Spo09787 (gene)

Overview
NameSpo09787
Typegene
OrganismSpinacia oleracea (Spinach)
Descriptionalpha/beta-Hydrolases superfamily protein
LocationSpoScf_01646 : 21972 .. 41137 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGTGCCCCATCATTGTCAGAGATATGATCGAGCAATTCATCAATTTTGTGATTCGACCTCCCAGGTACTAAGTCCATTTCTCTTTAATCAAGCTTGCGATCTTGTCAGCAGGCCATCGTTCATATGCATATTTGTTGTTGCTTAGTGCTGAATAGTTTAAATTTGTTAATGAGTTTATGTTATGTGCAAGCAGCTAATTTCATGTGATTAAAAAGTGTACGTATGAATTTGTTGGTGTTGTAAGGAGAATAATGATTTCAAATGAGTAGAGATCCAAGGAAAAGTAGAAATGAGAAAGAAAGAAGTAAAGAGTTGCTTTCCCTATCTACTCCTACAACCCTAGTCTCCACTAGAGATATGGTTTCAGATATGATGGCCTCTAATGATCCTAACTTAGAAAGCACGAGGAAAAAAAATGTTTGAATCAGCAAATCACATTTCAATGCACTTCATCAATGTTTTCTCTCCTTTGCTCTTGCATGTGCATATACGAAGTGCTTTGTACAGTCGAAGATTTGAAATTAAATTATAATTTCACATCTAGATGCTTTTCTCTAATAATGCCGCTCTAGGTACTTACTCCTTCCGATGATTAAAAGAACAACTTTCACGCTGTAGTCTGTAGCTATGATAAAACCTTAATTGATTAGTTAATCGATGTTAGAGATTAGTTGTAAATTCTGTTTTTGGCGGGAAAAATAGTTAAAGTGTTTGTTAGTTGGGGTAACTGAACTCAATTAGTTGATCAGCTGTAAGCTTTAAATAGCTTAATCCTATATTGTAATAGGCATCTTGAAATAAATAAACTCTAATTCCCATCTTCTACTATTTTCTCTCTCATCTTCTCTCATCTTCTCTAATTTCTATTATCTTTCTTATTATTCAGCATTGAGGTTGCCTCTTGCATCAAGTTAGCCAAGGTTTCTTTATAATCTTTTGTTTGCCACAAGAAAATGTGTGGCCTTGTAGAATGGAACCCAAGTTCATGAGGAAGATGATTTTCTCTTGAATGCCGCTTTAGGCACACCACTACACCATCCACTGTCCAAAAGAGCCAACCTTGACTTCGTAAGTTTGTTGCTAACTAAGACTTCAATTTTCTGTGATAAACCAACCTAGAGGATGGGTTCTACGGGGAATGCCAATATAAATCTGTTCAGAGTTATCTTGGGGAATAAGTTGAGTAGCTAGAGTAGAGAAAGGGAAGATAATATCTATATGGAGAGATCATCAGTGAGAAGATTGATAAATATAACATTTTCTTTTCATGCCACCAGTCCATTTTTTGGCCTTGTAGAACTGAAACCAACTAACCTACGTTTGTTTTCTTTGACATAAAGTAGAGTTTTCAGATAGTGGAAACATGCCTCATCGATGCTATAATTTTCGAGAAAGGAATAAATCGCATCTTTATTGTTTTCGTTGAGATTCCCGTCATGATTTGAGGATTGGAATGGCTTGTGTAGTATTATTATTATTATTTTATTTAGTATTGGAATGTAAACGGTAGTTTTATATTCTTTTTCTTGATAAGTAAATTCTTCGACCCTCTTCCTCTTATATAATCAAGTATACAAAATGTCATTTTATGTTCTTTTCTCGAAAGTAAATTCTTGTTATATAGAGAAATATTATTGCTTGGAGATTGTTTAAGTTTTTCCCTCTTATCCAGATACTCTGTATTTATATTTAGTAGTCTCTATACTACACTACTACTTCTCCCTTACCCTTATTTTTTCCTTATTCCTACTTGCTCCGACTTTTTAATCCCTGCACCACATGGAAATTCACGCATCTCAATTAATATCGTCCATTATGTACTACTCGGTTACTATAGTTACGTGGTTTAAGAAAATTTTGAAAAAATGAGTGGGTGTAAAAGTATGATGAAGTAAAAGAGGAAGTAAAAGGTGGGTGGATGTAAGAAAAATATGAATGAAGTTAGAGTGTGTGGAAATGTGTAATTATTGTGGGATAAGAGGGGTAAGATGGTAAAGAAAATCTGCCTAAAAGAGAATAAAGCAAAGTAGGTAGAACAAAAAAGAACGGATAAAGATGGAAAGTGGATAGAACAAAAAAGAACGGAGATAATATATGTTTTGAAAGTATGTACCAAGATGAATCTAATAAGACCCCACATGCTTATATTTTTGCTCATACATACATCACAAAAAATGGTCTAAAGATTAATGTCCATACTAATTAACATTAGTATTGTTGTGTGACTAGTGTACAAATCTAAATGGTGCAATTCTAAAAAAGTGGAGCAAGAATTATCCTTTACTCTATCTGTCTTCAAAAGATTAATAATCATAATAACATTAATATTGCTGTTTTTATTTTGGTAGCTATCATATACTCGTAATTGTTGTGTTCCGGTTGTTAGTTACTATGGTTGTGATTTTCCCCCCTATGTTTTTGTATGGGTGTATGTTTGCATGTATAGGGCTGTGTATGATCCAGATCAATACCTATGGGAGAAGAATTTTACACTTGCTGGTAGAGCATTCAGAAGAGAAGATTTGGAGGCAAGTATGGGAATCAGCACCTAGCCTTTTCAATTATTATTTTTTCCCGTATTTTTTATTTATTCATTTGTATGTTGTGTCATTTTGTTATTTGAGCTTGGTGCAATGCCTCCCTCTGAAAATTTTCAGCTTGGAAATGAAAGAGGCCAGACCTTGAAGTGTAGTCATTATGTGCCATCTCTTCAGCCAGAAGATTCCGCTCTTCCTTGTGTTGTATACTGTCATGGCAACAGGTCTGTCAACAAATTAGATAATTTTTATTTGATAAAGGAACAGTCTACGCGAATTCTCAAAAATCTGTTTGTGTTACTACTGCAGTGGATGCCGGGCTGATGCAAATGAGGCTGCTGTTGTACTTCTTCCTGCAAATATTACAGTCTTCACTCTGGACTTCTCTGGATCAGGCTTATCTGATGGTAACTATGTCAGCCTTGGATGGCATGAGGTTTGGTTATGTCAAGATAGCTGTAATTTTCTGTAACTAAATGCACGGTTGCATTATCATCAAGTTCATTAATTCTCCTTTTCTACGCGACAGAAAGACGACCTCAGAGTTGTGGTTTCTTATCTAAGAAGTAATAAATGTGTATCGCGAATAGGACTTTGGGGAAGATCTATGGGTGCTGTTACAAGGTATAAAAGCATGTTGCTGCCTTTACTTTTCAACTTTCTCCAGTTGGCAATCTTCAAACAAATTAGGGAAAAATTGACTTTTACCACCTATGAATATTGACATATTGTTTTTTACCATCTAAAAAATAGAAATTGTATTTTACCACCTAAAATTAAATAAAAATTGTTTTTAAGGCAAGATGGTCAGAAACGTCATGTGGAGCCCCTTTTGACGCAAATCAAACATAAATCATACCAATACAACTTGACTCTCCTTTGCAAATCTGAAAAGAATATTATGCCTGTCAATTTGAGAAATATTACCAAATTATGTGAATTAATGGGAAACAATGGCAAATGGTAGCTTATTATACATGGAAATCGTGGGAGTAGAGAAGGAAATTAGAAATATAGCCGTTGAAATAGGTCCCGCTTATCGTTTCTGTCTATCTTGCCGTTAAGAGGTGGTTAAAAAAATTATTTTATTTTAGGTGCCAAAATACAATTTCTATTTTTTAAGGTGGTAAAACGCAATTTAGTAATTTTTTTAGGTGGTAAAAGTCAATTATTCCAATGAATTATACTCCTTTTCTTTTTTATATGTTGTAGTGCAATTTCATGCAGAATATACTTGATGCTTTTGATTACACGTTCAGTATACAACTTTTGAGAATTTTCTTACTGTTTTTCATCCTTGTTTGGTGACATAATTGTTTTCAGCATAATTTCCAATAGGATTGTCAAAATTGCTAGAGCTGTTATCGACTTATTGTCAATATTATTCTTTCCTTGCTTTGTTGGGGTGGGGATGTGATGAAACGATGAATTCGTTTTAAACATCTTGCCGTTAAAGCTGAATTAGCCGTCTGTTCTTATGTTCTAGAGTAGTTACATGGTTTTTGTTACGGTTTGTAAATTGGTAATGTTTGAGTTTGGGTTTAAAATTCTGTTTAGAGTAGTTTAGTTATATTCACAGCCCTGTGTGAGCCTTTCGAGTGTTGTGAATACATGATTTATGACTTTGTGGTTTAATTAGCTTGAATCAAGGTGTATTTGAGAATTTACTGGTTTTGATATCTTGGCATTGCCGTTCTATGCAGCCTTCTATATGGATCAGAGGACCCTTCAATATCTGGGATGGTTATAGACAGTGCTTTCTCTAATTTATTTGATCTGATGATGGAACTTGTGGATGTCTACAAGATCCGCCTCCCAAAATTCACTGTATGTATCATTTACTTCGTATTTGTTAGACTGATGTAGATGCAGAGCTGCCAAATATAAATGAATTTCTATTAACTATGGAAGGGGGGGGGGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGGGGGGGGGGGGGGGGGGGACAGATGGAAGATTCCTTCCCAAGGAAGACAAAGAGTCAAAATGTCAAAGTCTACTCTAGGGACTAGTCGATACTAGCTACTGTAGGGACTTACTACCTCTCTTAAAAAAAAAAGAGCTACTCACTGTACTACCATCTTCTCCATCTTTCTTCCAAAATTCTCTTTCCTCTTTTCTTGCTCTGAATTCTATCTTCTTCTCTTTATTTTTGGCTTGTTGTTCTTTCCCGACAATTAAAACGGTTAATCTGAAATATAACGCCATAGAAAGGTTCATAACGGCGTACCACCGCTATGTAACGGAAATGCGCTGAGTTTTGTGTGAGTTCCATGCCACCGTTATATAACGGTGTTCTTGGAACGGTGGGTCTGAAACCCATTACAACTCAGGGGTTCCATAAACAGGCGAGTTTTGTTTCCATGATGTCATCCTTCCATCAAGGGAAAGGTAGAGCTTCTTCCCCCTCGTTAATAACAGGGTGTTAGAGAGTCTTCACACATGGGTTGCCTTTTTTCATTTAAACACCATGGAGAGGACATTAAAATTGTCAAAGTCTGATCACGTGAACTCTCTTCTCCCTCAATCACCTTTCTTAAGGCTGCTTAACAAAGATTCCCTCAAGAATATCAACTATCAACATGAAAAGAATAGGTGACATAGGGTACTATCGGGAATAAGAACCACTCTTCGGGGGCATTATACACCGCCACTCAAACATAAGCATTAGACAAACATCCTCTTATGACTAATCTAGCTCCTCCACAATGAGCTAACCCTTTCCTCTAAAGAACAACATCTAGAAACTCCCGTCTTATCGTATAATTAGCCTTCAAAAAATCTAGCTTAACTTAATCCCCTAAACTACTTCATGATTCGCTTTTTTCACAAATTTCATTGGCCCATTGTATAAAAAGAGGCCCCTTGCACATCAATCATTTTAAACTTTTTTATATATAGTGCGTCCCAATTTAACGTGTCCCCTTTCCTGTTTTCAGTAGTCCCAATTTAGTTTACCCCTTTCTATTTTTGGTAAGGGTTAACTATTTTTGGCAGGGCCTACTATTTTAATTTATAGTTATTTTATCCCACTACTAAAAGTTAAGGTCCGAACACTCTCATTAAATTAAAAAAGTACCAACTATTTTTAATTGTATTAACTTTTTCATTATAATTATATTTGATAACCAAACATCAACATACCTCCTAAAACTATGTGCTCTAATAAGTGGGCACACTAAATTGGGACAGAGAGAGTAATAAGAACATTGGTTGCAAAACAACAATACAACCTAATGTGGGTGCACTAGACGCCACCAACTTTGATCATAGGTGTATATAACAACATAAATGACGTCGAAGAATGGAGAACTAGGAGTTGGAACTTTTTATATTTTTATATTTATGATTTAATTTTAATTGGCGGTACACAACGACACAACGCTATACAGGTGCGTCCACACCACCAACTTTGATAATTTCTGCATGGAGCATGATTTTTTTTTATTTCCCAAATGGAAGTTATTCTCTCACAAATTCTTTTTCTTCACTCTTAATCTAAAATTTTCTCCAAACCACAAATTTACATAAAATGGCAGAGTAAAAAAATCAAAGTTAAAAGACAATAATTATTATTGGTGAACATGATAAAATTGATTTACGGATAACTTTGCCTTTTGTCAAGTTATTGGAATTTTGTCTTTCTACTCCACCTTCTTCCTTGGGCATTCAATTTCCACCTTTTATATTATCAAACATTTACATATATTACTTTTGTATATATGGAGCCAAAGATTCATTTGTTCTTTTGGCTGTGGGATGTAATGGACTAAATCAAAATGGCTCTTAATATCTATTCGCTTCCTTTGCATGGAGTAGAAGATGGTCGTCCCGTTGTCGTCCCGTTATCGTTTTTGGGTCAATTGGAAACAACCTCTCAGCAATTGCAGGGGTAAGGTTGCGTACATCCGACCCCCCCTTACCCCGCTTCTCGCAGGAGCCTCTCTGAGGCAATGGGGTAATGATAATGATGATGACTTTTGTATATATGTTAAGGTATTTTTTTTTATCACTGTTAGAATGGGTTGGAGAAGGGAAAAAAAAATTATAAATTTAGTAGAAAAGAGGGAAATAAGACAAAGCAGAAAATCATAACTAAAAAGTTAGGCTCCGTACGGTACATTTTATGTTTCCAGTTTTCTGTTTTTCACAAAACTAAAAACCAAAAATTGAAAACCATAAAAAGTAGTTTCCAATTTTTTGTTGCCAGTTTTCGAAATCAACACAATTACTATAGGTATGACTATTTTTTGGTTCATAATTCAATCTAATTCATATGACTTTCAGAACCGAAAAACCAAAAACTGGAAACTAACAGTGACCTTAAAGAGTGATTTAGTACTTTAGTACGATCCACAACAAAAGGGAGGTCTTCCAATAAACCATAGCAGCTGAAATAGGCCCTTCAAGGCGTCTATGTGTTATATCACTTACAAATAAATGCGCGTATTGCAAATTTGCAACCATCACAACCAAACTTCACAACATGGATAGTGAAAGGCGAGAAGCTTCGAGAAAGTGCAGAAGATAGTGAGGGTGGGGACTTTAAAACACATTATTTTTACAGAAAAATCATAATGTGCCACGTGTCATTGGTAATCTGCTAAACCAGTTTCTTCCGATCACTGGGTCATTTCGAGAAGGCGCCCATAATAGCTGCAATTATTATGGGATAATCAACAACTGGAATAGTCAATAGTTCCGATTATCATGGGAAGACCACCCTTAGTTGGGATTAATGTTATCAATGAATTCTTTATTATTATATCAAATCTTGCTAATAATGGACTGTCCTTGCAAGTGGGGGAAGTGGGGTTCTTATTTGTATGTCCACAACTCATTTTTCAGTGTTAATTTAATGGGTGAACATTACGCTTCTCTTCAACCTCGTTTCCTGCCCAAGCAATCAAAATGATCACCTCTACTCTTAAGAACCATCATCAAACTCAAATACTCAAAGAATTGGTGTATTGTGTAGTACTCTCCTTGGTTAGTCAAACTTTATAAAAACTGTGAAATAAATGCATCAATGAATGCACTATAAAATGGATGCAGTGTAATATGAAGTCTGATTTGTGCTTGATAGAATGGTATATTATAATTGTGCTAGTCATTAGCAGACAAAGATCTGACTTTGATTCTGATAATAGGTGAAGATGGCAGTGCGGTACATGCGGCGGGTGATTAGGAGGAGGGCAAATTTTGATATCAAGGACCTCAATTCCTTGCAGGTTCAACAAACATCAATTCACAGTAAACACACACAAGCACACACATATACCAATATTGATTCTGTCCCTTATCACCTTCTCTTTGTAAGCTATTATTCAATGGTTCTCTCCTGTGTGTGTGTGCGCTTGCGCTTTTGTGTTTGTGTATGTGCATAGTTGTGTATGGAAACTTAACATCAACTGTAGCCCATCCCATAAGATGACTAATCCATCTTTGCATCCAAGGCTATTTTCCTTCTTGCTTCATGCAAATCAAATTAAAGGACTATGGAAACTTAACAGCAACCTTTCCCCATCCTGTAACACCAGTAAGTACACTAAGTACTGCCTTTGAGAAGGAGCACCCCAAAAAAGGGTTTTATTAATGAAACATGGAAAACCACAGTATCCTCCTTTTTGAAGTTACAAAATCACACTGGATTTCTGGATGCAAATATGTCGGAAAAGAATCATGTACAAAAACCAAGCAAGTAATACTTTCTAAGTCCTTAACAAATTTAGAGGAGGTATCTAGAATAAGCCCCAATTCATCTAATTTGTGCAAAGTTAATAAACAATGTTCGCTAGCTAGTCAGTAACTAAACATTAGTCACGAAGACGTAATCCAGTCCATCAGTGTCCTTCATTGAAGTTTTTTACCTTTATGGTGAAAAGTTTCATAACTAAGCCAAAATCATTATTGCCATTTGTCATAGTCAAGCCCTTAATGAGAACTTCTGAATTTTACAAGCATTGGCATTAAACAGATTGTGCGGCAAAATGTCGAGGAGTTACTTCAAAATAGAGACTAGTAGGGACTAGGGAAATAACCTTGACAGAGCACAAAAAAATCATCAGGTATGTAGAGATGGGTTAGTCATTTTCTTACACCATGTATGCTAGTTGTACCCTGGGGTATGGCATTAGGACCTGCCTCATAAACTTTCTGGATAAAGATTTTATTGAAATAACAAAAAGACAAGGGGAATCGGTCGGTCCCCTTTGAAATAGCCCTGGTTACTGTTAACTAGATTGGAGAATTTTTAGTAAAAGATAAAGCACATTGGTCAATGCATAGATTGACATGGAAAGTCTATCCAATGATATGTTCCTACATTTTCCAACTAAACCAGGTCTTAGCCTTATGAATACTAGTTTTATTGCACGCGATGCATATTTCAATTCCATAAAAAATAAATATATTATATTCTATAAAAGAATTGCATAAGCGTTAGTGAAAAATAAGTAACAGATAAATTATACATGAAACCCTTAAGATACACTCATAAATATAAAAACTTATAAATTGGTTTTCCTCTAATTAGAAAAGGGAAAATATCCAAACTGTATATTAAAAAAAGCTAAATATTTTCCCTAAATATTATTTACTGTACGCTAGTTGTTCATAGAAACTATCTTTACTAATTTAGTTCTTTTTCTGAGCTTGCATTTTATTTATTCATAAAATCAAGGGTAATAAGGGAACTCCTGATTTCTGACGCTACCTCGGAAGTTCCCTTGTATAATAGAGATGTACCTTGTTAGCACTCCACGAAAAACATCTTTCATTTGATTCTGAACTTGCTGCTGTTTTTAATTTTAGTGAAGTACTGATACTTGTATTGTAACGTTTTTATGTTACGCTTCGAAAACATAATATCAAAGCTTTTTTACTCTACTTTTTTGTGCATTTTTTTCTACAACTTTGTTACAGTTTAAAATTAAGTACTTCCAAAGACTCGTGTTTTCTAACAATCAGTAGTTTAACTATTGTTGGAGTGTGGAAGATGGTTCATTCGCAATTTGGTGGTGCACTTTGAACGAAAGAACCAATGGAATTTTGTGGGTAGAGCTTTGAGCTTTCACTTTTCAGGGTTTTAAGTTCCCCTTTTTAAGACTTGTGTGTATCAGGTGTCAAATATAAGGTTTTGAGTGATACTTGGCGTTTCTTGATTTTGTATATATATATATCGTAGATATAACTTGAGGAGTTGAGGGTATCTTTTATCCTTAGCCCTCCTAACAGGTCACTTCCCCTTGGTGTCTTTCCCATTTATATTACGTTATTGAAAGATTTATGGGAGTGCATGCTCCAAAAGCGAATGCCAGGTTTGGTTATTTCCACCGGATATTAGTTTGCTTTGCCGTGTTTGTAGTGAGTCATGCTTACATGTTTTCTTACACTGTGGAATGGAAAGTTACTTTTCGAGGAGATTGTTTGTGATTCATGAGCTATCTTGGGTTTCCGCTTCAGAGATAATGCAAGTTTGCTTTAGGTGGTTTGGTAAGGGTATGGAGAAGAGATTGTTTGACGCAATGCTTTCATGGAAATTATGTGGTGTGTCTGGTTGGATTGGAGAGAAACTCGAGGGTCTTTTCATGAGTTTCATTACCTTCTGGTTTATTGTGGGCCAAGGTCACATATTTAACATCTTTATGGGCTAAGGCTGGTGGGGTTTCAAGAATTACTCTGTTGGGAGATATGAAGTAATTGGGTTAATCTGTAGTTTTATTTTCTAGATCACAGGACAGCTTGTCCTCATTGTTTGTTCTCCTTTTTCCTACTGGCTAATATATATTTTCTTATATGAAAAAAAAGATTTATAGGAACTCTTCCTCTTCGAGTCTATGTCACTGTATATGAATTTTCTCTTCTATGATATATAGTTAACACTCATGATTCCTGCAGGTTGCGAGTCAAACTTTCATTCCTGCTTTGTTGGGACATGCTAATGGGGATAAATTTATTCAACCACACCACTCTGATGTCATCTTTAAATTGTATGCGGTATATATACATGCACATGTCTGTTAAATTTCAGTAAATAATATTGCAAATGGCTGCTTCGTGATTGCTTTTTGTTGCTGGTGTCAACGCAGGGTGATAAAAACATCATAAAATTTGACGGTGATCATAACTCTTCTAGGCCACAGTTCTACTATGACTCGGTTTCCATATTTTTCTATAATACCCTACATCCACCGCAAGTTTCTTCCGTTTGGTCCAATAAGATTGAGGAATGTCATGGCGTGAAAGATCCCGGAGTGGGTGCTGGTATGAATGAGGTAAAATGTTGTGAACGTTTAGCTTTTTAGTATAATGGAAAATTTGTCAATTACTACTTGGGTTGTTAGGGAGTTTGTCAATTACTCCCTCCGTTTCGGAATATTCGCCCCGCTTTGACCGGCATAGAGTTTAAGTCAATTTAATTGACTTATTATTTAATTAGGTGGTAGTTGATAGTGAGATTTTTTTTAATATTAACTAGTGGGAAATGGGTGGGATCTTCGATTTTTTTAATGTTTTTTTTGAGATATTGGAAATATAAGTGGGACCTTAGGTAAGCGAGAAACAATATAAAATTAGAAAAATATGCCATCTATAGAAACGGGGCAAGTATTCCGGGACTGCTTTATAAGGAAAGTGGGGCGAGTATTCCGGGACAGAGGAAGTATTACCTAGGTTGTTAAAAGTTGTCAATTACTAGTTACATTTCTAACAGTTGATGTCAATTTCTACCTTATTCCATACTCCGACCAATTAGTACATCAATGACGCGCCCTTGATCCCTGTTGAACAAGTTATCAAAGTAGAACCTCCATCTATCCTTGATTTTCTTATCTCCCACCAAAACTTTTTGATCAACATCTTTCACACATTTAATCCTCCCGATGTCTCGCATCTTTCTATCTCTCATTCGTCATTCGAGCAAGTCTATAGATTGCTTTTTTTTTTCCCTTCTTTTGTATCCAATCTTGCGTAAAGATCCTGATTCACCTTTGCTCTAGCCTCTCTTACGGCCTTCTTTGCTTCCCTTTTAGCCTCCTTGTACTTCTCGTAGTTCTCATCACTTCTACATTTTCCCAACTCCTTATAGCATTCTCGTTTTCTCTTTATAGCTTGTTGCACAACTTCGTTCCACCAAGATGTGTCCTTACTTGGTGGCACAATTCCTTTAGATTCCCCTAGGACTTCTTTCGCCACTCTCTTTATGGTGTTCTCCATTCTTGTCCATAATGAGTCTATATCCAAATCCATATCCCGGCCCAAATACCTTCACTTGTCACCTTTTCCACGGAGGCACGGATAGGGATAATTCCTTTAAAATAATAAAATCGAGTCACATAAAAATAATTTGAATTCCAAAACGTATTTATAAAATGATTTAAGACTGTGGGGGTATTTTATTCTTGTCCAAGGAGGATCTTTTGCCCTCCTTGCTATCACAAGTTCAATTAGTTCGAGGTAAGGTTCAGAATATGGGTAAACATACTCTTATGGGGCAAACAAAAGGGAATGGAGATAATTCCTGTAAAATAATAAAACTGAATCATATAAGATAATTTTAATTCCCAAAAATATTTATAGAATGATTTAACCTTTATTTTTGTCGAGGGTGGGTGCTATGCGCTCCTTGTTATCACAAGTTCACTAGTTAAAGGAAAGGTTGCAAAATATGGGTAAATTAACAATGAAGTTAAATCTATAATTGGTAATTGAATTTCCCTCTTTTTGCTTGTCAAAACCTTCTCATCCAGATTTGCTTCTCTGTGGACATTTTACTCAAAGTCATTGCACCCAAACTACTGGCTACAAACAGGTACACCCTCTCTGTTGTTGTTGGAGCTAGATGAGGGTAAGGTCCCTGCTGATTTTTGCCACCCTTGCTGTAAAGTAATCCTTGAAGATCATGCAAAACACATAGGAAATGAGGTGAAGGGTGAAGAGAAGAAAGAAAGGACAGGGGAGTGACGGTTTGATGAGTGGTGATTGTGAGATTATAACGGAATTACAGTTTGTTCTTTTTAAATTTTTTATCTTGCTCTCTTATGTGCTGGTTGCATGTTTGAAGTCTATTAATTCATGTTGATCACCACTTGTATTTTTTTGGACTCGGGTAAAGAAAAAAAAATCGTGATCATGGTACTGGTTGTGATGACGTGGAAGTGTGCATTTGGTGAATGTTGATGTGGCACGAATGGAAATGATCCTTTTTATCTTTATAGTTCAAGATATTTAAGAAATATTCTTTAGAAGCTTATCTTGTAGATTTTTTTTATAGGAATAAGAGGTGCTACACAGTCAGGTTGACTAAAATTAGTAATAATCATAATATTATTTTATGTGTTAACTCAATTTTATCCATATAACAGTTTGATAACAGTTTATAGTAGCTAATAAAGTTTTAGTAAAGGTTTTAATGCAGATAACATGATTAGTGCGGAACAGGGTTGTTTTATTTATATCAGCGACACCTTCGGTGCCTTTAGATATGCTGTTTTATCACTTTTTTTTTAATCTCTATTAGACAAGTATAAGCCACGTCTTGAGGTGTTTGGTGTCCACCTAAAATATCTAAAGTACCCTTACTCTTTTATGCTCTAATTTTTTTTATTTTCAATGTTAATATACCGTGAGTTGTCTTATATACATCTTCAAATATTAAGCACTTTCACGTGCATAAATCATAAATACATTGACAAAAGACTAATGTTTGAAGTGATTGGTTGGGTAAAGTATGAAGAGATTGGTTGGGTAGGCTGGAAATATGGTTGGTGTAGAAAAGCTTTAGATATATTTTGTAGTTTTAAAAAAGGTGGCATTGTTTCCGTGTACTCCTAAATTGAATAATACTTTCTTGGACAGTTGAATTGTTAGTTTTATGAAGTATTTTTTGTCTTTTGTTGAGTTTGTAGATGCCATTATTTTGGTCTACTAGTTTTTTCTACAGACTTTTTACTAGATGACACCTCCTTTGCATAAGAGTAAGCAAAAGAAAGATTAAGGGAAAGAAATATGCATAAAGGGAGGAGGGAGGGAGGGAGTAATCACATGGAAAGGGAAAAGATGTCAATTCATGGCAAAAAAATATACCAAATATGGGTATGTAATTAATAGTGAACTTCCATAAAAAGGAAATGTAGCGATTAAAAAAGAGTGGAGGAAGTATTTGTAGTAAAAGTGTAAAACTAGTAATTACAAGACTAGTGCATCTGATCAAAACTGCTTTTTGGAACAAACTATGTCTTCTTTTTCTTTTAGTTTAGAACTAACATGTGTGCATTTTTTCCTTATTTTAGAGGCTGCTGTATGAGATAATATCTAATCTTCATATTGCGAGTACTGATGCTGCAAGCTCATCTTCTGCTCTGCCCAGCTTTTCAACTGCTAAATCTGTTGGAGATATGCTCTCTGAAATTGTACCAGTCTTGGGCACAAATGTATGTATAATTCTTGATCCTAGTTCCAGCTTCCGTTAGTGATATCCATCCTTCTCAACTTCTAGCAATGAACTAAATGTATAAGGAATATTTTTTTATGCATCTGCGAAGTTTTCTTATCTTAATGGGAAAGGGTTTGACCATTAACATTTTGCTGGTGGTAAATGCAGGACGTGATGTCTAATAAAGACATATGTGCAGCTAATGGGTATCTCCAGGTACTATGTAATTTTGTTGTCTTTGGTGTTATTTCAATCTTTTTGTCCTCTCTCCACTTTGTTTTTGTCATTGAAAAGGAATAGATGAGACTTGAATGATTTGTGGAGTGTGTGGACCAAAAATGAATAAATCATCAGCATTATAAAGCTTACACATTCTAGCTTTCTACACAACAACTAAACCAAAACCTTTTCCCCAAAGAGATAGGGTCGTATGCATGAACCGGTAATCTATATCATGTGGTCATCCACAAAAATCGTCCTCTCCGTCACTTTGATCTAATGATGTATCATCTTGCAAGCACACTTTCTCTATGAACTTTTTAACTCCCCCAATAAACGTTGTCTTTGGCCTTCCTCGATTGTGCTTGATATCTTTATTACCCTAACCCTACACTTTCCTTACTAGAGCGTCTTTGCTGGAATCATCGTAATTGATTCTCCCATATCTCATCCTCAATATCCGCCAACCTTCCTCCCAATATGATGGCGTTTCCCACTTCTCGTACATACCAAACATACTCCATCTCTGCCACACCCATCCCTGAACTTTGCTCCTACTAAATTTGAACCCTCTAGATTCTAGTATTTGTCTCCATTGCTCTAACTTAGCATTAACACCACCTTAAGTCTTATCCATTAGAACCATATAATCCGCAAATTGCAAACACCACGGTCCCTTGTCTTGATAGACCTTGTGATGCATGACGATGCATGGGATTGCGTGATTCCCTTCACGTGCGCTTTTACTTGGAGAGCAAGCAAGAATAAGGTGGAGGATTCGTCTTTCGTTGGAGCCAAGGCAACGTGGACGAATTCTACTCCTAGTGGGACTCTCCGTGTCCGAATTTGTTTAGAGTTTTTTTAGAGTTTGTTTAGAGTTGGCTTACATGTTTATACTATCCTACTTGGGGTAGGTTTTCCAGGTTTTAGGCACTTTAGAATTGTTTTGATTTTCAGATTGTCTGTCCTTGTAGAAAACTGATTTCTACTTTGTTTAGGATTTGTTTTAGTCGTAGAACTTTATCTTTTATAGCTGGTTGTTTTGGGTCTTTTCTAAGATTTTTAGGACTCTATTAAGCTTGGGTTTAATTTGGAACATATTTTTTGCCAGATTTCTCTTAGTGTTGGATGAGTGACTTAAGCATAGAACCCTTAGTTTCAGGCGTGTGAATCTTGAATCTAAGCAAGATTAATTTGTTTAGTGAGTGAAGTTAAGCATAAAACCTTAGTTGCAAGCGTGTGAAACCTGAATCTATCCTAGATTGATTTGTTTAGTGAGTGAAGATAAATTAAATCAATCTATACCTATCCGTAAATCGTGAGTTGGTGCGTGAAGCCATACATCAGATTTTGAATCCTTAGGCTACAGCAAATGAGTGAACCTTGTTATATCCCATTATTCTAAGTCTAAACCAGTGTTACAGGGAACGTGGTACGGACCCACGTTCCACGAACCGGATTCTTACGTTTCTGTAACGCATGTGGAACACGAACCGATTCGCTGAACCTTGCTACTTGTGTCAACGAGCCTATGACCCAAATCCCTAAAGGTTTTTCCCTTGCTAGAGGAAGGCCATTAACTTTATTGATTGCAGGTTAGAGGAGGGAGAGAGCATAGAAGAATGAGTTTCCGCTTTTCTTTTGTTTTTCATTTTGTTCAAGGGCTACCCGATTCGCAATGGTTGGGTTTCGCGGTTTTTCTCCCGTACCATGTAACCTTTGTCCAAACGCATGAAAAAACACCCCACCTTGTTACAAACACAACTTTCTTTCTATCACAACCCTCCCCCACCCTAATCTGGGGGAAAACTAGGTCGTTACTAGTCTCTCCTAATCAAACAAATTACCTAAACTAACCACTAAACATAAGTAAAGCAGTAAGCAAGGGTCGGAATCCACAAGGACTAAGGTGCGCTAATTTATGCTAATAAATCGATAAGCTAGGTCGGAATGAGATTTTGAAAAGTCAACTAACCAACTAAACTAAATCAACTAAACTAACTACCAAGGACAAACGAGGTTAGGGAATGGGGTCAAACAACAACGAATCATGGAACGAGCCCAAAAGACGTGAAATAGAGGATAGAACATGAACACCACATGTATGAACGTTGAATTCACGAGTAGCTACATCCACCTCCCGGTATCTAGCAATTTCCCTAAGCATCAAGCATGAACTCCCGTTCTACACTATCATCCCGGGGTAAGTCAAAGTCCAATTCAACCAAATAGTCAAGGCTAGGTCTTTAATCCCTTTCCAACCCAACTAGACTACCTCAAGAAATCATGCAACACCCAAGTAGCTAATTTGAATGCAACAAGTATTGAGAATGCTCAAACATGTAACAATTTAATCATGAAAAATACCAAAGTCCAATCATAAATGCCCAAACCAATCAATGTTGGGTTTTCACCCAAACCCTAACCAATAAACTACTCCATCAACATAAAAATATAAAATTTATATAAATTAACAACTAAAAACATGATTCTAAACATTAATAACAACTAATCTAAACATGAATCGTTAAAATAAACAAAAACAATTAAACTAATTAAAACGATAAAAAAAATAAAGCAATAAATGAAGAAATAAATAAAGAGAGAGATAGAAATTTCTCATTGATTGATTGTTGGTTGCTCAATACAAATTGCCACACTTGAATTTCAAAAGCCCCAATTTTCAATGATTATTTCTCATTTTCTCTCACCAATAAAAACTAAGGAAAAACCCTAAAAATTGAGAGAACTAAACTAATTATGTACATGGTTCTGAAAATTGGTTCAACCTTAAGTATTTATACTCCAACTTAATAAAAAGTAAAAAAAAGAGAAAACAAAAATCCAACAAAAAGAATAATCCAAAACTAATAAAAAGAAAGAAAAAGAAAAGAAGAAAAGAAAAAGGAAAAAGAAAGAGAAAGAGAAAAAGAAATAAAAGAGGAGGAAGCCCACTTTGGTAACCCTCCCGTCATTTTCCTTTCAATGAGGCCCATTTTCATTTTCATCTCCTTCTTCGTATTCGTTTTCCTGTTCTTTGCTGCGCTTTCCTTCGCTCCTCCGTTCTTCGCAGCACCCTCATCACCATCAATCGCATCCATCATCCAACGCCCACCATCATCCAATCATCACCATCAATCATCATTACCAATCATCATCATCTCAAATCACAACCTTCAATCAACATCACCACCGTTTATCTTCCTTCAATCGAGCAACCCAAATAACAACTCAATCGTAGCCTTCCAATTCGGGTTGTACGGCGGTAATCCAAGAAGCTAGCACCACCACCGTCACGTGCAATCATTAATTCCGTACCAATTTGAGCGCTAAATAGGTTCGGACGAACACTTGTGATGTTCGGGCGAACTTTTGTCGGTTTGGGCGAACTCCATTGAGGTTCGACCGAACCTCATACAATCAGGAACTCTAAATTTTGGGTTCGGTCGAACATAAATACGGGTTCGGACGAACCCAATTCCTCTGTTTTTGCTCTGTATTTTACTCTGTTTTCCGGGTTCGATTTTGATTGATTTTGATTGTCTTTTTGCTGGGTTTTGTGCGAATTGGGTTGAGGTGGCCAGTTGTAGTGTTGTTGGTGTATGTGAGATGGTGAGAATTGGATGAGGGCAGGGGTGTGGGTTGGTGTTGTGAGATGAAGGACGAGCTGCAATAGTGGCAGCCGTGGCTGTTGGAATTGAAGGTGGGTTATGCTCGGTGGTACTGTTTTGATGAGAGCTGGGGGCTGCCTTGGTTTGTAATTGCTGCGTGGTGGAGGTGAGAGGAGGAGGGTGTAGGTTAACCAAAAGTGTGGTGCAGGATAGGAAGGAGAGTAGGAAGCTGGCATCTTGTTGCTTTTGAAGCCGTTGACTTTTCTTGACTGACCTTCGAACAATATGGACCTACATAAACAAAATAAAGATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATGTTAAATATAATAGAAAATAGGAATAAATTTAGAAAACTAAAATGAAAACTAAAATAATTAAAATATAAAATTATAAAAACAAGAAAAACAAACAAATTACGAAATTAAGGCCTAAAAACAAAGAAATGTCACTAATTACGCTAATTAAGCTACAAAATTTAAAATAAAATAAATAACGGCTAAAAATGATAAATTAGATAAATATATAATAAAATAGGCTAGAAAAATACCTAAAAACTACCCCTAGGAGTGACATAAATGTCACTCATCAAACTCCCCCAAGCTAAGCTTTTGCTTGTCCTCAAGCAAAACAAGATGAAAACGGAGAGAATGAGATTTATTCAAACAAAACGAAAATAAAGAAAATCAAGGATAAGAATATACACTAACTCACTGTCGTAGGAATCACGGTTGCATTTAAGCACATGCAACAAGCTCTTTAAACCCCTAAATCGCTCTAGAGGGCGAGTGAGATCTCGCAAGGGTTTCCCACAAGATTAACCCATAACTCTTATTAAGCACAATCAAGACATTTCACCCAAAGTCATCTCATCAAGCATGGTTCACCAAACATGGTCGATTTAAACAAACTTTCAAAGCATAACCATCATCAAGATGCATCCATGAATTAGGAATATAAGGAATAGACTAATCTAAGGTGCAAGAGAATCACAATCAAAGCATCGAATCATCAATTAGGCTCACTAAGGCATCCAAAAGTCAAAAATTGTTCTCAAATGAATAAATATGATCACAACCACCTAAAATGCACATTCACTCCCCCAAACTTGACTTTTGCTAAGAGAATCTTGGATTGTAAGATTAAGGGACTTGAGTAA

mRNA sequence

ATGTGCCCCATCATTGTCAGAGATATGATCGAGCAATTCATCAATTTTGTGATTCGACCTCCCAGGGCTGTGTATGATCCAGATCAATACCTATGGGAGAAGAATTTTACACTTGCTGGTAGAGCATTCAGAAGAGAAGATTTGGAGCTTGGAAATGAAAGAGGCCAGACCTTGAAGTGTAGTCATTATGTGCCATCTCTTCAGCCAGAAGATTCCGCTCTTCCTTGTGTTGTATACTGTCATGGCAACAGTGGATGCCGGGCTGATGCAAATGAGGCTGCTGTTGTACTTCTTCCTGCAAATATTACAGTCTTCACTCTGGACTTCTCTGGATCAGGCTTATCTGATGGTAACTATGTCAGCCTTGGATGGCATGAGAAAGACGACCTCAGAGTTGTGGTTTCTTATCTAAGAAGTAATAAATGTGTATCGCGAATAGGACTTTGGGGAAGATCTATGGGTGCTGTTACAAGCCTTCTATATGGATCAGAGGACCCTTCAATATCTGGGATGGTTATAGACAGTGCTTTCTCTAATTTATTTGATCTGATGATGGAACTTGTGGATGTCTACAAGATCCGCCTCCCAAAATTCACTGTGAAGATGGCAGTGCGGTACATGCGGCGGGTGATTAGGAGGAGGGCAAATTTTGATATCAAGGACCTCAATTCCTTGCAGGTTGCGAGTCAAACTTTCATTCCTGCTTTGTTGGGACATGCTAATGGGGATAAATTTATTCAACCACACCACTCTGATGTCATCTTTAAATTGTATGCGGGTGATAAAAACATCATAAAATTTGACGGTGATCATAACTCTTCTAGGCCACAGTTCTACTATGACTCGGTTTCCATATTTTTCTATAATACCCTACATCCACCGCAAGTTTCTTCCGTTTGGTCCAATAAGATTGAGGAATGTCATGGCGTGAAAGATCCCGGAGTGGGTGCTGGTATGAATGAGAGGCTGCTGTATGAGATAATATCTAATCTTCATATTGCGAGTACTGATGCTGCAAGCTCATCTTCTGCTCTGCCCAGCTTTTCAACTGCTAAATCTGTTGGAGATATGCTCTCTGAAATTGTACCAGTCTTGGGCACAAATGACGTGATGTCTAATAAAGACATATGTGCAGCTAATGGGTATCTCCAGGTTAGAGGAGGGAGAGAGCATAGAAGAATGAGTTTCCGCTTTTCTTTTGTTTTTCATTTTGTTCAAGGGCTACCCGATTCGCAATGGTTGGGTTTCGCGGTTTTTCTCCCGTACCATACTAATCTAAGGTGCAAGAGAATCACAATCAAAGCATCGAATCATCAATTAGGCTCACTAAGGCATCCAAAAGTCAAAAATTGTTCTCAAATGAATAAATATGATCACAACCACCTAAAATGCACATTCACTCCCCCAAACTTGACTTTTGCTAAGAGAATCTTGGATTGTAAGATTAAGGGACTTGAGTAA

Coding sequence (CDS)

ATGTGCCCCATCATTGTCAGAGATATGATCGAGCAATTCATCAATTTTGTGATTCGACCTCCCAGGGCTGTGTATGATCCAGATCAATACCTATGGGAGAAGAATTTTACACTTGCTGGTAGAGCATTCAGAAGAGAAGATTTGGAGCTTGGAAATGAAAGAGGCCAGACCTTGAAGTGTAGTCATTATGTGCCATCTCTTCAGCCAGAAGATTCCGCTCTTCCTTGTGTTGTATACTGTCATGGCAACAGTGGATGCCGGGCTGATGCAAATGAGGCTGCTGTTGTACTTCTTCCTGCAAATATTACAGTCTTCACTCTGGACTTCTCTGGATCAGGCTTATCTGATGGTAACTATGTCAGCCTTGGATGGCATGAGAAAGACGACCTCAGAGTTGTGGTTTCTTATCTAAGAAGTAATAAATGTGTATCGCGAATAGGACTTTGGGGAAGATCTATGGGTGCTGTTACAAGCCTTCTATATGGATCAGAGGACCCTTCAATATCTGGGATGGTTATAGACAGTGCTTTCTCTAATTTATTTGATCTGATGATGGAACTTGTGGATGTCTACAAGATCCGCCTCCCAAAATTCACTGTGAAGATGGCAGTGCGGTACATGCGGCGGGTGATTAGGAGGAGGGCAAATTTTGATATCAAGGACCTCAATTCCTTGCAGGTTGCGAGTCAAACTTTCATTCCTGCTTTGTTGGGACATGCTAATGGGGATAAATTTATTCAACCACACCACTCTGATGTCATCTTTAAATTGTATGCGGGTGATAAAAACATCATAAAATTTGACGGTGATCATAACTCTTCTAGGCCACAGTTCTACTATGACTCGGTTTCCATATTTTTCTATAATACCCTACATCCACCGCAAGTTTCTTCCGTTTGGTCCAATAAGATTGAGGAATGTCATGGCGTGAAAGATCCCGGAGTGGGTGCTGGTATGAATGAGAGGCTGCTGTATGAGATAATATCTAATCTTCATATTGCGAGTACTGATGCTGCAAGCTCATCTTCTGCTCTGCCCAGCTTTTCAACTGCTAAATCTGTTGGAGATATGCTCTCTGAAATTGTACCAGTCTTGGGCACAAATGACGTGATGTCTAATAAAGACATATGTGCAGCTAATGGGTATCTCCAGGTTAGAGGAGGGAGAGAGCATAGAAGAATGAGTTTCCGCTTTTCTTTTGTTTTTCATTTTGTTCAAGGGCTACCCGATTCGCAATGGTTGGGTTTCGCGGTTTTTCTCCCGTACCATACTAATCTAAGGTGCAAGAGAATCACAATCAAAGCATCGAATCATCAATTAGGCTCACTAAGGCATCCAAAAGTCAAAAATTGTTCTCAAATGAATAAATATGATCACAACCACCTAAAATGCACATTCACTCCCCCAAACTTGACTTTTGCTAAGAGAATCTTGGATTGTAAGATTAAGGGACTTGAGTAA

Protein sequence

MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECHGVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSEIVPVLGTNDVMSNKDICAANGYLQVRGGREHRRMSFRFSFVFHFVQGLPDSQWLGFAVFLPYHTNLRCKRITIKASNHQLGSLRHPKVKNCSQMNKYDHNHLKCTFTPPNLTFAKRILDCKIKGLE
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Spo09787.1Spo09787.1mRNA


Homology
[Close]
BLAST of Spo09787.1 vs. NCBI nr
Match: gi|902154091|gb|KNA05783.1| (hypothetical protein SOVF_187260, partial [Spinacia oleracea])

HSP 1 Score: 726.5 bits (1874), Expect = 3.100e-206
Identity = 363/384 (94.53%), Postives = 365/384 (95.05%), Query Frame = 1 

		  

Query: 1   MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKC 60
           MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKC
Sbjct: 1   MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKC 60

Query: 61  SHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYV 120
           SHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYV
Sbjct: 61  SHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYV 120

Query: 121 SLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNL 180
           SLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNL
Sbjct: 121 SLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNL 180

Query: 181 FDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHA 240
           FDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHA
Sbjct: 181 FDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHA 240

Query: 241 NGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVW 300
           NGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVW
Sbjct: 241 NGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVW 300

Query: 301 SNKIEECHGVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSE 360
           SNKIEECHGVKDPGVGAGMN     EI  ++ I     A    A  SFSTAKSVGDMLSE
Sbjct: 301 SNKIEECHGVKDPGVGAGMN-----EICFSVDILLKVIAPKLLATNSFSTAKSVGDMLSE 360

Query: 361 IVPVLGTNDVMSNKDICAANGYLQ 385
           IVPVLGTNDVMSNKDICAANGYLQ
Sbjct: 361 IVPVLGTNDVMSNKDICAANGYLQ 379
[Close]
BLAST of Spo09787.1 vs. NCBI nr
Match: gi|731350611|ref|XP_010686591.1| (PREDICTED: uncharacterized protein LOC104900779 isoform X4 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 641.3 bits (1653), Expect = 1.300e-180
Identity = 320/396 (80.81%), Postives = 350/396 (88.38%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRAVYDPDQYLWEK FTLAGRA++REDLEL + RG+TLKCSHY+P L 
Sbjct: 1   MIEQFINFVIRPPRAVYDPDQYLWEKEFTLAGRAYKREDLELESGRGETLKCSHYMPYLN 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PEDSALPCVVYCHGNSGCRADANEA  VLLPANITVFTLDFSGSGLS+GNYVSLGWHEKD
Sbjct: 61  PEDSALPCVVYCHGNSGCRADANEAVTVLLPANITVFTLDFSGSGLSEGNYVSLGWHEKD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DLRVVV+YLRS   VS IGLWGRSMGAVTSLLYGSEDPSISGMV+DSAFSNLFDLMMELV
Sbjct: 121 DLRVVVAYLRSKDHVSHIGLWGRSMGAVTSLLYGSEDPSISGMVLDSAFSNLFDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI+RRA FDI+DLN +QV+S+TFIPAL GHA+GDKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVKYMRRVIQRRAKFDIRDLNLVQVSSKTFIPALFGHADGDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+IFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPP VSSVWS +IEECH
Sbjct: 241 HHSDIIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPHVSSVWSKRIEECH 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALP-SFSTAKSVGDMLSEIVPVLGT 368
            +KD  VGAGM+E LLYEIISNL I  T AA+SSS+ P SFSTAKSVG         L T
Sbjct: 301 SLKDLRVGAGMDETLLYEIISNLRIGGTGAAASSSSPPTSFSTAKSVG---------LST 360

Query: 369 NDVMSNKDICAANGYLQVRGGREHRRMSFRFSFVFH 404
           ND+MSN DICAA+G++Q+   +E  R+ ++F   FH
Sbjct: 361 NDMMSNDDICAADGFIQISLCKE--RLPWKFLSFFH 385
[Close]
BLAST of Spo09787.1 vs. NCBI nr
Match: gi|731350605|ref|XP_010686588.1| (PREDICTED: uncharacterized protein LOC104900779 isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 637.1 bits (1642), Expect = 2.500e-179
Identity = 315/377 (83.55%), Postives = 340/377 (90.19%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRAVYDPDQYLWEK FTLAGRA++REDLEL + RG+TLKCSHY+P L 
Sbjct: 1   MIEQFINFVIRPPRAVYDPDQYLWEKEFTLAGRAYKREDLELESGRGETLKCSHYMPYLN 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PEDSALPCVVYCHGNSGCRADANEA  VLLPANITVFTLDFSGSGLS+GNYVSLGWHEKD
Sbjct: 61  PEDSALPCVVYCHGNSGCRADANEAVTVLLPANITVFTLDFSGSGLSEGNYVSLGWHEKD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DLRVVV+YLRS   VS IGLWGRSMGAVTSLLYGSEDPSISGMV+DSAFSNLFDLMMELV
Sbjct: 121 DLRVVVAYLRSKDHVSHIGLWGRSMGAVTSLLYGSEDPSISGMVLDSAFSNLFDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI+RRA FDI+DLN +QV+S+TFIPAL GHA+GDKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVKYMRRVIQRRAKFDIRDLNLVQVSSKTFIPALFGHADGDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+IFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPP VSSVWS +IEECH
Sbjct: 241 HHSDIIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPHVSSVWSKRIEECH 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALP-SFSTAKSVGDMLSEIVPVLGT 368
            +KD  VGAGM+E LLYEIISNL I  T AA+SSS+ P SFSTAKSVG         L T
Sbjct: 301 SLKDLRVGAGMDETLLYEIISNLRIGGTGAAASSSSPPTSFSTAKSVG---------LST 360

Query: 369 NDVMSNKDICAANGYLQ 385
           ND+MSN DICAA+G++Q
Sbjct: 361 NDMMSNDDICAADGFIQ 368
[Close]
BLAST of Spo09787.1 vs. NCBI nr
Match: gi|731438503|ref|XP_010647089.1| (PREDICTED: uncharacterized protein LOC100242843 [Vitis vinifera])

HSP 1 Score: 588.6 bits (1516), Expect = 1.000e-164
Identity = 288/368 (78.26%), Postives = 328/368 (89.13%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRA Y+PDQYLWEK+FTLAGR ++R+DLEL N RG TL CSHYVPS  
Sbjct: 1   MIEQFINFVIRPPRAEYNPDQYLWEKDFTLAGRTYKRQDLELTNGRGHTLHCSHYVPSPF 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PED+ LPCV+YCHGNSGCRADANEAAV+LLP+NITVFTLDFSGSGLSDG+YVSLGWHE+D
Sbjct: 61  PEDTPLPCVIYCHGNSGCRADANEAAVILLPSNITVFTLDFSGSGLSDGDYVSLGWHERD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DL+VVVS+LRSNK +SRIGLWGRSMGAVTSLLYG+EDPSI+GMV+DSAFSNLFDLMMELV
Sbjct: 121 DLKVVVSHLRSNKQISRIGLWGRSMGAVTSLLYGAEDPSIAGMVLDSAFSNLFDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI+++A FDI DLN LQVA +TFIPAL GHA  DKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVQYMRRVIQKKAKFDIMDLNCLQVAPKTFIPALFGHATEDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+IFK Y+GDKNIIKFDGDHNSSRPQFYYDSVSIFFYN LHPPQVSSV+ +K+++ +
Sbjct: 241 HHSDIIFKSYSGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNVLHPPQVSSVYPSKLDKYY 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSEIVPVLGTN 368
            + D  +GAGM+ER+LYEII+ L  A TDAASSSSA PS S+ K VG+ LSEI PV  T+
Sbjct: 301 DLGDLKIGAGMDERVLYEIIAGLRTAGTDAASSSSAPPSISSTKFVGEFLSEIAPV--TS 360

Query: 369 DVMSNKDI 377
             M N++I
Sbjct: 361 VSMLNEEI 366
[Close]
BLAST of Spo09787.1 vs. NCBI nr
Match: gi|731350609|ref|XP_010686590.1| (PREDICTED: uncharacterized protein LOC104900779 isoform X3 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 575.9 bits (1483), Expect = 6.800e-161
Identity = 281/340 (82.65%), Postives = 304/340 (89.41%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRAVYDPDQYLWEK FTLAGRA++REDLEL + RG+TLKCSHY+P L 
Sbjct: 1   MIEQFINFVIRPPRAVYDPDQYLWEKEFTLAGRAYKREDLELESGRGETLKCSHYMPYLN 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PEDSALPCVVYCHGNSGCRADANEA  VLLPANITVFTLDFSGSGLS+GNYVSLGWHEKD
Sbjct: 61  PEDSALPCVVYCHGNSGCRADANEAVTVLLPANITVFTLDFSGSGLSEGNYVSLGWHEKD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DLRVVV+YLRS   VS IGLWGRSMGAVTSLLYGSEDPSISGMV+DSAFSNLFDLMMELV
Sbjct: 121 DLRVVVAYLRSKDHVSHIGLWGRSMGAVTSLLYGSEDPSISGMVLDSAFSNLFDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI+RRA FDI+DLN +QV+S+TFIPAL GHA+GDKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVKYMRRVIQRRAKFDIRDLNLVQVSSKTFIPALFGHADGDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+IFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPP VSSVWS +IEECH
Sbjct: 241 HHSDIIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPHVSSVWSKRIEECH 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSF 349
            +KD  VGAGM+E    +++SN  I + D         SF
Sbjct: 301 SLKDLRVGAGMDE----DMMSNDDICAADGFIQDKVNGSF 336
[Close]
BLAST of Spo09787.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QGI3_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_187260 PE=4 SV=1)

HSP 1 Score: 726.5 bits (1874), Expect = 2.200e-206
Identity = 363/384 (94.53%), Postives = 365/384 (95.05%), Query Frame = 1 

		  

Query: 1   MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKC 60
           MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKC
Sbjct: 1   MCPIIVRDMIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKC 60

Query: 61  SHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYV 120
           SHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYV
Sbjct: 61  SHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYV 120

Query: 121 SLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNL 180
           SLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNL
Sbjct: 121 SLGWHEKDDLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNL 180

Query: 181 FDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHA 240
           FDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHA
Sbjct: 181 FDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHA 240

Query: 241 NGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVW 300
           NGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVW
Sbjct: 241 NGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVW 300

Query: 301 SNKIEECHGVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSE 360
           SNKIEECHGVKDPGVGAGMN     EI  ++ I     A    A  SFSTAKSVGDMLSE
Sbjct: 301 SNKIEECHGVKDPGVGAGMN-----EICFSVDILLKVIAPKLLATNSFSTAKSVGDMLSE 360

Query: 361 IVPVLGTNDVMSNKDICAANGYLQ 385
           IVPVLGTNDVMSNKDICAANGYLQ
Sbjct: 361 IVPVLGTNDVMSNKDICAANGYLQ 379
[Close]
BLAST of Spo09787.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BWF4_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g184190 PE=4 SV=1)

HSP 1 Score: 637.1 bits (1642), Expect = 1.700e-179
Identity = 315/377 (83.55%), Postives = 340/377 (90.19%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRAVYDPDQYLWEK FTLAGRA++REDLEL + RG+TLKCSHY+P L 
Sbjct: 1   MIEQFINFVIRPPRAVYDPDQYLWEKEFTLAGRAYKREDLELESGRGETLKCSHYMPYLN 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PEDSALPCVVYCHGNSGCRADANEA  VLLPANITVFTLDFSGSGLS+GNYVSLGWHEKD
Sbjct: 61  PEDSALPCVVYCHGNSGCRADANEAVTVLLPANITVFTLDFSGSGLSEGNYVSLGWHEKD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DLRVVV+YLRS   VS IGLWGRSMGAVTSLLYGSEDPSISGMV+DSAFSNLFDLMMELV
Sbjct: 121 DLRVVVAYLRSKDHVSHIGLWGRSMGAVTSLLYGSEDPSISGMVLDSAFSNLFDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI+RRA FDI+DLN +QV+S+TFIPAL GHA+GDKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVKYMRRVIQRRAKFDIRDLNLVQVSSKTFIPALFGHADGDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+IFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPP VSSVWS +IEECH
Sbjct: 241 HHSDIIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPHVSSVWSKRIEECH 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALP-SFSTAKSVGDMLSEIVPVLGT 368
            +KD  VGAGM+E LLYEIISNL I  T AA+SSS+ P SFSTAKSVG         L T
Sbjct: 301 SLKDLRVGAGMDETLLYEIISNLRIGGTGAAASSSSPPTSFSTAKSVG---------LST 360

Query: 369 NDVMSNKDICAANGYLQ 385
           ND+MSN DICAA+G++Q
Sbjct: 361 NDMMSNDDICAADGFIQ 368
[Close]
BLAST of Spo09787.1 vs. UniProtKB/TrEMBL
Match: A0A061GIU0_THECC (Alpha/beta-Hydrolases superfamily protein isoform 1 OS=Theobroma cacao GN=TCM_030483 PE=4 SV=1)

HSP 1 Score: 572.8 bits (1475), Expect = 4.000e-160
Identity = 275/364 (75.55%), Postives = 322/364 (88.46%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MI+QFINFVIRPPRA Y+PDQYLWE+ FTLAGR ++R+DLEL N RG  L+CSHY+PS  
Sbjct: 1   MIDQFINFVIRPPRADYNPDQYLWEREFTLAGRQYKRQDLELTNARGYMLRCSHYMPSPF 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           P+++ LPCV+YCHGNSGCRADANEAAV+LLP+NITVFTLDFSGSGLSDG+YVSLGWHE+D
Sbjct: 61  PKETPLPCVIYCHGNSGCRADANEAAVILLPSNITVFTLDFSGSGLSDGDYVSLGWHERD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DL++VVSYLRS K +SRIGLWGRSMGAVTSLLYG+EDPSI+GMV+DSAFSNLFDLMMELV
Sbjct: 121 DLKIVVSYLRSEKQISRIGLWGRSMGAVTSLLYGAEDPSIAGMVLDSAFSNLFDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI+++A FDI DLN L+VA +TFIPAL GHA+ DKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVQYMRRVIQKKAKFDIMDLNCLKVAPKTFIPALFGHASNDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+I KLYAGDKN+IKFDGDHNSSRPQFYYDSVSIFFYN LHPPQ+SS  S+K+E+ +
Sbjct: 241 HHSDLILKLYAGDKNVIKFDGDHNSSRPQFYYDSVSIFFYNVLHPPQISSTCSSKLEKYY 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSEIVPVLGTN 368
            + D  VGAGM+E LLYEII+ L  AST+AASSSSA PS  T K V ++LSE+ P+   +
Sbjct: 301 DLGDLKVGAGMDESLLYEIITGLQSASTNAASSSSAPPSILTTKPVNELLSEVAPLSRLD 360

Query: 369 DVMS 373
            ++S
Sbjct: 361 SMLS 364
[Close]
BLAST of Spo09787.1 vs. UniProtKB/TrEMBL
Match: K7MJ87_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_17G003700 PE=4 SV=1)

HSP 1 Score: 566.6 bits (1459), Expect = 2.900e-158
Identity = 273/359 (76.04%), Postives = 318/359 (88.58%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRA Y+PDQYLWEK FTL GR ++R+DLEL N RG TLKCSHY+PS  
Sbjct: 1   MIEQFINFVIRPPRAEYNPDQYLWEKEFTLTGRTYQRQDLELKNTRGYTLKCSHYLPSPF 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PED++LPCV+YCHGNSGCRADANEAAV+LLP+NITVFTLDFSGSGLSDG+YVSLGWHEKD
Sbjct: 61  PEDTSLPCVIYCHGNSGCRADANEAAVILLPSNITVFTLDFSGSGLSDGDYVSLGWHEKD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DL++VVSYLRSNK +SRIGLWGRSMGAVTSLLYG+EDPSI+GMV+DSAFSNL+DLMMELV
Sbjct: 121 DLKMVVSYLRSNKQISRIGLWGRSMGAVTSLLYGAEDPSIAGMVLDSAFSNLYDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI ++A FDI +LN LQVA +TFIP L GHA+ DKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVQYMRRVIEKKAKFDIMNLNCLQVAPKTFIPVLFGHASDDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+I + YAGDKN+IKFDGDHNSSRPQF+YDSVSIFFYN LHPP V    ++K+E+ +
Sbjct: 241 HHSDLISEAYAGDKNVIKFDGDHNSSRPQFFYDSVSIFFYNVLHPPNVPR--AHKLEKYY 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSEIVPVLGT 368
            + D  +G+G++E LLYEI+S+L  ASTDAASSSS LP+ S+ KSV ++LSE+ PV  T
Sbjct: 301 NLGDLKLGSGVDESLLYEILSSLRSASTDAASSSSVLPAISSTKSVSELLSEVAPVTDT 357
[Close]
BLAST of Spo09787.1 vs. UniProtKB/TrEMBL
Match: K7L419_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_07G270200 PE=4 SV=1)

HSP 1 Score: 564.7 bits (1454), Expect = 1.100e-157
Identity = 275/378 (72.75%), Postives = 327/378 (86.51%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MIEQFINFVIRPPRA Y+PDQYLWEK FTLAGR ++R+DLEL N RG TLKCSHY+PS  
Sbjct: 1   MIEQFINFVIRPPRAEYNPDQYLWEKEFTLAGRTYQRQDLELKNTRGYTLKCSHYLPSPF 60

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
           PED++LPCV+YCHGNSGCRADANEAAV+LLP+NITVFTLDFSGSGLSDG+YVSLGWHEKD
Sbjct: 61  PEDTSLPCVIYCHGNSGCRADANEAAVILLPSNITVFTLDFSGSGLSDGDYVSLGWHEKD 120

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DL++VVSYLRSNK +S IGLWGRSMGAVTSLLYG+EDPSI+GMV+DSAFSNL+DLMMELV
Sbjct: 121 DLKMVVSYLRSNKQISCIGLWGRSMGAVTSLLYGAEDPSIAGMVLDSAFSNLYDLMMELV 180

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVKMAV+YMRRVI ++A FDI +LN LQVA +TFIP L GHA+ DKFIQP
Sbjct: 181 DVYKIRLPKFTVKMAVQYMRRVIEKKAKFDIMNLNCLQVAPKTFIPVLFGHASDDKFIQP 240

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+I + YAGDKN+IKFDGDHNSSRPQF+YDSVSIFFYN LHPP V    ++K+E+ +
Sbjct: 241 HHSDLISEAYAGDKNVIKFDGDHNSSRPQFFYDSVSIFFYNVLHPPNVPR--AHKLEKYY 300

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSEIVPVLGTN 368
            + D  +G+G++E LLYEI+S+L  AST+AASSSS LP+ S+ KSV ++LSE+ PV  T+
Sbjct: 301 DLGDLKLGSGVDESLLYEILSSLRSASTEAASSSSVLPTISSTKSVSELLSEVAPV--TD 360

Query: 369 DVMSNKDICAANGYLQVR 387
           +    +D    +G+  V+
Sbjct: 361 ESFFGEDTDGNDGHTDVQ 374
[Close]
BLAST of Spo09787.1 vs. ExPASy Swiss-Prot
Match: YQKD_BACSU (Uncharacterized protein YqkD OS=Bacillus subtilis (strain 168) GN=yqkD PE=4 SV=1)

HSP 1 Score: 67.0 bits (162), Expect = 6.400e-10
Identity = 62/225 (27.56%), Postives = 100/225 (44.44%), Query Frame = 1 

		  

Query: 55  GQTLKCSHYVPSLQPEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGL 114
           G  +K  H  P   P       ++ CHG +    ++ +   + L     V   D    G 
Sbjct: 67  GYDIKGYHVAPHDTPNT-----IIICHGVTMNVLNSLKYMHLFLDLGWNVLIYDHRRHGQ 126

Query: 115 SDGNYVSLGWHEKDDLRVVVSYLRSNKCVSR--IGLWGRSMGAVTSLLYGSEDPSISG-- 174
           S G   S G++EKDDL  VVS L+ NK   R  IG+ G SMGAVT+LLY     S     
Sbjct: 127 SGGKTTSYGFYEKDDLNKVVSLLK-NKTNHRGLIGIHGESMGAVTALLYAGAHCSDGADF 186

Query: 175 MVIDSAFSNLFDLMMELVDVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQ 234
            + D  F+  FD  +      + RLP + +     +    ++ R  +  ++++ L V  +
Sbjct: 187 YIADCPFA-CFDEQLAYRLRAEYRLPSWPLLPIADFF---LKLRGGYRAREVSPLAVIDK 246

Query: 235 TFIPALLGHANGDKFIQPHHSDVIFKLYAGDKNI-IKFDGDHNSS 275
              P L  H+  D +I    ++ +++   G K + I  +G+H  S
Sbjct: 247 IEKPVLFIHSKDDDYIPVSSTERLYEKKRGPKALYIAENGEHAMS 281
[Close]
BLAST of Spo09787.1 vs. TAIR (Arabidopsis)
Match: AT4G17150.1 (alpha/beta-Hydrolases superfamily protein)

HSP 1 Score: 540.0 bits (1390), Expect = 1.500e-153
Identity = 259/363 (71.35%), Postives = 306/363 (84.30%), Query Frame = 1 

		  

Query: 9   MIEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQ 68
           MI+QFINFVIRPPRA YDPDQYLWEK F+L G   +R+DLEL N RG TL+CSHYVPS  
Sbjct: 10  MIDQFINFVIRPPRAEYDPDQYLWEKEFSLGGTKCKRQDLELTNSRGHTLRCSHYVPSSS 69

Query: 69  PEDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKD 128
            ED+ LPCV+YCHGNSGCRADANEA +VLLP+NITVFTLDFSGSGLS+G+YVSLGWHEKD
Sbjct: 70  REDTPLPCVIYCHGNSGCRADANEAVMVLLPSNITVFTLDFSGSGLSEGDYVSLGWHEKD 129

Query: 129 DLRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELV 188
           DL+ VVSYLR++  VSRIGLWGRSMGAVTSLLYG+EDPSI+GMV+DSAFSNLFDLMMELV
Sbjct: 130 DLKTVVSYLRNSNQVSRIGLWGRSMGAVTSLLYGAEDPSIAGMVLDSAFSNLFDLMMELV 189

Query: 189 DVYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQP 248
           DVYKIRLPKFTVK+AV+YMRR+I+++A F+I DLN ++V+ +TFIPAL GHA+GDKFIQP
Sbjct: 190 DVYKIRLPKFTVKVAVQYMRRIIQKKAKFNIMDLNCVKVSPKTFIPALFGHASGDKFIQP 249

Query: 249 HHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQVSSVWSNKIEECH 308
           HHSD+I K YAGDKNIIKFDGDHNSSRPQ YYDSV +FFYN L PP +SS +S+K+E  +
Sbjct: 250 HHSDLILKCYAGDKNIIKFDGDHNSSRPQSYYDSVLVFFYNVLRPPPISSSYSSKLESYY 309

Query: 309 GVKDPGVGAGMNERLLYEIISNLHIASTDAASSSSALPSFSTAKSVGDMLSEIVPVLGTN 368
            + D     G++E  LYEIIS L  A  D ASSSSA P+  T K   ++LSE +P++ T+
Sbjct: 310 SLGDVNSATGLDESFLYEIISGLRSACIDVASSSSAPPAPLTTKPTNELLSEAMPMIDTD 369

Query: 369 DVM 372
            V+
Sbjct: 370 TVL 372
[Close]
BLAST of Spo09787.1 vs. TAIR (Arabidopsis)
Match: AT4G14290.1 (alpha/beta-Hydrolases superfamily protein)

HSP 1 Score: 422.2 bits (1084), Expect = 4.400e-118
Identity = 193/287 (67.25%), Postives = 241/287 (83.97%), Query Frame = 1 

		  

Query: 10  IEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQP 69
           +EQ +NFVIRPPRA Y+P+  L E+ F L GR ++R+DLE+ N RG  L+CSHY+P  +P
Sbjct: 1   MEQLVNFVIRPPRAEYNPEHDLLEQEFLLKGRWYQRKDLEVKNIRGDILQCSHYMPVERP 60

Query: 70  EDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKDD 129
           ED  LPCV+YCHGNSGCRADA+EAA+VLLP+NIT+FTLDFSGSGLS G +V+LGW+EKDD
Sbjct: 61  EDRPLPCVIYCHGNSGCRADASEAAIVLLPSNITIFTLDFSGSGLSGGEHVTLGWNEKDD 120

Query: 130 LRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELVD 189
           L+ VV YLR++  VS IGLWGRSMGAVTSL+YG+EDPSI+ MV+DS FS+L DLMMELVD
Sbjct: 121 LKAVVEYLRTDGNVSLIGLWGRSMGAVTSLMYGAEDPSIAAMVLDSPFSDLVDLMMELVD 180

Query: 190 VYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQPH 249
            YK RLPKFT+K A++YMRR ++++ANF+I DLN+++VA   F+P L GHA  D FIQPH
Sbjct: 181 TYKFRLPKFTIKFAIQYMRRAVQKKANFNITDLNTIKVAKSCFVPVLFGHAVDDDFIQPH 240

Query: 250 HSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQV 297
           HS+ I++ Y GDKNIIKFDGDHNS RPQFY+DS++IFF+N L PP+V
Sbjct: 241 HSERIYEAYIGDKNIIKFDGDHNSPRPQFYFDSINIFFHNVLQPPEV 287
[Close]
BLAST of Spo09787.1 vs. TAIR (Arabidopsis)
Match: AT3G23540.1 (alpha/beta-Hydrolases superfamily protein)

HSP 1 Score: 412.9 bits (1060), Expect = 2.700e-115
Identity = 187/287 (65.16%), Postives = 236/287 (82.23%), Query Frame = 1 

		  

Query: 10  IEQFINFVIRPPRAVYDPDQYLWEKNFTLAGRAFRREDLELGNERGQTLKCSHYVPSLQP 69
           ++Q +NF+IRPPRA YDP+  L EK F + GR ++R+DLE+ N RG  L+CSHY+P  +P
Sbjct: 1   MDQLVNFIIRPPRAEYDPEHDLLEKKFMMKGRWYQRKDLEVKNSRGDVLQCSHYMPVERP 60

Query: 70  EDSALPCVVYCHGNSGCRADANEAAVVLLPANITVFTLDFSGSGLSDGNYVSLGWHEKDD 129
           E   LPCV+YCHGNSGCRAD +EAA+VLLP+NITVFTLDFSGSGLS G +V+LGW+EKDD
Sbjct: 61  EGKPLPCVIYCHGNSGCRADGSEAAIVLLPSNITVFTLDFSGSGLSGGEHVTLGWNEKDD 120

Query: 130 LRVVVSYLRSNKCVSRIGLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDLMMELVD 189
           L+ VV +LR +  +S IGLWGRSMGAVTSL+YG EDPSI+GM++DS FS+L DLMMELVD
Sbjct: 121 LKAVVEFLRQDGNISLIGLWGRSMGAVTSLMYGVEDPSIAGMILDSPFSDLVDLMMELVD 180

Query: 190 VYKIRLPKFTVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPALLGHANGDKFIQPH 249
            YK RLPKFTVK A+++MRR I+++A FDI +LN+++VA  +F+P L GHA  D FI+PH
Sbjct: 181 TYKFRLPKFTVKFAIQFMRRAIQKKAKFDIMELNTIKVAKASFVPVLFGHALDDDFIRPH 240

Query: 250 HSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNTLHPPQV 297
           HSD I++ Y GDKNIIKF GDHNS RP FY+DS++IFF+N L PP+V
Sbjct: 241 HSDRIYEAYVGDKNIIKFPGDHNSPRPPFYFDSINIFFHNVLQPPEV 287
[Close]
BLAST of Spo09787.1 vs. TAIR (Arabidopsis)
Match: AT2G19550.1 (alpha/beta-Hydrolases superfamily protein)

HSP 1 Score: 50.4 bits (119), Expect = 3.500e-6
Identity = 62/235 (26.38%), Postives = 97/235 (41.28%), Query Frame = 1 

		  

Query: 70  EDSALPCVVYCHGNSGCRADA--NEAAVVLLPANITVFTLDFSGSGLSDGN--YVSLGWH 129
           E  +   VV CHG    + +      A  L    I+ F  DFSG+G S+G   Y +    
Sbjct: 22  ETGSKEVVVLCHGFRSDKTNKILKNVATALEKEKISSFRFDFSGNGDSEGTFYYGNFNSE 81

Query: 130 EKDDLRVVVSYLRSNKCVSRI--GLWGRSMGAVTSLLYGSEDPSISGMVIDSAFSNLFDL 189
            +DDL  V+ +L S+  ++R+   + G S G    LLY S+ P     V++   S  FDL
Sbjct: 82  AEDDLHYVIQHLSSSNIMNRLVPVILGHSKGGDVVLLYASKFPDYIRNVVN--ISGRFDL 141

Query: 190 M--MELVDVY--KIRLPKF----TVKMAVRYMRRVIRRRANFDIKDLNSLQVASQTFIPA 249
              + L D Y  KI+   F      K   R  +  +  R N D+     L +  Q  +  
Sbjct: 142 KNDVRLGDGYIEKIKEQGFIDATEGKSCFRVTQESLMDRLNTDMHQA-CLNIDKQCKV-- 201

Query: 250 LLGHANGDKFIQPHHSDVIFKLYAGDKNIIKFDGDHNSSRPQFYYDSVSIFFYNT 291
           L  H + D  +    +    K+    K  I    +H  ++ Q    S+++ F  T
Sbjct: 202 LTVHGSDDTVVPGEDAKEFAKVIPNHKLEIVEGANHGYTKHQKELVSIAVEFTKT 251
The following BLAST results are available for this feature:
BLAST of Spo09787.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902154091|gb|KNA05783.1|3.1e-20694.5hypothetical protein SOVF_1872... [more]
gi|731350611|ref|XP_010686591.1|1.3e-18080.8PREDICTED: uncharacterized pro... [more]
gi|731350605|ref|XP_010686588.1|2.5e-17983.5PREDICTED: uncharacterized pro... [more]
gi|731438503|ref|XP_010647089.1|1.0e-16478.2PREDICTED: uncharacterized pro... [more]
gi|731350609|ref|XP_010686590.1|6.8e-16182.6PREDICTED: uncharacterized pro... [more]
back to top
BLAST of Spo09787.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QGI3_SPIOL2.2e-20694.5Uncharacterized protein (Fragm... [more]
A0A0J8BWF4_BETVU1.7e-17983.5Uncharacterized protein OS=Bet... [more]
A0A061GIU0_THECC4.0e-16075.5Alpha/beta-Hydrolases superfam... [more]
K7MJ87_SOYBN2.9e-15876.0Uncharacterized protein OS=Gly... [more]
K7L419_SOYBN1.1e-15772.7Uncharacterized protein OS=Gly... [more]
back to top
BLAST of Spo09787.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 1
Match NameE-valueIdentityDescription
YQKD_BACSU6.4e-1027.5Uncharacterized protein YqkD O... [more]
back to top
BLAST of Spo09787.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 4
Match NameE-valueIdentityDescription
AT4G17150.11.5e-15371.3alpha/beta-Hydrolases superfam... [more]
AT4G14290.14.4e-11867.2alpha/beta-Hydrolases superfam... [more]
AT3G23540.12.7e-11565.1alpha/beta-Hydrolases superfam... [more]
AT2G19550.13.5e-626.3alpha/beta-Hydrolases superfam... [more]
back to top
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR022742Serine aminopeptidase, S33PFAMPF12146Hydrolase_4coord: 76..192
score: 1.8
NoneNo IPR availablePANTHERPTHR12277UNCHARACTERIZEDcoord: 4..364
score: 2.6E
NoneNo IPR availablePANTHERPTHR12277:SF58ALPHA/BETA-HYDROLASES SUPERFAMILY PROTEINcoord: 4..364
score: 2.6E

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0008152 metabolic process
biological_process GO:0006308 DNA catabolic process
molecular_function GO:0016787 hydrolase activity
molecular_function GO:0005488 binding
molecular_function GO:0045145 single-stranded DNA 5'-3' exodeoxyribonuclease activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo239820.66Barchart | Table
Spo040210.65Barchart | Table