVDLES 540 Query: 541 IKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKKK 600 K EY NAQLECNAADERAKLLASEVI LEEKALRLRS+ELKLER+LENS+AEI+S+KKK Sbjct: 541 FKIEYANAQLECNAADERAKLLASEVIGLEEKALRLRSSELKLERQLENSNAEISSFKKK 600 Query: 601 MSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHV-KKDASTSTNDLGP 660 +SSL+KER+DL TIDALQEEKKLLQ K+R ASA G I SK +KD STST+DL Sbjct: 601 VSSLEKERQDLQLTIDALQEEKKLLQKKVRKASANGKSIDASKSPTDRKDVSTSTDDLVN 660 Query: 661 D-------ETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINS 720 + ET ++++Q E LL E +++IP DQ++ IQNIN+ Sbjct: 661 EDNACMIPETSSLEMLNSASVQANELSSFPLLPDGGQMNFEVSSVNIPADQMRMIQNINA 720 Query: 721 LITEIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSK 759 LI+E+ EKEELMQAL+TE S S+KLK+LNKELS+KLEVQTQRLELLT+QSMA+E I ++ Sbjct: 721 LISELALEKEELMQALVTESSQSSKLKDLNKELSRKLEVQTQRLELLTSQSMANEVIQAR 780
BLAST of Spo25219.1 vs. NCBI nr
Match:
gi|764569135|ref|XP_011462404.1| (PREDICTED: uncharacterized protein LOC101305650 [Fragaria vesca subsp. vesca])
HSP 1 Score: 449.5 bits (1155), Expect = 1.200e-122
Identity = 349/799 (43.68%), Postives = 466/799 (58.32%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGA--AKKQPSSSQPRTDDTTPSEKQA 60 MASAQVL S++K++ LEAGKR LEEF+KK+ A AKK SSSQ + + +EKQ Sbjct: 1 MASAQVLSN---STKKQEHLEAGKRRLEEFRKKKTAERAKKASSSSQVNGSEVSSNEKQP 60 Query: 61 AGYGQA-LSVNALTDDSSDA--VSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKL 120 + +S A T D +SV S++ + F+ S + AH ++ Sbjct: 61 VETVRVTVSDGAGTSDGPGGGYTEASSVISSNGDIAIDFSQKKEHASSNNAHSSPSVNDY 120 Query: 121 SGPELLQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGS--DTGRGRFADAISSSR 180 +G Q+ G P + D ++++D+ +G+ + G ++ + R Sbjct: 121 NGFSANQEYKRYGVSGFSRPS-DVGDNYDIKEMSNDVEKDTGTLGISPYGPTSNHPIALR 180 Query: 181 PSASQVYSSSESHSNSYG--SDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESD 240 P ASQ + S+ + YG S++ SSS S G + AK+ + V+ L E+ Sbjct: 181 PQASQEFESNTRQFSFYGNQSEQKLSSSDSVGAGLGTSQQSVAKISPQNSVSTFLQSEAS 240 Query: 241 SVLSRMDLPASSSEFGHSHLESKNH----------------------LTFGLEERQPSNA 300 + + P SSS +E +TF E + S++ Sbjct: 241 NFSTMAGGPPSSSSLNQDSIEPSTSARGYAQEVGKSIRGGTADFSDPVTFRFGEGRLSSS 300 Query: 301 VGNLTGFGSQWASESRSTGLNSNTGGLFNGPS-HSVVAEPFPRRSRPSFLDNIVKDSSVS 360 ++ S STG + N SV + RRSRPSFLD + + S Sbjct: 301 ASGMSSLQSAQVQTYESTGYGYDARSSSNYVQPESVTPDSSSRRSRPSFLDTLNVSRASS 360 Query: 361 GRPFV----EKDKFTNATLP-GSNAAASSAIHDSSTAYSPIEPLPTPAYFNPSDDFFS-N 420 G PF E+ F+N++ G + S H S P P + + N S F S Sbjct: 361 GSPFQQAQPEESYFSNSSKSNGMSFLGSLPFHKPSMDDGPAAP-HSFEHSNKSSLFSSAG 420 Query: 421 ASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLTQDKFSLQRTLEASKTLTESLAS 480 + E +++ K EF S KQN+DFAALEQHIEDLTQ+KFSLQR LEAS++L ESLAS Sbjct: 421 VDQQRPIVESNLDRKHEFYSSKQNDDFAALEQHIEDLTQEKFSLQRALEASRSLAESLAS 480 Query: 481 ENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELEAIKAEYVNAQLECNAADERAKL 540 ENSSLTE+YNQQ S+V QLK+D+E LQ+EIKA + ELEA++ EY NAQLECNAADER+KL Sbjct: 481 ENSSLTETYNQQRSVVDQLKSDLETLQEEIKAHMVELEAVRNEYANAQLECNAADERSKL 540 Query: 541 LASEVISLEEKALRLRSNELKLERELENSSAEIASYKKKMSSLDKERRDLLQTIDALQEE 600 LASEVI LEEKALRLRS+ELKLER+LENS AEI+SYKK++SSL+K+R DL TI ALQEE Sbjct: 541 LASEVIGLEEKALRLRSSELKLERQLENSQAEISSYKKRLSSLEKDRSDLQSTISALQEE 600 Query: 601 KKLLQSKLRTASAGGIPIVPSKGHV-KKDASTSTNDLGPDETRDSSEQAASNI--QMLEN 660 KKLLQS LR AS SK KKD TST DL D +++E + + M + Sbjct: 601 KKLLQSMLRKASTDEKKADVSKSTTKKKDVFTSTEDL--DSLVEANEVSPETVDQDMRDT 660 Query: 661 VDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIISEKEELMQALITEVSTSTKL 720 +L ++ + E +++IPPDQ++TI NIN+L++E+ EKEEL+Q+L +E S +KL Sbjct: 661 SSFSMLPENGQSSFEVSSVNIPPDQMRTIDNINTLVSELALEKEELIQSLASETSQCSKL 720 Query: 721 KELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHIVRETVAYADEGDEVVERVL 759 KELN ELS+KLE QTQRLELLTAQSMA+E +QP SH V ++ YADEGDEVVERVL Sbjct: 721 KELNNELSRKLEAQTQRLELLTAQSMANESTPIRQP-LSHDVPDSTPYADEGDEVVERVL 780
BLAST of Spo25219.1 vs. NCBI nr
Match:
gi|720085784|ref|XP_010243629.1| (PREDICTED: uncharacterized protein LOC104587635 [Nelumbo nucifera])
HSP 1 Score: 442.2 bits (1136), Expect = 1.800e-120
Identity = 365/828 (44.08%), Postives = 468/828 (56.52%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQA-- 60 MASAQVL A SSRKK LEAGKR LEEF+K R A+K S+ Q ++D + +EKQ Sbjct: 1 MASAQVLSNSAASSRKKDHLEAGKRKLEEFRKNR--ARKAASTGQLHSNDGSQNEKQPKE 60 Query: 61 AGYGQALSVNALTDDSSDAVSGASVFS---NHTGKSH------VFTHYNGSESVSPAHID 120 + Y + + + + V+ F N K V NG+ P + Sbjct: 61 SDYMRLVDTDGAGTSEKEIVASVGSFGPVENSNSKESSSFGTAVLDLSNGAYVKPPGLAN 120 Query: 121 TQIDKLSGPELLQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTG-------- 180 S P LQK N G H L GS +D +G G+ T Sbjct: 121 NYGATFSDP--LQKPANDQGFEHSSGL-----GSAGRHFKEDKSGNHGAYTSNQGPTFGD 180 Query: 181 -RGRFA---------DAISSSRPSASQVYSSSESHSNSYGSDKYFSSSVSFPNANGGTN- 240 R ++ D S+R + ++ N S Y S P + + Sbjct: 181 VREQYTTVHQVHGIQDIDRSARQFNYHSFDEAQLKENETSSKGYAIRDPSIPLVDKSVSI 240 Query: 241 ------DFAAKVFTKGHVTNVLDQESDSVLSRMDLPASSSEFG---HSHLESKNHLTFGL 300 FA+ + T G+ N+ + DS+ +L SE G H +S ++ + Sbjct: 241 PVKSEMSFASSL-TSGNTPNLYE---DSIHMSTNLKEPVSEGGLYKHGSEDSNGSVSVDM 300 Query: 301 EERQPSNAVG-NLTGFGSQWA-SESRSTGLNSNTGGLFNGPSH----SVVAEPFPRRSRP 360 + S+ + + T + W +ES STG GL N H S E RRSRP Sbjct: 301 SGSKLSSFISRHSTAESAPWLKAESLSTGFGL---GLKNSSDHLPLYSNTYETSTRRSRP 360 Query: 361 SFLD--NIVKDSSVSGRPFV--EKDKF---TNATLPGSNAAASSAIHDSSTA-----YSP 420 SFLD N+ + SSVS PF E DK ++ +P ++ ASSA A +S Sbjct: 361 SFLDSINVPRASSVSHLPFTDSENDKSFMSKSSKIPSADILASSAQQPFPEAETLGPFSS 420 Query: 421 IEPLPTPAYFNPSDDFFSNASRGHTSF----EHSVENKLEFTSQKQNEDFAALEQHIEDL 480 + P+ PS + S ++ E+S+E K EF+S KQ+EDFAALEQHIEDL Sbjct: 421 LRLPDLPSSNAPSMNSISVSNESEVLRQNYKENSIERKHEFSSSKQDEDFAALEQHIEDL 480 Query: 481 TQDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAEL 540 TQ+KFSLQR LEAS+ L ESLA ENSSLT+S+NQQ ++V+QLK+DMERLQ+EIK L EL Sbjct: 481 TQEKFSLQRALEASRALAESLAVENSSLTDSFNQQGTVVNQLKSDMERLQEEIKTQLLEL 540 Query: 541 EAIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYK 600 E+IK +Y NAQLECNAADERAK+LASEVI LEEKALRLRSNELKLER+LENS+AEI SYK Sbjct: 541 ESIKMDYANAQLECNAADERAKILASEVIGLEEKALRLRSNELKLERQLENSNAEITSYK 600 Query: 601 KKMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSK-GHVKKDASTSTNDL 660 KK+SSL+KER+DL +D LQEEKKLLQSKLR +A G I SK VKKD STST DL Sbjct: 601 KKVSSLEKERQDLQSMVDVLQEEKKLLQSKLRKTTASGKSIAVSKIPSVKKDVSTSTEDL 660 Query: 661 GPDETRDSSEQAASNIQMLENV---DNLLLLQSNSAGHEDF-----ALSIPPDQVQTIQN 720 E D+ ++ +E++ + + + G+ LSIPPDQ++ I+N Sbjct: 661 VLGENGDTETTPSTFNNEMEDIAFSPSRMFASPSLPGNSQILPPVSPLSIPPDQMRMIEN 720 Query: 721 INSLITEIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGI 759 INSL++E+ EK+ELMQAL E S ++LK LNKELSQKLEVQTQRLELLTAQ+MA+E I Sbjct: 721 INSLLSELALEKDELMQALAAESSHCSQLKGLNKELSQKLEVQTQRLELLTAQNMANENI 780
BLAST of Spo25219.1 vs. UniProtKB/TrEMBL
Match:
A0A0K9QEG6_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_193660 PE=4 SV=1)
HSP 1 Score: 1400.6 bits (3624), Expect = 0.000e+0
Identity = 758/758 (100.00%), Postives = 758/758 (100.00%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG 60 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG Sbjct: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG 60 Query: 61 YGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPEL 120 YGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPEL Sbjct: 61 YGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSGPEL 120 Query: 121 LQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVY 180 LQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVY Sbjct: 121 LQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSASQVY 180 Query: 181 SSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLP 240 SSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLP Sbjct: 181 SSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRMDLP 240 Query: 241 ASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGP 300 ASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGP Sbjct: 241 ASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLFNGP 300 Query: 301 SHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTA 360 SHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTA Sbjct: 301 SHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHDSSTA 360 Query: 361 YSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLT 420 YSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLT Sbjct: 361 YSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLT 420 Query: 421 QDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELE 480 QDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELE Sbjct: 421 QDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELE 480 Query: 481 AIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKK 540 AIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKK Sbjct: 481 AIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKK 540 Query: 541 KMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGP 600 KMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGP Sbjct: 541 KMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTNDLGP 600 Query: 601 DETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIIS 660 DETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIIS Sbjct: 601 DETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLITEIIS 660 Query: 661 EKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHI 720 EKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHI Sbjct: 661 EKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHI 720 Query: 721 VRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 759 VRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL Sbjct: 721 VRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 758
BLAST of Spo25219.1 vs. UniProtKB/TrEMBL
Match:
A0A0J8E3Q9_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_5g124300 PE=4 SV=1)
HSP 1 Score: 911.4 bits (2354), Expect = 7.400e-262
Identity = 535/762 (70.21%), Postives = 606/762 (79.53%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGAAKKQPSSSQPRTDDTTPSEKQAAG 60 MASAQVL PAVSSRKK DLEAG+R LEEF+KK+ A KK S+SQP DD TP+EKQ + Sbjct: 1 MASAQVLSNPAVSSRKK-DLEAGRRKLEEFRKKKAATKKAVSTSQPSIDDATPNEKQISE 60 Query: 61 YGQALSVNA---LTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAHIDTQIDKLSG 120 GQA S+NA L D +S+ GAS + KS TH +GSESV AHI TQ D S Sbjct: 61 NGQASSLNATSALGDGNSNTALGASGYD----KSRASTHPDGSESVPHAHIVTQSDNDSS 120 Query: 121 PELLQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSSRPSAS 180 +LLQKLPNQ+ E P + YQ+GSDF + GK +D G+GR A+ +S SRPS S Sbjct: 121 HDLLQKLPNQMENSPEIPGVKYQTGSDFESQTGENVGKFVTDMGKGRDAEVMSYSRPSGS 180 Query: 181 QVYSSSESHSNSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQESDSVLSRM 240 Q Y +S+SH+N YG + FSS+VSF N TND A KV T GHVTNV Q+S+S S M Sbjct: 181 QDYVNSDSHTNLYGFVRDFSSAVSFQQTNESTNDVATKVSTDGHVTNVSRQDSESTHSSM 240 Query: 241 DLPASSSEFGHSHLESKNHLTFGLEERQPSNAVGNLTGFGSQWASESRSTGLNSNTGGLF 300 +LPAS+SE HSH + KN+L GLEER+PS VGN G+GSQ ASES TG NS GG Sbjct: 241 NLPASASELDHSHAKLKNNLFSGLEERKPSQVVGNFVGYGSQQASESHLTGFNSYVGGSL 300 Query: 301 NGPSHSVVAEPFPRRSRPSFLDNI-VKDSSVSGRPFVEKDKFTNATLPGSNAAASSAIHD 360 NGPS+S V E +PRR+ PSFLD++ +KDSS SGR FVEKDK +N+ L SN A SSAIH Sbjct: 301 NGPSYSAVVESYPRRTYPSFLDSLNIKDSSASGRTFVEKDKLSNSKLSSSNIATSSAIHA 360 Query: 361 SSTAYSPIEPLPTPAYFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFAALEQHI 420 TA SP EPLPTPA+ NPSD+ F AS G SFE S+ENKLEFTSQKQNEDFAALEQHI Sbjct: 361 PFTASSPAEPLPTPAFSNPSDEHFGYASMGLNSFEQSLENKLEFTSQKQNEDFAALEQHI 420 Query: 421 EDLTQDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALL 480 EDLTQ+KFSLQR+LE SKTL ESLA+ENSSLTESYNQQA IVSQLKA+MERLQ EIKA L Sbjct: 421 EDLTQEKFSLQRSLEVSKTLAESLATENSSLTESYNQQAGIVSQLKAEMERLQKEIKARL 480 Query: 481 AELEAIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIA 540 ELEAIKAEY+NAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELE S+AE+A Sbjct: 481 VELEAIKAEYMNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELEYSNAELA 540 Query: 541 SYKKKMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHVKKDASTSTN 600 SYKKKMSSLDKER+DLLQTIDALQEEKKLLQSK+R ASA GI + +KG KDASTSTN Sbjct: 541 SYKKKMSSLDKERQDLLQTIDALQEEKKLLQSKIRGASASGISVDLNKGRGNKDASTSTN 600 Query: 601 DLGPDETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINSLIT 660 DLGP+ T D+SEQA+SN+QML+++DN LL+Q++ HEDFA+SIPPDQ Q I+NINSLI Sbjct: 601 DLGPEATGDNSEQASSNMQMLDDIDNSLLVQNSFNSHEDFAMSIPPDQAQMIENINSLIA 660 Query: 661 EIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPT 720 EI SEKEELMQALI+EVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMA+E I KQPT Sbjct: 661 EITSEKEELMQALISEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMANENIAVKQPT 720 Query: 721 ASHIVRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 759 A +VRE+VAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL Sbjct: 721 AL-VVRESVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 756
BLAST of Spo25219.1 vs. UniProtKB/TrEMBL
Match:
D7TS43_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_05s0051g00090 PE=4 SV=1)
HSP 1 Score: 451.4 bits (1160), Expect = 2.100e-123
Identity = 376/825 (45.58%), Postives = 480/825 (58.18%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGA--AKKQPSSSQPRTDDTT----PS 60 MASAQVL RK++ LEAGKR LEEF+KK+ A AKK S SQ ++ D + P Sbjct: 1 MASAQVL-------RKQEHLEAGKRRLEEFRKKKAADRAKKVASISQLQSADVSLCVQPL 60 Query: 61 EKQAAGYGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYN--GSESVSPAHIDTQI 120 E + + ++D +AV+ V +N K +F + S+ + T+ Sbjct: 61 ENEQVRVMDSDGAG-ISDGVGEAVT--KVINNDNKKIEIFQNSEPCSSDIYAKPPFSTKD 120 Query: 121 DKLSGPELLQKLPNQVGKGHEDPLLNYQSGSDF----PQLADDINGKSGSDTGRGRFADA 180 K + +Q N G N S F QLA + N G G A Sbjct: 121 YKAFSADSVQTQVNDQG-------FNRYDASGFLGLVGQLAKEKNDDGGIHAGAEGSAYE 180 Query: 181 ISSSR----PSASQVYSSSESHSNSY-----------GSDKYFS----SSVSFPNANGGT 240 I S + P A + SS S SN + S K F+ P AN + Sbjct: 181 IVSDQSIAFPQAIRDTDSSSSQSNFHRMEETQQKDHKSSLKSFTVIDPGISQVPLANASS 240 Query: 241 NDFAAKVFTKGHVTNVLDQESDSVLSRMDLPASSSEFGHSH-----LESKNHLTFGLEER 300 + + + + +DSV A S FG ++ H+ E++ Sbjct: 241 ENSGNAILPNNYGYANMKSSADSV--HPITTAKQSAFGVGQDVPGSVDFNVHMLSNKEDK 300 Query: 301 QPSNAVGNL--TGFGSQWASESRSTGLNSNTGGLFNG-PSHSVVAEPFPRRSRPSFLD-- 360 + S++ G L T S ASES ST + G N P +SV E RRSRPSFLD Sbjct: 301 KLSSSFGYLPSTHGASPLASESSSTSFAFDVRGSSNHLPLYSVTPETNARRSRPSFLDSI 360 Query: 361 NIVKDSSVSGRPFVEKDK----FTNATLPGSNAAASSAIHDSSTAYSP-IEPLPT----- 420 N+ + S S P E K F++++ S S+ S A S EP Sbjct: 361 NVPRVPSASHLPLTEPGKAEPFFSSSSKVNSMDVLGSSASTKSLAESENFEPFSKAGNSN 420 Query: 421 -PAYFNPSDDFFSNASRG-------HTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLTQ 480 P+ F+ S + S+ S G H ++S+E K EF SQKQNEDFAALEQHIEDLTQ Sbjct: 421 GPSLFDHSIN--SSVSVGNRVEMLRHGLDQNSLERKFEFHSQKQNEDFAALEQHIEDLTQ 480 Query: 481 DKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQDEIKALLAELEA 540 +KFSLQR LEAS+ L ESLA+ENSSLT+SYNQQ S+V+QLK+DME+LQ+EIKA L +LE+ Sbjct: 481 EKFSLQRALEASRALAESLAAENSSLTDSYNQQGSVVNQLKSDMEKLQEEIKAQLVDLES 540 Query: 541 IKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELENSSAEIASYKKK 600 K EY NAQLECNAADERAKLLASEVI LEEKALRLRS+ELKLER+LENS+AEI+S+KKK Sbjct: 541 FKIEYANAQLECNAADERAKLLASEVIGLEEKALRLRSSELKLERQLENSNAEISSFKKK 600 Query: 601 MSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHV-KKDASTSTNDLGP 660 +SSL+KER+DL TIDALQEEKKLLQ K+R ASA G I SK +KD STST+DL Sbjct: 601 VSSLEKERQDLQLTIDALQEEKKLLQKKVRKASANGKSIDASKSPTDRKDVSTSTDDLVN 660 Query: 661 D-------ETRDSSEQAASNIQMLENVDNLLLLQSNSAGHEDFALSIPPDQVQTIQNINS 720 + ET ++++Q E LL E +++IP DQ++ IQNIN+ Sbjct: 661 EDNACMIPETSSLEMLNSASVQANELSSFPLLPDGGQMNFEVSSVNIPADQMRMIQNINA 720 Query: 721 LITEIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSK 759 LI+E+ EKEELMQAL+TE S S+KLK+LNKELS+KLEVQTQRLELLT+QSMA+E I ++ Sbjct: 721 LISELALEKEELMQALVTESSQSSKLKDLNKELSRKLEVQTQRLELLTSQSMANEVIQAR 780
BLAST of Spo25219.1 vs. UniProtKB/TrEMBL
Match:
A0A0S3STP3_PHAAN (Uncharacterized protein OS=Vigna angularis var. angularis GN=Vigan.08G310400 PE=4 SV=1)
HSP 1 Score: 440.3 bits (1131), Expect = 4.900e-120
Identity = 340/780 (43.59%), Postives = 468/780 (60.00%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGA--AKKQPSSSQPRTDDTTPSEKQA 60 MASAQVLP + SSRK++ LEAGKR LEEF+KK+ A AKK +SSQ D ++KQ+ Sbjct: 1 MASAQVLPNSSASSRKQEHLEAGKRRLEEFRKKKAAERAKKTSNSSQVNNSDDNLNKKQS 60 Query: 61 AGYGQALSVNALTD-DSSDAVSGASVFSNHTG-----KSHVFTHYNGSESVSPAHIDTQI 120 + + + +N +SD V GA S+ G ++F+ + S++ + Sbjct: 61 SEV-ENVRINEFDGVTTSDGVGGAVTDSSTLGIGNDKTQNLFSQSSNQGSLAGKTSSVRN 120 Query: 121 DKLSGPELLQKLPNQVGKGHEDPLLNYQSGSDFPQLADDINGKSGSDTGRGRFADAISSS 180 D + L++ N + L+ + +++N G +G + Sbjct: 121 DLSTPTNLVEANSNTDEYNRYNALVTESADFSQNNETNNVNDIYGIPSGATNHQSVLL-- 180 Query: 181 RPSASQVYSSSESHS----NSYGSDKYFSSSVSFPNANGGTNDFAAKVFTKGHVTNVLDQ 240 P SQ + S+ S N S+K SS + N T+ F +K + Q Sbjct: 181 HPQESQEFDSTSQFSLHGMNDDQSNKSSSSLKDYAVTNNLTSHFPSKS---------IPQ 240 Query: 241 ESDSVLSRMDLPASSS-EFGHSHLESKNHLTFGLEER---QPSNAVGNLTGFGSQWASES 300 S VL ++ L SS+ + G+SH N L+ G E + S++ NL + Sbjct: 241 NSVDVLQQIKLTNSSTLDSGYSH----NSLSGGFSESFSSKFSSSDNNLPSLHGANMPKF 300 Query: 301 RSTGLNSNTGGLFNGPSHSVVAEPFPRRSRPSFLDNIVKDSSVSGRPFVEKDKFTNATLP 360 STGL + + +N P + E RRSRPSFLD++ + G PF + ++ ++ Sbjct: 301 NSTGLEARSSS-YNRPILPLPVESSSRRSRPSFLDSLNVTKTSLGSPFHQSEQSSSM--- 360 Query: 361 GSNAAASSAIHDSSTAYSPIEPLPT---PAYFNPSDDFFSNASRGH--TSFEHSVENKLE 420 SN SS+ + Y P P T P + N + N + G ++ E+ +E Sbjct: 361 -SNHLESSSNDIPGSTYFPKPPEETKSVPLFPNFRTENVDNDNHGTLLSAKENGMEKNAY 420 Query: 421 FTSQKQNEDFAALEQHIEDLTQDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVS 480 ++S K NEDFAALEQ+IEDLT++KFSLQR LEAS+ L ESLA+ENS+LT++YNQQ S+V+ Sbjct: 421 YSSSK-NEDFAALEQYIEDLTKEKFSLQRALEASQVLAESLATENSTLTDNYNQQRSVVN 480 Query: 481 QLKADMERLQDEIKALLAELEAIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRS 540 QL++DME+LQ++IKA LAEL A K+EY NAQLECNAADERAKLLASEVI LEEKALRLRS Sbjct: 481 QLRSDMEKLQEDIKAQLAELHAFKSEYTNAQLECNAADERAKLLASEVIGLEEKALRLRS 540 Query: 541 NELKLERELENSSAEIASYKKKMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIP 600 +ELKLE++LEN+ AEI+SY+KK+SSLDK+R DL TIDALQEEKKLL SK+R S G Sbjct: 541 SELKLEKQLENAQAEISSYRKKISSLDKDRHDLHSTIDALQEEKKLLLSKMRKVSTTGKS 600 Query: 601 IVPSKGHVKKDASTSTNDLGPDETRDSSEQAASNIQMLE-NVDNLLLLQSNSAGHEDFAL 660 I K+D STST DL ++ +S + N E + + L+ ++ + + Sbjct: 601 IESQTS--KRDISTSTEDLANEDPASNSSNSEINDNAAEASSSSSLVPETRRSSLGVSPV 660 Query: 661 SIPPDQVQTIQNINSLITEIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLE 720 +IP DQ++ I+NIN+LI+E+ EKEEL+++L E S +++KE+NKELS+KLEVQTQRLE Sbjct: 661 NIPHDQMRMIENINALISELALEKEELIKSLTLESSECSRMKEINKELSRKLEVQTQRLE 720 Query: 721 LLTAQSMASEGIVSKQPTASHIVRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 759 LLTAQSM E I +KQP S V E YADEGDEVVERVLGWIMKLFPGGPS+RRTS+L Sbjct: 721 LLTAQSMVHENISTKQPD-SRTVYENTQYADEGDEVVERVLGWIMKLFPGGPSRRRTSKL 755
BLAST of Spo25219.1 vs. UniProtKB/TrEMBL
Match:
A0A067KAX0_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_12915 PE=4 SV=1)
HSP 1 Score: 438.3 bits (1126), Expect = 1.800e-119
Identity = 350/806 (43.42%), Postives = 463/806 (57.44%), Query Frame = 1
Query: 1 MASAQVLPKPAVSSRKKKDLEAGKRLLEEFKKKRGA--AKKQPSSSQPRTDDTTPSEKQA 60 MASAQVLP +SRK++ LEAGKR LEEF+KK+ A AKK ++SQP D + +KQ Sbjct: 1 MASAQVLP----TSRKQEHLEAGKRRLEEFRKKKAAERAKKTAATSQPLAADVSVDQKQP 60 Query: 61 A-----------GYGQALSVNALTDDSSDAVSGASVFSNHTGKSHVFTHYNGSESVSPAH 120 G G + + V+ + +N T K +++ E +P Sbjct: 61 LEAERVRITDLDGAGTSNGPGRTFEPYDGTVNNDNNITNITPKPE--QNFSKDEEANPLS 120 Query: 121 IDTQIDKLSGPELLQKLPNQVG-KGHEDPLLNYQSGSDFPQLADDINGKSGSDTGR---- 180 + L+ +L+Q+ N K H+ + + + Q D+I + ++ GR Sbjct: 121 VSDSKAPLA--DLVQRHTNNHDFKRHDSSGFSGAADFNHRQETDEIIYDANTNAGRQVGV 180 Query: 181 --GRFADAISSSRPSASQVYSSSESHSNSYGS--DKYFSSSVSFPNANGGTNDFAAKVFT 240 G + S+ + + S+ + S + + + FS +F + D A+++ T Sbjct: 181 PYGILPNHFSAPFSLEGRGFDSTYNQSTRFQATENNIFSKGSAFTSPQ----DPASQLKT 240 Query: 241 KGHVTNVLDQESDSVLSRMDLPASSSEFG---HSHLESKNHLTFGLEERQPSNAVGNLTG 300 K N L D +L SS E G H H+ L E S G Sbjct: 241 KSSYANTLATGVD-FSEPNNLRGSSVEVGQGIHGHVHFNGSLNSDFGEGSFSVITGGFPS 300 Query: 301 FGSQWASESRSTGLNSNTGGLFNGPS-HSVVAEPFPRRSRPSFLDNIVKDSSVSGRPF-- 360 S S+S NS+ N S +EP RRSRPSFLD++ + SG F Sbjct: 301 VYSNTVQTSKSIAFNSDVRSSSNQVELFSGTSEPSSRRSRPSFLDSLNVPRASSGASFQS 360 Query: 361 --VEKDKFTNATLP--GSNAAASSAIHDSSTAYSPIEPLPTPAYFNP---SDDFFSNASR 420 +K+ F + L G ++ SS +H+SS +E PT P D N + Sbjct: 361 AEPQKESFMSNALKSNGMDSIRSSGLHESSVLTESLEQHPTKVSVPPVNGVDPMMLNVN- 420 Query: 421 GHTSFEHSVENKLEFTSQKQNEDFAALEQHIEDLTQDKFSLQRTLEASKTLTESLASENS 480 E+S++ K + S KQNEDFAALEQHIEDLTQ+KFSLQR LEAS+ L ESLASENS Sbjct: 421 -----ENSLDRKHDIYSSKQNEDFAALEQHIEDLTQEKFSLQRALEASRALAESLASENS 480 Query: 481 SLTESYNQQASIVSQLKADMERLQDEIKALLAELEAIKAEYVNAQLECNAADERAKLLAS 540 SLT++YNQQ S+V+QLK+DME+LQ+EI+A L ELE++K EY NA+LECNAADER K+LAS Sbjct: 481 SLTDNYNQQRSVVNQLKSDMEKLQEEIQAHLMELESVKMEYANAKLECNAADERGKILAS 540 Query: 541 EVISLEEKALRLRSNELKLERELENSSAEIASYKKKMSSLDKERRDLLQTIDALQEEKKL 600 EVI LEEKALRLRSNELKLER+LENS AEIASYKKKMSSL+K+R+DL TIDALQEEKKL Sbjct: 541 EVIGLEEKALRLRSNELKLERQLENSHAEIASYKKKMSSLEKDRQDLQSTIDALQEEKKL 600 Query: 601 LQSKLRTASAGGIPI----VPSKGHVKKDASTSTNDLGPDETRDSSEQAASNIQMLENVD 660 LQSKLR ASA I +P+ KKD STST DL +A I EN D Sbjct: 601 LQSKLRKASASRNSIDVGQIPTN---KKDMSTSTEDL----------EAMPGISNQENHD 660 Query: 661 NLLLL---------QSNSAGHEDFALSIPPDQVQTIQNINSLITEIISEKEELMQALITE 720 + ++ + E ++ IP DQ++ I+NIN+LI+E+ EKEEL+QAL +E Sbjct: 661 TTTFIGNEGFPMPPENEESNLEFSSVHIPSDQMRMIENINTLISELALEKEELIQALASE 720 Query: 721 VSTSTKLKELNKELSQKLEVQTQRLELLTAQSMASEGIVSKQPTASHIVRETVAYADEGD 759 S ++LK+LN ELS+KLEVQTQRLE LTA++MA E ++ P + +E YADEGD Sbjct: 721 SSHCSQLKDLNTELSRKLEVQTQRLEFLTAKNMAIESAPARLPD-TRGTQENPTYADEGD 773
BLAST of Spo25219.1 vs. TAIR (Arabidopsis)
Match:
AT3G23980.1 (BLISTER)
HSP 1 Score: 384.4 bits (986), Expect = 1.600e-106
Identity = 245/473 (51.80%), Postives = 328/473 (69.34%), Query Frame = 1
Query: 298 NGPSHSVVAEPFPRRSRPSFLDNIVKDSSVSGR---PFVEKDKFTNA--TLPGSNAAASS 357 + P +S +E +RSRPSFLD++ + + P ++ D T++ L GS+ S Sbjct: 245 SSPLNSAKSEATVKRSRPSFLDSLNISRAPETQYQHPEIQADLVTSSGSQLSGSDGFGPS 304 Query: 358 AIHDSSTAYSPIEPLPTPA--YFNPSDDFFSNASRGHTSFEHSVENKLEFTSQKQNEDFA 417 I + P L + A Y NP + F S+ + + + +F+ KQN+DF Sbjct: 305 YISGRRDSNGP-SSLTSGASDYPNPFEKFRSSL---YPAANGVMPGFTDFSMPKQNDDFT 364 Query: 418 ALEQHIEDLTQDKFSLQRTLEASKTLTESLASENSSLTESYNQQASIVSQLKADMERLQD 477 ALEQHIEDLTQ+KFSLQR L+AS+ L ESLASENSS+T++YNQQ +V+QLK DMERL Sbjct: 365 ALEQHIEDLTQEKFSLQRDLDASRALAESLASENSSMTDTYNQQRGLVNQLKDDMERLYQ 424 Query: 478 EIKALLAELEAIKAEYVNAQLECNAADERAKLLASEVISLEEKALRLRSNELKLERELEN 537 +I+A + ELE+++ EY NAQLECNAADER+++LASEVISLE+KALRLRSNELKLERELE Sbjct: 425 QIQAQMGELESVRVEYANAQLECNAADERSQILASEVISLEDKALRLRSNELKLERELEK 484 Query: 538 SSAEIASYKKKMSSLDKERRDLLQTIDALQEEKKLLQSKLRTASAGGIPIVPSKGHV-KK 597 + E+ SYKKK+ SL+K+R+DL TI ALQEEKK+LQ+ ++ AS+GG SK +K Sbjct: 485 AQTEMLSYKKKLQSLEKDRQDLQSTIKALQEEKKVLQTMVQKASSGGKSTDLSKNSTSRK 544 Query: 598 DASTSTNDLG-PDETRDSSEQAASNIQMLE--NVDNLLLLQSNSAGHEDFALSIPPDQVQ 657 + STST L D T +SS Q + +LE + + ++ ++ E F+LS+P DQ++ Sbjct: 545 NVSTSTEGLAISDTTPESSNQETDSTTLLESDSSNTAIIPETRQLTLEGFSLSVPADQMR 604 Query: 658 TIQNINSLITEIISEKEELMQALITEVSTSTKLKELNKELSQKLEVQTQRLELLTAQSMA 717 I NIN+LI E+ EKEEL+QAL +E+S S ++ELNKELS+KLE QTQRLEL+TAQ MA Sbjct: 605 VIHNINTLIAELAIEKEELVQALSSELSRSAHVQELNKELSRKLEAQTQRLELVTAQKMA 664 Query: 718 SEGI-VSKQPTASHIVRETVAYADEGDEVVERVLGWIMKLFPGGPSKRRTSRL 759 + + KQ +H+V+E ADEGDEVVERVLGWIMK+FPGGPSKRRTS+L Sbjct: 665 IDNVSPEKQQPDTHVVQERTPIADEGDEVVERVLGWIMKMFPGGPSKRRTSKL 713
The following BLAST results are available for this feature:
BLAST of Spo25219.1 vs. NCBI nr
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. NCBI nr )
Total hits: 5
T C A A T T T T A T T T T T G T T A T T T A T T T A T T T T T A T T T C T G T A A A A C A T A A A G T A A A A T T A A A T C A A A T A A A A T C A A T G G C G C T T C T G C T C C A G C A A A C T C A A C C T C T G T T G A A G A T G C C G T A A A T T T C A C A C A T T A T T A T T A C T C C T A T T T T A T T A T C A C A T C A C C T A A T T G C A A A T A A A A T A A A A T A A A A T A A A A T A A A A T A A A A A T T A T T A A T T A G T T T T C A G C T A A A G A T T G T T A T A C G A A A T T T A A T T T C T T T T A T A T A A A T T T C C A A A A T T A G T T T G C T C A T A T T C T A G G G T T C T T T T A C C C T T C C T C T C T C T C C C A T A T C T T C G T T T T C T T C G G A G A T T T G G G A G T T T T T T T T T C G C A A T T T G A T C A T T G T T T T G A T C A A G A G A G A T C T G C T G A A T T C T G G A T T T G A A C C G A T T C G A A T T A A A A A A A G T T C T T C A A T T T T G A A A T C C G A A T T G C G A T T T T G C C G G T G C A G T T T G A T C T G T T T A A G A C G A T T T C C T T G G G T G A A G C G G A T C A G A T T G A A G A T C A A A T T T G T G G A C C C T C G G A A T T T T T T A T T G C G C T G T T T T T G G G T A G A A A T T G A A G A G T T T T G A A G G A G G T T C G A T T T T G A A T G T G G G T T T G T A T A A T G C T G A T T T A G G G G G G T G A T T T T T G T T C T G G A A A T G G C A T C T G C T C A A G T T T T A C C C A A G C C T G C G G T T T C A T C C C G T A A A A A G A A G G A T T T G G A A G C T G G T A A A C G T T T G C T G G A A G A G T T C A A A A A G A A G A G A G G A G C G G C C A A A A A G C A A C C A T C A T C T A G C C A A C C T C G T A C T G A T G A T A C T A C A C C A T C T G A G A A A C A A G C T G C A G G A T A T G G A C A A G C A T T G T C T G T C A A T G C T C T T A C T G A T G A T A G C T C T G A C G C A G T G T C A G G A G C T T C T G T T T T T T C T A A C C A C A C T G G C A A A T C A C A T G T T T T C A C T C A T T A T A A T G G G T C T G A A T C G G T T T C T C C T G C A C A C A T C G A T A C C C A A A T T G A T A A G T T A A G C G G A C C T G A G T T G C T T C A G A A A T T A C C T A A T C A A G T G G G A A A G G G C C A T G A G G A T C C A C T T T T A A A C T A C C A G T C A G G T T C T G A C T T T C C A C A A T T A G C A G A T G A T A T T A A T G G T A A G T C T G G G A G T G A T A C A G G A A G A G G A A G A T T T G C A G A T G C A A T A T C G T C T A G T A G A C C C A G T G C T T C T C A A G T T T A T A G T A G T A G T G A G T C T C A C T C A A A T T C T T A T G G A T C T G A T A A G T A C T T T A G T T C T T C T G T A A G C T T T C C A A A T G C A A A T G G A G G C A C C A A T G A T T T T G C T G C T A A A G T C T T T A C C A A G G G A C A T G T C A C C A A T G T T T T A G A T C A G G A G T C T G A T T C A G T T C T C T C G C G T A T G G A T T T G C C A G C A T C T T C G T C A G A G T T T G G T C A T A G C C A T C T G G A G T C G A A G A A T C A T T T A A C A T T T G G T T T G G A G G A A A G A C A G C C T A G T A A T G C A G T G G G G A A T T T G A C G G G T T T T G G A A G T C A A T G G G C A T C T G A A T C A C G T T C A A C T G G T T T A A A C T C T A A C A C G G G T G G T T T A T T T A A T G G T C C C T C A C A T T C A G T T G T T G C T G A A C C A T T T C C C A G A A G A T C T C G T C C T T C T T T C C T T G A T A A C A T T G T T A A A G A T T C T T C T G T T T C T G G C C G C C C T T T T G T T G A G A A A G A C A A G T T C A C G A A T G C A A C A C T T C C C G G C A G C A A T G C T G C T G C A T C G T C T G C A A T T C A T G A T T C T T C T A C A G C A T A T T C T C C C A T C G A A C C C C T T C C G A C A C C G G C T T A T T T T A A T C C A A G T G A T G A T T T C T T T A G C A A T G C G T C A A G G G G A C A C A C G T C A T T T G A G C A C A G C G T G G A G A A C A A G T T G G A A T T C A C T T C A C A G A A A C A A A A C G A A G A T T T T G C C G C T T T G G A G C A G C A C A T T G A A G A T T T G A C G C A A G A C A A G T T C T C T T T G C A A C G C A C A T T G G A G G C C T C T A A A A C T T T G A C T G A G T C A T T A G C T T C T G A G A A T T C T T C C T T G A C G G A G A G C T A T A A T C A G C A A G C A A G C A T T G T G A G C C A G T T A A A G G C T G A T A T G G A A A G A T T G C A G G A T G A A A T C A A G G C C C T T C T G G C T G A G C T T G A G G C T A T C A A G G C T G A A T A T G T G A A T G C A C A G C T T G A G T G C A A T G C A G C T G A T G A G C G T G C A A A G C T C C T G G C T T C T G A A G T T A T T A G C T T G G A A G A G A A G G C C C T T A G A T T A A G A T C T A A T G A G C T G A A G T T G G A G A G G G A A T T G G A A A A C T C A A G T G C T G A A A T T G C T T C C T A C A A A A A G A A A A T G T C T A G C C T T G A C A A A G A G C G C C G A G A T T T G C T G C A G A C A A T T G A T G C T T T A C A G G A A G A G A A A A A G T T G C T C C A G T C T A A A T T A A G G A C A G C T T C A G C T G G T G G A A T T C C A A T T G T T C C T A G C A A G G G A C A T G T G A A A A A A G A T G C T T C A A C T T C T A C T A A C G A T T T A G G T C C A G A T G A A A C A A G A G A T A G C T C T G A A C A A G C T G C A T C C A A C A T T C A A A T G C T T G A A A A T G T C G A C A A C T T G C T G C T T T T A C A G A G T A A T T C T G C T G G T C A C G A A G A T T T T G C T T T G A G T A T T C C C C C G G A C C A A G T G C A A A C G A T A C A A A A T A T C A A C T C A C T A A T T A C C G A G A T A A T A T C G G A A A A A G A G G A G T T G A T G C A A G C T C T G A T T A C T G A A G T C T C A A C A A G T A C T A A G C T G A A G G A A T T G A A C A A G G A G C T A T C T C A G A A A C T T G A A G T T C A G A C C C A A A G A C T G G A G T T G T T G A C A G C C C A A A G C A T G G C A A G T G A G G G T A T T G T T T C C A A G C A G C C T A C T G C T T C T C A T A T T G T A C G G G A A A C C G T T G C A T A T G C A G A T G A A G G C G A T G A G G T G G T T G A G C G A G T G C T G G G A T G G A T A A T G A A G T T A T T T C C T G G A G G G C C G T C A A A G C G G A G G A C C A G C A G A C T C T A A G T T G A G T A T A A A G C T T G G A T C A T T C G T T G T C C G T A C T C C T T A G T C G C A T T T T C A G G G C T A G A G T A G A G G A T A A A T A C T G T A T A T C A T G T G T T T G A C A T T T T G T T T A T T C T T T T C A C T T A A G G A A G A A T T T C A A A A T G T T C A A A A A T G A G C A A T T T T C T T A G A T A C A T T A G A T T G T T T G G A A A T T T T A A T T A C A C A T T T A T T T G A C A C A G G A A A A T A A T T T C A T T T C T T T G T A C T T A A T G T T T C T T A A A A T G T G T T T T C T T T T T C T T T G G T G T A C A A C C G A A G G A T T T T T G A T A T A A G A T G T A C A A A T C G T G T A T C T T G T C G T T C T T T T T T A T C T T G T C G T G T A A T A C G G A A T A T T G T T C T A G T G T A T C G C T A T T C G A C G C G A C G T C C T C G T T T G C T A A G A A C G C C T G C G T A T T T T A C T T G G A A T G A C G G T T G T G C C C T T A T A A A A C T C T A C C A T A C C T C T T C A T T T C T C A C C T C A A G C T T T C A C T C T C C C C C T T A T T T C G G C A G C C T A T T T C A T T T T C C G G C G A T A A A A T C C G G C A G C C C A T G A C T C A C C T C A C C A T C T T C T A C C A C C A C C T T T C A T C T T C A A A C G C C A T C C C A T C C C T T C A C C A T C A T C A C C G T C C C T T T A C C T G C A C A A C A C C A C C A T C A T C A T C G T C G T C G G C T C T T T T T T T T T A T G G A T G G T T G A T G C C G C C T A G A A T T G G T G G C C T A G G G C C 500 1000 1500 2000 2500 3000 3500 Expect = 0.00e+0 / Id = 100.00 Expect = 1.10e-261 / Id = 70.21 Expect = 3.00e-123 / Id = 45.58 Expect = 1.20e-122 / Id = 43.68 Expect = 1.80e-120 / Id = 44.08 Sequence KNA05083.1 XP_010695332.1 XP_002282738.1 XP_011462404.1 XP_010243629.1
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BLAST of Spo25219.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL )
Total hits: 5
T C A A T T T T A T T T T T G T T A T T T A T T T A T T T T T A T T T C T G T A A A A C A T A A A G T A A A A T T A A A T C A A A T A A A A T C A A T G G C G C T T C T G C T C C A G C A A A C T C A A C C T C T G T T G A A G A T G C C G T A A A T T T C A C A C A T T A T T A T T A C T C C T A T T T T A T T A T C A C A T C A C C T A A T T G C A A A T A A A A T A A A A T A A A A T A A A A T A A A A T A A A A A T T A T T A A T T A G T T T T C A G C T A A A G A T T G T T A T A C G A A A T T T A A T T T C T T T T A T A T A A A T T T C C A A A A T T A G T T T G C T C A T A T T C T A G G G T T C T T T T A C C C T T C C T C T C T C T C C C A T A T C T T C G T T T T C T T C G G A G A T T T G G G A G T T T T T T T T T C G C A A T T T G A T C A T T G T T T T G A T C A A G A G A G A T C T G C T G A A T T C T G G A T T T G A A C C G A T T C G A A T T A A A A A A A G T T C T T C A A T T T T G A A A T C C G A A T T G C G A T T T T G C C G G T G C A G T T T G A T C T G T T T A A G A C G A T T T C C T T G G G T G A A G C G G A T C A G A T T G A A G A T C A A A T T T G T G G A C C C T C G G A A T T T T T T A T T G C G C T G T T T T T G G G T A G A A A T T G A A G A G T T T T G A A G G A G G T T C G A T T T T G A A T G T G G G T T T G T A T A A T G C T G A T T T A G G G G G G T G A T T T T T G T T C T G G A A A T G G C A T C T G C T C A A G T T T T A C C C A A G C C T G C G G T T T C A T C C C G T A A A A A G A A G G A T T T G G A A G C T G G T A A A C G T T T G C T G G A A G A G T T C A A A A A G A A G A G A G G A G C G G C C A A A A A G C A A C C A T C A T C T A G C C A A C C T C G T A C T G A T G A T A C T A C A C C A T C T G A G A A A C A A G C T G C A G G A T A T G G A C A A G C A T T G T C T G T C A A T G C T C T T A C T G A T G A T A G C T C T G A C G C A G T G T C A G G A G C T T C T G T T T T T T C T A A C C A C A C T G G C A A A T C A C A T G T T T T C A C T C A T T A T A A T G G G T C T G A A T C G G T T T C T C C T G C A C A C A T C G A T A C C C A A A T T G A T A A G T T A A G C G G A C C T G A G T T G C T T C A G A A A T T A C C T A A T C A A G T G G G A A A G G G C C A T G A G G A T C C A C T T T T A A A C T A C C A G T C A G G T T C T G A C T T T C C A C A A T T A G C A G A T G A T A T T A A T G G T A A G T C T G G G A G T G A T A C A G G A A G A G G A A G A T T T G C A G A T G C A A T A T C G T C T A G T A G A C C C A G T G C T T C T C A A G T T T A T A G T A G T A G T G A G T C T C A C T C A A A T T C T T A T G G A T C T G A T A A G T A C T T T A G T T C T T C T G T A A G C T T T C C A A A T G C A A A T G G A G G C A C C A A T G A T T T T G C T G C T A A A G T C T T T A C C A A G G G A C A T G T C A C C A A T G T T T T A G A T C A G G A G T C T G A T T C A G T T C T C T C G C G T A T G G A T T T G C C A G C A T C T T C G T C A G A G T T T G G T C A T A G C C A T C T G G A G T C G A A G A A T C A T T T A A C A T T T G G T T T G G A G G A A A G A C A G C C T A G T A A T G C A G T G G G G A A T T T G A C G G G T T T T G G A A G T C A A T G G G C A T C T G A A T C A C G T T C A A C T G G T T T A A A C T C T A A C A C G G G T G G T T T A T T T A A T G G T C C C T C A C A T T C A G T T G T T G C T G A A C C A T T T C C C A G A A G A T C T C G T C C T T C T T T C C T T G A T A A C A T T G T T A A A G A T T C T T C T G T T T C T G G C C G C C C T T T T G T T G A G A A A G A C A A G T T C A C G A A T G C A A C A C T T C C C G G C A G C A A T G C T G C T G C A T C G T C T G C A A T T C A T G A T T C T T C T A C A G C A T A T T C T C C C A T C G A A C C C C T T C C G A C A C C G G C T T A T T T T A A T C C A A G T G A T G A T T T C T T T A G C A A T G C G T C A A G G G G A C A C A C G T C A T T T G A G C A C A G C G T G G A G A A C A A G T T G G A A T T C A C T T C A C A G A A A C A A A A C G A A G A T T T T G C C G C T T T G G A G C A G C A C A T T G A A G A T T T G A C G C A A G A C A A G T T C T C T T T G C A A C G C A C A T T G G A G G C C T C T A A A A C T T T G A C T G A G T C A T T A G C T T C T G A G A A T T C T T C C T T G A C G G A G A G C T A T A A T C A G C A A G C A A G C A T T G T G A G C C A G T T A A A G G C T G A T A T G G A A A G A T T G C A G G A T G A A A T C A A G G C C C T T C T G G C T G A G C T T G A G G C T A T C A A G G C T G A A T A T G T G A A T G C A C A G C T T G A G T G C A A T G C A G C T G A T G A G C G T G C A A A G C T C C T G G C T T C T G A A G T T A T T A G C T T G G A A G A G A A G G C C C T T A G A T T A A G A T C T A A T G A G C T G A A G T T G G A G A G G G A A T T G G A A A A C T C A A G T G C T G A A A T T G C T T C C T A C A A A A A G A A A A T G T C T A G C C T T G A C A A A G A G C G C C G A G A T T T G C T G C A G A C A A T T G A T G C T T T A C A G G A A G A G A A A A A G T T G C T C C A G T C T A A A T T A A G G A C A G C T T C A G C T G G T G G A A T T C C A A T T G T T C C T A G C A A G G G A C A T G T G A A A A A A G A T G C T T C A A C T T C T A C T A A C G A T T T A G G T C C A G A T G A A A C A A G A G A T A G C T C T G A A C A A G C T G C A T C C A A C A T T C A A A T G C T T G A A A A T G T C G A C A A C T T G C T G C T T T T A C A G A G T A A T T C T G C T G G T C A C G A A G A T T T T G C T T T G A G T A T T C C C C C G G A C C A A G T G C A A A C G A T A C A A A A T A T C A A C T C A C T A A T T A C C G A G A T A A T A T C G G A A A A A G A G G A G T T G A T G C A A G C T C T G A T T A C T G A A G T C T C A A C A A G T A C T A A G C T G A A G G A A T T G A A C A A G G A G C T A T C T C A G A A A C T T G A A G T T C A G A C C C A A A G A C T G G A G T T G T T G A C A G C C C A A A G C A T G G C A A G T G A G G G T A T T G T T T C C A A G C A G C C T A C T G C T T C T C A T A T T G T A C G G G A A A C C G T T G C A T A T G C A G A T G A A G G C G A T G A G G T G G T T G A G C G A G T G C T G G G A T G G A T A A T G A A G T T A T T T C C T G G A G G G C C G T C A A A G C G G A G G A C C A G C A G A C T C T A A G T T G A G T A T A A A G C T T G G A T C A T T C G T T G T C C G T A C T C C T T A G T C G C A T T T T C A G G G C T A G A G T A G A G G A T A A A T A C T G T A T A T C A T G T G T T T G A C A T T T T G T T T A T T C T T T T C A C T T A A G G A A G A A T T T C A A A A T G T T C A A A A A T G A G C A A T T T T C T T A G A T A C A T T A G A T T G T T T G G A A A T T T T A A T T A C A C A T T T A T T T G A C A C A G G A A A A T A A T T T C A T T T C T T T G T A C T T A A T G T T T C T T A A A A T G T G T T T T C T T T T T C T T T G G T G T A C A A C C G A A G G A T T T T T G A T A T A A G A T G T A C A A A T C G T G T A T C T T G T C G T T C T T T T T T A T C T T G T C G T G T A A T A C G G A A T A T T G T T C T A G T G T A T C G C T A T T C G A C G C G A C G T C C T C G T T T G C T A A G A A C G C C T G C G T A T T T T A C T T G G A A T G A C G G T T G T G C C C T T A T A A A A C T C T A C C A T A C C T C T T C A T T T C T C A C C T C A A G C T T T C A C T C T C C C C C T T A T T T C G G C A G C C T A T T T C A T T T T C C G G C G A T A A A A T C C G G C A G C C C A T G A C T C A C C T C A C C A T C T T C T A C C A C C A C C T T T C A T C T T C A A A C G C C A T C C C A T C C C T T C A C C A T C A T C A C C G T C C C T T T A C C T G C A C A A C A C C A C C A T C A T C A T C G T C G T C G G C T C T T T T T T T T T A T G G A T G G T T G A T G C C G C C T A G A A T T G G T G G C C T A G G G C C 500 1000 1500 2000 2500 3000 3500 Expect = 0.00e+0 / Id = 100.00 Expect = 7.40e-262 / Id = 70.21 Expect = 2.10e-123 / Id = 45.58 Expect = 4.90e-120 / Id = 43.59 Expect = 1.80e-119 / Id = 43.42 Sequence A0A0K9QEG6_SPIOL A0A0J8E3Q9_BETVU D7TS43_VITVI A0A0S3STP3_PHAAN A0A067KAX0_JATCU
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BLAST of Spo25219.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. ExPASy SwissProt )
Total hits: 0
T C A A T T T T A T T T T T G T T A T T T A T T T A T T T T T A T T T C T G T A A A A C A T A A A G T A A A A T T A A A T C A A A T A A A A T C A A T G G C G C T T C T G C T C C A G C A A A C T C A A C C T C T G T T G A A G A T G C C G T A A A T T T C A C A C A T T A T T A T T A C T C C T A T T T T A T T A T C A C A T C A C C T A A T T G C A A A T A A A A T A A A A T A A A A T A A A A T A A A A T A A A A A T T A T T A A T T A G T T T T C A G C T A A A G A T T G T T A T A C G A A A T T T A A T T T C T T T T A T A T A A A T T T C C A A A A T T A G T T T G C T C A T A T T C T A G G G T T C T T T T A C C C T T C C T C T C T C T C C C A T A T C T T C G T T T T C T T C G G A G A T T T G G G A G T T T T T T T T T C G C A A T T T G A T C A T T G T T T T G A T C A A G A G A G A T C T G C T G A A T T C T G G A T T T G A A C C G A T T C G A A T T A A A A A A A G T T C T T C A A T T T T G A A A T C C G A A T T G C G A T T T T G C C G G T G C A G T T T G A T C T G T T T A A G A C G A T T T C C T T G G G T G A A G C G G A T C A G A T T G A A G A T C A A A T T T G T G G A C C C T C G G A A T T T T T T A T T G C G C T G T T T T T G G G T A G A A A T T G A A G A G T T T T G A A G G A G G T T C G A T T T T G A A T G T G G G T T T G T A T A A T G C T G A T T T A G G G G G G T G A T T T T T G T T C T G G A A A T G G C A T C T G C T C A A G T T T T A C C C A A G C C T G C G G T T T C A T C C C G T A A A A A G A A G G A T T T G G A A G C T G G T A A A C G T T T G C T G G A A G A G T T C A A A A A G A A G A G A G G A G C G G C C A A A A A G C A A C C A T C A T C T A G C C A A C C T C G T A C T G A T G A T A C T A C A C C A T C T G A G A A A C A A G C T G C A G G A T A T G G A C A A G C A T T G T C T G T C A A T G C T C T T A C T G A T G A T A G C T C T G A C G C A G T G T C A G G A G C T T C T G T T T T T T C T A A C C A C A C T G G C A A A T C A C A T G T T T T C A C T C A T T A T A A T G G G T C T G A A T C G G T T T C T C C T G C A C A C A T C G A T A C C C A A A T T G A T A A G T T A A G C G G A C C T G A G T T G C T T C A G A A A T T A C C T A A T C A A G T G G G A A A G G G C C A T G A G G A T C C A C T T T T A A A C T A C C A G T C A G G T T C T G A C T T T C C A C A A T T A G C A G A T G A T A T T A A T G G T A A G T C T G G G A G T G A T A C A G G A A G A G G A A G A T T T G C A G A T G C A A T A T C G T C T A G T A G A C C C A G T G C T T C T C A A G T T T A T A G T A G T A G T G A G T C T C A C T C A A A T T C T T A T G G A T C T G A T A A G T A C T T T A G T T C T T C T G T A A G C T T T C C A A A T G C A A A T G G A G G C A C C A A T G A T T T T G C T G C T A A A G T C T T T A C C A A G G G A C A T G T C A C C A A T G T T T T A G A T C A G G A G T C T G A T T C A G T T C T C T C G C G T A T G G A T T T G C C A G C A T C T T C G T C A G A G T T T G G T C A T A G C C A T C T G G A G T C G A A G A A T C A T T T A A C A T T T G G T T T G G A G G A A A G A C A G C C T A G T A A T G C A G T G G G G A A T T T G A C G G G T T T T G G A A G T C A A T G G G C A T C T G A A T C A C G T T C A A C T G G T T T A A A C T C T A A C A C G G G T G G T T T A T T T A A T G G T C C C T C A C A T T C A G T T G T T G C T G A A C C A T T T C C C A G A A G A T C T C G T C C T T C T T T C C T T G A T A A C A T T G T T A A A G A T T C T T C T G T T T C T G G C C G C C C T T T T G T T G A G A A A G A C A A G T T C A C G A A T G C A A C A C T T C C C G G C A G C A A T G C T G C T G C A T C G T C T G C A A T T C A T G A T T C T T C T A C A G C A T A T T C T C C C A T C G A A C C C C T T C C G A C A C C G G C T T A T T T T A A T C C A A G T G A T G A T T T C T T T A G C A A T G C G T C A A G G G G A C A C A C G T C A T T T G A G C A C A G C G T G G A G A A C A A G T T G G A A T T C A C T T C A C A G A A A C A A A A C G A A G A T T T T G C C G C T T T G G A G C A G C A C A T T G A A G A T T T G A C G C A A G A C A A G T T C T C T T T G C A A C G C A C A T T G G A G G C C T C T A A A A C T T T G A C T G A G T C A T T A G C T T C T G A G A A T T C T T C C T T G A C G G A G A G C T A T A A T C A G C A A G C A A G C A T T G T G A G C C A G T T A A A G G C T G A T A T G G A A A G A T T G C A G G A T G A A A T C A A G G C C C T T C T G G C T G A G C T T G A G G C T A T C A A G G C T G A A T A T G T G A A T G C A C A G C T T G A G T G C A A T G C A G C T G A T G A G C G T G C A A A G C T C C T G G C T T C T G A A G T T A T T A G C T T G G A A G A G A A G G C C C T T A G A T T A A G A T C T A A T G A G C T G A A G T T G G A G A G G G A A T T G G A A A A C T C A A G T G C T G A A A T T G C T T C C T A C A A A A A G A A A A T G T C T A G C C T T G A C A A A G A G C G C C G A G A T T T G C T G C A G A C A A T T G A T G C T T T A C A G G A A G A G A A A A A G T T G C T C C A G T C T A A A T T A A G G A C A G C T T C A G C T G G T G G A A T T C C A A T T G T T C C T A G C A A G G G A C A T G T G A A A A A A G A T G C T T C A A C T T C T A C T A A C G A T T T A G G T C C A G A T G A A A C A A G A G A T A G C T C T G A A C A A G C T G C A T C C A A C A T T C A A A T G C T T G A A A A T G T C G A C A A C T T G C T G C T T T T A C A G A G T A A T T C T G C T G G T C A C G A A G A T T T T G C T T T G A G T A T T C C C C C G G A C C A A G T G C A A A C G A T A C A A A A T A T C A A C T C A C T A A T T A C C G A G A T A A T A T C G G A A A A A G A G G A G T T G A T G C A A G C T C T G A T T A C T G A A G T C T C A A C A A G T A C T A A G C T G A A G G A A T T G A A C A A G G A G C T A T C T C A G A A A C T T G A A G T T C A G A C C C A A A G A C T G G A G T T G T T G A C A G C C C A A A G C A T G G C A A G T G A G G G T A T T G T T T C C A A G C A G C C T A C T G C T T C T C A T A T T G T A C G G G A A A C C G T T G C A T A T G C A G A T G A A G G C G A T G A G G T G G T T G A G C G A G T G C T G G G A T G G A T A A T G A A G T T A T T T C C T G G A G G G C C G T C A A A G C G G A G G A C C A G C A G A C T C T A A G T T G A G T A T A A A G C T T G G A T C A T T C G T T G T C C G T A C T C C T T A G T C G C A T T T T C A G G G C T A G A G T A G A G G A T A A A T A C T G T A T A T C A T G T G T T T G A C A T T T T G T T T A T T C T T T T C A C T T A A G G A A G A A T T T C A A A A T G T T C A A A A A T G A G C A A T T T T C T T A G A T A C A T T A G A T T G T T T G G A A A T T T T A A T T A C A C A T T T A T T T G A C A C A G G A A A A T A A T T T C A T T T C T T T G T A C T T A A T G T T T C T T A A A A T G T G T T T T C T T T T T C T T T G G T G T A C A A C C G A A G G A T T T T T G A T A T A A G A T G T A C A A A T C G T G T A T C T T G T C G T T C T T T T T T A T C T T G T C G T G T A A T A C G G A A T A T T G T T C T A G T G T A T C G C T A T T C G A C G C G A C G T C C T C G T T T G C T A A G A A C G C C T G C G T A T T T T A C T T G G A A T G A C G G T T G T G C C C T T A T A A A A C T C T A C C A T A C C T C T T C A T T T C T C A C C T C A A G C T T T C A C T C T C C C C C T T A T T T C G G C A G C C T A T T T C A T T T T C C G G C G A T A A A A T C C G G C A G C C C A T G A C T C A C C T C A C C A T C T T C T A C C A C C A C C T T T C A T C T T C A A A C G C C A T C C C A T C C C T T C A C C A T C A T C A C C G T C C C T T T A C C T G C A C A A C A C C A C C A T C A T C A T C G T C G T C G G C T C T T T T T T T T T A T G G A T G G T T G A T G C C G C C T A G A A T T G G T G G C C T A G G G C C 500 1000 1500 2000 2500 3000 3500 Sequence
Match Name E-value Identity Description
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BLAST of Spo25219.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (
blastp Spinacia oleracea peptides vs. TAIR )
Total hits: 1
T C A A T T T T A T T T T T G T T A T T T A T T T A T T T T T A T T T C T G T A A A A C A T A A A G T A A A A T T A A A T C A A A T A A A A T C A A T G G C G C T T C T G C T C C A G C A A A C T C A A C C T C T G T T G A A G A T G C C G T A A A T T T C A C A C A T T A T T A T T A C T C C T A T T T T A T T A T C A C A T C A C C T A A T T G C A A A T A A A A T A A A A T A A A A T A A A A T A A A A T A A A A A T T A T T A A T T A G T T T T C A G C T A A A G A T T G T T A T A C G A A A T T T A A T T T C T T T T A T A T A A A T T T C C A A A A T T A G T T T G C T C A T A T T C T A G G G T T C T T T T A C C C T T C C T C T C T C T C C C A T A T C T T C G T T T T C T T C G G A G A T T T G G G A G T T T T T T T T T C G C A A T T T G A T C A T T G T T T T G A T C A A G A G A G A T C T G C T G A A T T C T G G A T T T G A A C C G A T T C G A A T T A A A A A A A G T T C T T C A A T T T T G A A A T C C G A A T T G C G A T T T T G C C G G T G C A G T T T G A T C T G T T T A A G A C G A T T T C C T T G G G T G A A G C G G A T C A G A T T G A A G A T C A A A T T T G T G G A C C C T C G G A A T T T T T T A T T G C G C T G T T T T T G G G T A G A A A T T G A A G A G T T T T G A A G G A G G T T C G A T T T T G A A T G T G G G T T T G T A T A A T G C T G A T T T A G G G G G G T G A T T T T T G T T C T G G A A A T G G C A T C T G C T C A A G T T T T A C C C A A G C C T G C G G T T T C A T C C C G T A A A A A G A A G G A T T T G G A A G C T G G T A A A C G T T T G C T G G A A G A G T T C A A A A A G A A G A G A G G A G C G G C C A A A A A G C A A C C A T C A T C T A G C C A A C C T C G T A C T G A T G A T A C T A C A C C A T C T G A G A A A C A A G C T G C A G G A T A T G G A C A A G C A T T G T C T G T C A A T G C T C T T A C T G A T G A T A G C T C T G A C G C A G T G T C A G G A G C T T C T G T T T T T T C T A A C C A C A C T G G C A A A T C A C A T G T T T T C A C T C A T T A T A A T G G G T C T G A A T C G G T T T C T C C T G C A C A C A T C G A T A C C C A A A T T G A T A A G T T A A G C G G A C C T G A G T T G C T T C A G A A A T T A C C T A A T C A A G T G G G A A A G G G C C A T G A G G A T C C A C T T T T A A A C T A C C A G T C A G G T T C T G A C T T T C C A C A A T T A G C A G A T G A T A T T A A T G G T A A G T C T G G G A G T G A T A C A G G A A G A G G A A G A T T T G C A G A T G C A A T A T C G T C T A G T A G A C C C A G T G C T T C T C A A G T T T A T A G T A G T A G T G A G T C T C A C T C A A A T T C T T A T G G A T C T G A T A A G T A C T T T A G T T C T T C T G T A A G C T T T C C A A A T G C A A A T G G A G G C A C C A A T G A T T T T G C T G C T A A A G T C T T T A C C A A G G G A C A T G T C A C C A A T G T T T T A G A T C A G G A G T C T G A T T C A G T T C T C T C G C G T A T G G A T T T G C C A G C A T C T T C G T C A G A G T T T G G T C A T A G C C A T C T G G A G T C G A A G A A T C A T T T A A C A T T T G G T T T G G A G G A A A G A C A G C C T A G T A A T G C A G T G G G G A A T T T G A C G G G T T T T G G A A G T C A A T G G G C A T C T G A A T C A C G T T C A A C T G G T T T A A A C T C T A A C A C G G G T G G T T T A T T T A A T G G T C C C T C A C A T T C A G T T G T T G C T G A A C C A T T T C C C A G A A G A T C T C G T C C T T C T T T C C T T G A T A A C A T T G T T A A A G A T T C T T C T G T T T C T G G C C G C C C T T T T G T T G A G A A A G A C A A G T T C A C G A A T G C A A C A C T T C C C G G C A G C A A T G C T G C T G C A T C G T C T G C A A T T C A T G A T T C T T C T A C A G C A T A T T C T C C C A T C G A A C C C C T T C C G A C A C C G G C T T A T T T T A A T C C A A G T G A T G A T T T C T T T A G C A A T G C G T C A A G G G G A C A C A C G T C A T T T G A G C A C A G C G T G G A G A A C A A G T T G G A A T T C A C T T C A C A G A A A C A A A A C G A A G A T T T T G C C G C T T T G G A G C A G C A C A T T G A A G A T T T G A C G C A A G A C A A G T T C T C T T T G C A A C G C A C A T T G G A G G C C T C T A A A A C T T T G A C T G A G T C A T T A G C T T C T G A G A A T T C T T C C T T G A C G G A G A G C T A T A A T C A G C A A G C A A G C A T T G T G A G C C A G T T A A A G G C T G A T A T G G A A A G A T T G C A G G A T G A A A T C A A G G C C C T T C T G G C T G A G C T T G A G G C T A T C A A G G C T G A A T A T G T G A A T G C A C A G C T T G A G T G C A A T G C A G C T G A T G A G C G T G C A A A G C T C C T G G C T T C T G A A G T T A T T A G C T T G G A A G A G A A G G C C C T T A G A T T A A G A T C T A A T G A G C T G A A G T T G G A G A G G G A A T T G G A A A A C T C A A G T G C T G A A A T T G C T T C C T A C A A A A A G A A A A T G T C T A G C C T T G A C A A A G A G C G C C G A G A T T T G C T G C A G A C A A T T G A T G C T T T A C A G G A A G A G A A A A A G T T G C T C C A G T C T A A A T T A A G G A C A G C T T C A G C T G G T G G A A T T C C A A T T G T T C C T A G C A A G G G A C A T G T G A A A A A A G A T G C T T C A A C T T C T A C T A A C G A T T T A G G T C C A G A T G A A A C A A G A G A T A G C T C T G A A C A A G C T G C A T C C A A C A T T C A A A T G C T T G A A A A T G T C G A C A A C T T G C T G C T T T T A C A G A G T A A T T C T G C T G G T C A C G A A G A T T T T G C T T T G A G T A T T C C C C C G G A C C A A G T G C A A A C G A T A C A A A A T A T C A A C T C A C T A A T T A C C G A G A T A A T A T C G G A A A A A G A G G A G T T G A T G C A A G C T C T G A T T A C T G A A G T C T C A A C A A G T A C T A A G C T G A A G G A A T T G A A C A A G G A G C T A T C T C A G A A A C T T G A A G T T C A G A C C C A A A G A C T G G A G T T G T T G A C A G C C C A A A G C A T G G C A A G T G A G G G T A T T G T T T C C A A G C A G C C T A C T G C T T C T C A T A T T G T A C G G G A A A C C G T T G C A T A T G C A G A T G A A G G C G A T G A G G T G G T T G A G C G A G T G C T G G G A T G G A T A A T G A A G T T A T T T C C T G G A G G G C C G T C A A A G C G G A G G A C C A G C A G A C T C T A A G T T G A G T A T A A A G C T T G G A T C A T T C G T T G T C C G T A C T C C T T A G T C G C A T T T T C A G G G C T A G A G T A G A G G A T A A A T A C T G T A T A T C A T G T G T T T G A C A T T T T G T T T A T T C T T T T C A C T T A A G G A A G A A T T T C A A A A T G T T C A A A A A T G A G C A A T T T T C T T A G A T A C A T T A G A T T G T T T G G A A A T T T T A A T T A C A C A T T T A T T T G A C A C A G G A A A A T A A T T T C A T T T C T T T G T A C T T A A T G T T T C T T A A A A T G T G T T T T C T T T T T C T T T G G T G T A C A A C C G A A G G A T T T T T G A T A T A A G A T G T A C A A A T C G T G T A T C T T G T C G T T C T T T T T T A T C T T G T C G T G T A A T A C G G A A T A T T G T T C T A G T G T A T C G C T A T T C G A C G C G A C G T C C T C G T T T G C T A A G A A C G C C T G C G T A T T T T A C T T G G A A T G A C G G T T G T G C C C T T A T A A A A C T C T A C C A T A C C T C T T C A T T T C T C A C C T C A A G C T T T C A C T C T C C C C C T T A T T T C G G C A G C C T A T T T C A T T T T C C G G C G A T A A A A T C C G G C A G C C C A T G A C T C A C C T C A C C A T C T T C T A C C A C C A C C T T T C A T C T T C A A A C G C C A T C C C A T C C C T T C A C C A T C A T C A C C G T C C C T T T A C C T G C A C A A C A C C A C C A T C A T C A T C G T C G T C G G C T C T T T T T T T T T A T G G A T G G T T G A T G C C G C C T A G A A T T G G T G G C C T A G G G C C 500 1000 1500 2000 2500 3000 3500 Expect = 1.60e-106 / Id = 51.80 Sequence AT3G23980.1
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