Cla97C03G054020 (gene) Watermelon (97103) v2.5

Overview
NameCla97C03G054020
Typegene
OrganismCitrullus lanatus subsp. vulgaris cv. 97103 (Watermelon (97103) v2.5)
Descriptionsulfite oxidase-like
LocationCla97Chr03: 3254430 .. 3281679 (-)
RNA-Seq ExpressionCla97C03G054020
SyntenyCla97C03G054020
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGATTATTGTTTATGCAGATGATGAAAGAGGGTTTGATTATGAAAGAGATGGGGAAAAAGGACCAACTCATTGGGGAGAGCTTAGACCAGAATGGCATACATGCAAGGCTGGGTTAATGCAATCTCCAATTGATCTATTGCATGAGAGAGTTGAAATCATTTCACACTTGGGAGACCTTAAAATCAACTACAAATCCTCTAATGCCACGCTCAAGAATAGAGGCCATGATATGATGATGAAATGGGTGGATGGAGGTGGATACATGGAAATGAATGGAACTCAATATAAACTAAAACAATGTCATTGGCACTCACCTTCTGAGCACACCATTGATGGCAAGAAGTTTGAGCTTGAGGCTCACTTAGTCCACGAAAGCTCAAACGGCATGGTTTCTGTCATCGGAATCCTATATCAGATTGGAGAACCTGATTACTTCTTATCAACGATTGAAGATCATTTAGAACTGGCCTCAGATACCCATGAAGAAGAGAGAGTAATGGGAATAATTGATCCAAATATGTTGAAGATGGGTAGCAAACAATATTATAGATACATAGGCTCACTTACTGTTCCACCGTGCACCGAAAATGTGATGTGGACTATGATTCACCAGGTGAGGACTGTCACAGAAGAACAAGTGAAATTGCTTCGAGTAGCTGTCCATGATGCTCAGCCTCTCCGTGAGTTGGATTCACTTGGCTGTGACCAAATAAAAAATGACCCATTGAATCGAGACATCTCGTCGTGCTCACGAAATCGGTGGCCATCCATCTTCCAAGAACAACTTTTCTCTTCTGCTACTGAAAGAGAGCCCTTCAATGCAGAGCCACCACGCTCAGCCCTGATTTCTTCTTATGTCACCCCTGTAGATTTCTTTTACAAGAGAAATCATGGCCCTATTCCATTAGTGGATGATATCGAAAGATATTCTGTTTCTATAAATGGCCTAATAGAAAGCCCAAAAGAGCTGTTCATGAAAGATATCAGGAGGCTTCCAAAGTACAATGTCACTGCCACTTTACAGTGTGCAGGTAATAGAAGGACAGCGATGAGCAAAATCAGAACAGTGAAGGGAGTTGGCTGGGATGTTTCAGCTCTAGGAAATGCTGTTTGGGGTGGTGCTAAATTGGCTGATGTTCTTGAACTTGTTGGGATACCAAAGTGCAGCTATAGTACAGAAAAAGGTGGAAAACATGTTGAGTTTGTGAGCATAGATAGGTGCAAGATAGAGAGGAATGATTTTGATTGCTATGGTTATCAAGTACAGGAAGAAAAAGGAGGTCCATACAAGGGATCAATTCCACTTAGCCAAGCTTCAAATCCCAAAGCAGATGTTCTGCTTGCTTACGAAATGAATGGAGAAACTCTTAACAGGGATCATGGGTATCCATTGCGCGTGGTTGTCCCTGGTGTTATTGGTGCTCGGTCTGTTAAATGGCTCGATTCTATTAGCATAATTGCAGAGGAATGCCAGGTAGGAAATTTGAAATATAAACTTGGTTCTTCTCCGCAAGAAATTGCTGTTAGGTATCCTAACTCCCTGCACACAGAAAATACACAAACACTCCCAAATAACAAGATGAAAGGTAACCCTTGGCTATTCGAGAGAGCCGTCTCTCCTCAAGTGAGTCCTCACTCCCCAAAAATATCCCCTCCTCACACTGAATCCCAAAACCCCTTCCATGGGCCCCATAAGTACGATATTCCCTCAGCTGGATCACCAGGTTTCTTTATGCAGAAAGACTACAAAATGTTTCCTCCATCTGTAAATTGGGATAATATTGATTGGTCGACCAGGAGGCCTCAAATGGATTTTCCTGTTCAGTCTGTCATATGTTCTTTGGAGGATGTAGATCATATAAAGCCTGGAAAGGTTAGAGTTAGTGGTTATGCAGTTTCAGGAGGTGGTCGGGGAATTGAGAGAGTAGACATATCTGTTGATGGGGGTAAAAACTGGATTGAAGCAACCAGATATCAGAAGATTGGTGTCCCATACGTTGCAGATAGTCCGAGCAGTGACAAGTGGGCATGGGTATTTTTTGAGGTCACGCTCGATGTCCTACGGAACACCGAAATCGTTGCTAAAGCTGTTGATTCAGCAGCGAATGTGCAACCAGAAACAGTGGAAGAGATATGGAACTTAAGAGAAGATCAGAAAGAATTTGATTATAACAAAAAAGGAGAGAAAGGACCTTCACATTGGGGAAATCTTAAACGAGAATGGCACAATTGCAAGACTGGACGAATGCAATCTCCTATTGATCTATTGCACAACAGAGTTCGAATTGTATCTCATTTTACAGAACTCAGAATCGACTATAAACCTTCTAATGCAACTCTTAGAAATAGAGGTCATGATATAATGTTGAAATGGGGTGACAGGGCTGGATATATGGAAGTCAATGGAACTCAATATTTTCTAAAACAATGTCATTGGCACTCACCCTCCGAGCACACCATCAATGGTAGAAGGTTTGCTTTAGAAGCTCATTTGGTGCACCAAAGCCAGACAGGAAACGTTGCTGTCATTGGAATTCTCTATAACATAGGACGGCCTGACCACTTCTTATCCAAAGTTAGGACTGTTGCACCCGAACAAGTAAAATTGCTTCGTGTGGCCGTTCATGATGAGTCGAATACTAATGCAAGACCTTTGCAACCTCTCAATAAACGAAATATTCAACTTCGAATCAAATCAAACATAAATGGAGGAGGAGAATGATTCATAGACACACACAAAAGAGAAATATTTCTTCATTTTTCTTTCTCAATATCATTGTTA

Coding sequence (CDS)

ATGATTATTGTTTATGCAGATGATGAAAGAGGGTTTGATTATGAAAGAGATGGGGAAAAAGGACCAACTCATTGGGGAGAGCTTAGACCAGAATGGCATACATGCAAGGCTGGGTTAATGCAATCTCCAATTGATCTATTGCATGAGAGAGTTGAAATCATTTCACACTTGGGAGACCTTAAAATCAACTACAAATCCTCTAATGCCACGCTCAAGAATAGAGGCCATGATATGATGATGAAATGGGTGGATGGAGGTGGATACATGGAAATGAATGGAACTCAATATAAACTAAAACAATGTCATTGGCACTCACCTTCTGAGCACACCATTGATGGCAAGAAGTTTGAGCTTGAGGCTCACTTAGTCCACGAAAGCTCAAACGGCATGGTTTCTGTCATCGGAATCCTATATCAGATTGGAGAACCTGATTACTTCTTATCAACGATTGAAGATCATTTAGAACTGGCCTCAGATACCCATGAAGAAGAGAGAGTAATGGGAATAATTGATCCAAATATGTTGAAGATGGGTAGCAAACAATATTATAGATACATAGGCTCACTTACTGTTCCACCGTGCACCGAAAATGTGATGTGGACTATGATTCACCAGGTGAGGACTGTCACAGAAGAACAAGTGAAATTGCTTCGAGTAGCTGTCCATGATGCTCAGCCTCTCCGTGAGTTGGATTCACTTGGCTGTGACCAAATAAAAAATGACCCATTGAATCGAGACATCTCGTCGTGCTCACGAAATCGGTGGCCATCCATCTTCCAAGAACAACTTTTCTCTTCTGCTACTGAAAGAGAGCCCTTCAATGCAGAGCCACCACGCTCAGCCCTGATTTCTTCTTATGTCACCCCTGTAGATTTCTTTTACAAGAGAAATCATGGCCCTATTCCATTAGTGGATGATATCGAAAGATATTCTGTTTCTATAAATGGCCTAATAGAAAGCCCAAAAGAGCTGTTCATGAAAGATATCAGGAGGCTTCCAAAGTACAATGTCACTGCCACTTTACAGTGTGCAGGTAATAGAAGGACAGCGATGAGCAAAATCAGAACAGTGAAGGGAGTTGGCTGGGATGTTTCAGCTCTAGGAAATGCTGTTTGGGGTGGTGCTAAATTGGCTGATGTTCTTGAACTTGTTGGGATACCAAAGTGCAGCTATAGTACAGAAAAAGGTGGAAAACATGTTGAGTTTGTGAGCATAGATAGGTGCAAGATAGAGAGGAATGATTTTGATTGCTATGGTTATCAAGTACAGGAAGAAAAAGGAGGTCCATACAAGGGATCAATTCCACTTAGCCAAGCTTCAAATCCCAAAGCAGATGTTCTGCTTGCTTACGAAATGAATGGAGAAACTCTTAACAGGGATCATGGGTATCCATTGCGCGTGGTTGTCCCTGGTGTTATTGGTGCTCGGTCTGTTAAATGGCTCGATTCTATTAGCATAATTGCAGAGGAATGCCAGGTAGGAAATTTGAAATATAAACTTGGTTCTTCTCCGCAAGAAATTGCTGTTAGGTATCCTAACTCCCTGCACACAGAAAATACACAAACACTCCCAAATAACAAGATGAAAGGTAACCCTTGGCTATTCGAGAGAGCCGTCTCTCCTCAAGTGAGTCCTCACTCCCCAAAAATATCCCCTCCTCACACTGAATCCCAAAACCCCTTCCATGGGCCCCATAAGTACGATATTCCCTCAGCTGGATCACCAGGTTTCTTTATGCAGAAAGACTACAAAATGTTTCCTCCATCTGTAAATTGGGATAATATTGATTGGTCGACCAGGAGGCCTCAAATGGATTTTCCTGTTCAGTCTGTCATATGTTCTTTGGAGGATGTAGATCATATAAAGCCTGGAAAGGTTAGAGTTAGTGGTTATGCAGTTTCAGGAGGTGGTCGGGGAATTGAGAGAGTAGACATATCTGTTGATGGGGGTAAAAACTGGATTGAAGCAACCAGATATCAGAAGATTGGTGTCCCATACGTTGCAGATAGTCCGAGCAGTGACAAGTGGGCATGGGTATTTTTTGAGGTCACGCTCGATGTCCTACGGAACACCGAAATCGTTGCTAAAGCTGTTGATTCAGCAGCGAATGTGCAACCAGAAACAGTGGAAGAGATATGGAACTTAAGAGAAGATCAGAAAGAATTTGATTATAACAAAAAAGGAGAGAAAGGACCTTCACATTGGGGAAATCTTAAACGAGAATGGCACAATTGCAAGACTGGACGAATGCAATCTCCTATTGATCTATTGCACAACAGAGTTCGAATTGTATCTCATTTTACAGAACTCAGAATCGACTATAAACCTTCTAATGCAACTCTTAGAAATAGAGGTCATGATATAATGTTGAAATGGGGTGACAGGGCTGGATATATGGAAGTCAATGGAACTCAATATTTTCTAAAACAATGTCATTGGCACTCACCCTCCGAGCACACCATCAATGGTAGAAGGTTTGCTTTAGAAGCTCATTTGGTGCACCAAAGCCAGACAGGAAACGTTGCTGTCATTGGAATTCTCTATAACATAGGACGGCCTGACCACTTCTTATCCAAAGTTAGGACTGTTGCACCCGAACAAGTAAAATTGCTTCGTGTGGCCGTTCATGATGAGTCGAATACTAATGCAAGACCTTTGCAACCTCTCAATAAACGAAATATTCAACTTCGAATCAAATCAAACATAAATGGAGGAGGAGAATGA

Protein sequence

MIIVYADDERGFDYERDGEKGPTHWGELRPEWHTCKAGLMQSPIDLLHERVEIISHLGDLKINYKSSNATLKNRGHDMMMKWVDGGGYMEMNGTQYKLKQCHWHSPSEHTIDGKKFELEAHLVHESSNGMVSVIGILYQIGEPDYFLSTIEDHLELASDTHEEERVMGIIDPNMLKMGSKQYYRYIGSLTVPPCTENVMWTMIHQVRTVTEEQVKLLRVAVHDAQPLRELDSLGCDQIKNDPLNRDISSCSRNRWPSIFQEQLFSSATEREPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDIRRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKCSYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLAYEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAVRYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDIPSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVSGYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLRNTEIVAKAVDSAANVQPETVEEIWNLREDQKEFDYNKKGEKGPSHWGNLKREWHNCKTGRMQSPIDLLHNRVRIVSHFTELRIDYKPSNATLRNRGHDIMLKWGDRAGYMEVNGTQYFLKQCHWHSPSEHTINGRRFALEAHLVHQSQTGNVAVIGILYNIGRPDHFLSKVRTVAPEQVKLLRVAVHDESNTNARPLQPLNKRNIQLRIKSNINGGGE
Homology
[Close]
BLAST of Cla97C03G054020 vs. NCBI nr
Match: XP_038895568.1 (LOW QUALITY PROTEIN: sulfite oxidase-like [Benincasa hispida])

HSP 1 Score: 647.5 bits (1669), Expect = 1.7e-181
Identity = 332/447 (74.27%), Postives = 342/447 (76.51%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSALISS  TPVDFFYKRNHGPIPLVDDIERYSVSINGLIE+PKELFMKDI
Sbjct: 25  KEPFNAEPPRSALISSXFTPVDFFYKRNHGPIPLVDDIERYSVSINGLIENPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK +TVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTKTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SYST+KGGKHVEFVSIDRCK              EEKGGPYKGSIPLSQASNP+ADVLLA
Sbjct: 145 SYSTQKGGKHVEFVSIDRCK--------------EEKGGPYKGSIPLSQASNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSI+IIAEECQ                 
Sbjct: 205 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSINIIAEECQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQ VICSLEDVDHIK GKV V+
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQCVICSLEDVDHIKLGKVTVN 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEA+RYQK GVPYVADSPSSDKWAWVFFEVTLDVL+
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEASRYQKTGVPYVADSPSSDKWAWVFFEVTLDVLQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEIVAKAVDS+ANVQPETVEEIWNLR
Sbjct: 445 NTEIVAKAVDSSANVQPETVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. NCBI nr
Match: XP_022939080.1 (sulfite oxidase-like [Cucurbita moschata])

HSP 1 Score: 637.9 bits (1644), Expect = 1.3e-178
Identity = 327/447 (73.15%), Postives = 338/447 (75.62%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSALISSYVTPVDFFYKRNHGP+PLVDDIERYSVS+NGLIE+PKELFMKDI
Sbjct: 25  KEPFNAEPPRSALISSYVTPVDFFYKRNHGPVPLVDDIERYSVSLNGLIENPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK RTVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKL 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SYST+KGGKHVEFVSIDRCK              EEKGGPYK SIPLS ASNP+ADVLLA
Sbjct: 145 SYSTQKGGKHVEFVSIDRCK--------------EEKGGPYKASIPLSHASNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVV+PGVIGARSVKWLDSISIIAEE Q                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVIPGVIGARSVKWLDSISIIAEESQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDW+TRRPQMDFPVQSV+CSLEDVDHI+PGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWTTRRPQMDFPVQSVMCSLEDVDHIRPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEATRYQK GVPYVADSPSSDKWAWV FEVTLDV +
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKTGVPYVADSPSSDKWAWVLFEVTLDVEQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEIVAKAVDSAANVQPE VEEIWNLR
Sbjct: 445 NTEIVAKAVDSAANVQPERVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. NCBI nr
Match: XP_008462789.1 (PREDICTED: sulfite oxidase-like [Cucumis melo])

HSP 1 Score: 635.6 bits (1638), Expect = 6.7e-178
Identity = 325/447 (72.71%), Postives = 338/447 (75.62%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRS LISSYVTPVDFFYKRNHGPIPLV+DIERY VSINGLI+ PKELFMKDI
Sbjct: 25  KEPFNAEPPRSTLISSYVTPVDFFYKRNHGPIPLVNDIERYFVSINGLIDKPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK +TVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTKTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SY T+KGGKHVEFVSIDRCK              EEKGGPYKGSIPLSQAS+P+ADVLLA
Sbjct: 145 SYRTQKGGKHVEFVSIDRCK--------------EEKGGPYKGSIPLSQASDPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVVVPGVIGARSVKW+DSI+IIAEECQ                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVVPGVIGARSVKWIDSINIIAEECQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQ VICSLEDVDHIKPGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQCVICSLEDVDHIKPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEA+R QK+GVPYVADSPSSDKWAWVFFEVTL+V +
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEASRSQKVGVPYVADSPSSDKWAWVFFEVTLNVQQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEIVAKAVDSAANVQP TVEEIWNLR
Sbjct: 445 NTEIVAKAVDSAANVQPGTVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. NCBI nr
Match: XP_004139441.3 (sulfite oxidase isoform X1 [Cucumis sativus])

HSP 1 Score: 635.2 bits (1637), Expect = 8.7e-178
Identity = 325/447 (72.71%), Postives = 339/447 (75.84%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRS LISSYVTPVDFFYKRNHGPIPLV+DIERY VSINGLI++PKELFMKDI
Sbjct: 25  KEPFNAEPPRSTLISSYVTPVDFFYKRNHGPIPLVNDIERYFVSINGLIDNPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK +TVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTKTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKY 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SY T+KGGKHVEFVSIDRCK              EEKGGPYKGSIPLSQAS+P+ADVLLA
Sbjct: 145 SYRTQKGGKHVEFVSIDRCK--------------EEKGGPYKGSIPLSQASDPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGETLNRDHGYPLRVVVPGVIGARSVKW+DSI+IIAEECQ                 
Sbjct: 205 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWIDSINIIAEECQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQ VICSLEDVDHIKPGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQCVICSLEDVDHIKPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEA+R QK+GVPYVADSPSSDKWAWVFFEVTL+V R
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEASRSQKVGVPYVADSPSSDKWAWVFFEVTLNVQR 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEI+AKAVDSAANVQP TVEEIWNLR
Sbjct: 445 NTEIIAKAVDSAANVQPGTVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. NCBI nr
Match: KAG6578371.1 (Chloride channel protein CLC-b, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 634.8 bits (1636), Expect = 1.1e-177
Identity = 325/453 (71.74%), Postives = 340/453 (75.06%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSALISSYVTPVDFFYKRNHGP+PLVDDIERYSVS+NGLI++PKELFMKDI
Sbjct: 25  KEPFNAEPPRSALISSYVTPVDFFYKRNHGPVPLVDDIERYSVSLNGLIQNPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK RTVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKL 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SYST+KGGKHVEFVSIDRCK              EEKGGPYK SIPLS ASNP+ADVLLA
Sbjct: 145 SYSTQKGGKHVEFVSIDRCK--------------EEKGGPYKASIPLSHASNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVV+PGVIGARSVKWLDSISIIAEE Q                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVIPGVIGARSVKWLDSISIIAEESQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDW+TRRPQMDFPVQSV+CSLEDVDHI+PGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWTTRRPQMDFPVQSVMCSLEDVDHIRPGKVTVS 380

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEATRYQK G+PYVADSPSS+KWAWV FEVTLDV +
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKTGIPYVADSPSSEKWAWVLFEVTLDVEQ 380

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLREDQKEF 723
           NTEIVAKAVDSAANVQPE VEEIWNLR +   F
Sbjct: 445 NTEIVAKAVDSAANVQPERVEEIWNLRGEALHF 380

[Close]
BLAST of Cla97C03G054020 vs. ExPASy Swiss-Prot
Match: Q9S850 (Sulfite oxidase OS=Arabidopsis thaliana OX=3702 GN=SOX PE=1 SV=1)

HSP 1 Score: 559.7 bits (1441), Expect = 6.1e-158
Identity = 278/447 (62.19%), Postives = 318/447 (71.14%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSAL+SSYVTPVD FYKRNHGPIP+VD ++ YSV++ GLI++P++LF+KDI
Sbjct: 25  KEPFNAEPPRSALVSSYVTPVDLFYKRNHGPIPIVDHLQSYSVTLTGLIQNPRKLFIKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK+R V+GVGWDVSA+GNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RSLPKYNVTATLQCAGNRRTAMSKVRNVRGVGWDVSAIGNAVWGGAKLADVLELVGIPKL 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           + ST  G +HVEFVS+DRCK              EE GGPYK SI LSQA+NP+ADVLLA
Sbjct: 145 TASTNLGARHVEFVSVDRCK--------------EENGGPYKASITLSQATNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGETLNRDHG+PLRVVVPGVIGARSVKWLDSI++IAEE Q                 
Sbjct: 205 YEMNGETLNRDHGFPLRVVVPGVIGARSVKWLDSINVIAEESQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNI+WS+RRPQMDFPVQS ICS+EDV  +KPGKV + 
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNINWSSRRPQMDFPVQSAICSVEDVQMVKPGKVSIK 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDIS+DGGKNW+EA+R Q+ G  Y+++  SSDKWAWV FE T+DV +
Sbjct: 385 GYAVSGGGRGIERVDISLDGGKNWVEASRTQEPGKQYISEHSSSDKWAWVLFEATIDVSQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
            TE++AKAVDSAANVQPE VE +WNLR
Sbjct: 445 TTEVIAKAVDSAANVQPENVESVWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. ExPASy Swiss-Prot
Match: Q8L817 (Alpha carbonic anhydrase 7 OS=Arabidopsis thaliana OX=3702 GN=ACA7 PE=2 SV=1)

HSP 1 Score: 282.0 bits (720), Expect = 2.5e-74
Identity = 125/217 (57.60%), Postives = 171/217 (78.80%), Query Frame = 0 

Query: 7   DDERGFDYERDGEKGPTHWGELRPEWHTCKAGLMQSPIDLLHERVEIISHLGDLKINYKS 66
           +DER F+Y+++ EKGP  WGEL+PEW  C  G MQSPIDL++ERV I+SHLG L  +Y  
Sbjct: 35  EDEREFNYKKNDEKGPERWGELKPEWEMCGKGEMQSPIDLMNERVNIVSHLGRLNRDYNP 94

Query: 67  SNATLKNRGHDMMMKWVDGGGYMEMNGTQYKLKQCHWHSPSEHTIDGKKFELEAHLVHES 126
           SNATLKNRGHD+M+K+ DG G +++NG +Y+L+Q HWHSPSEHTI+G++F LE H+VHE 
Sbjct: 95  SNATLKNRGHDIMLKFEDGAGTIKINGFEYELQQLHWHSPSEHTINGRRFALELHMVHEG 154

Query: 127 SNGMVSVIGILYQIGEPDYFLSTIEDHLELASDTHEEERVMGIIDPNMLKMGSKQYYRYI 186
            N  ++V+ +LY+IG  D F+ ++E  LE  ++  E E+ +G+IDP  +K+GS++YYRY 
Sbjct: 155 RNRRMAVVTVLYKIGRADTFIRSLEKELEGIAEMEEAEKNVGMIDPTKIKIGSRKYYRYT 214

Query: 187 GSLTVPPCTENVMWTMIHQVRTVTEEQVKLLRVAVHD 224
           GSLT PPCT+NV W+++ +VRTVT +QVKLLRVAVHD
Sbjct: 215 GSLTTPPCTQNVTWSVVRKVRTVTRKQVKLLRVAVHD 251

[Close]
BLAST of Cla97C03G054020 vs. ExPASy Swiss-Prot
Match: P07850 (Sulfite oxidase OS=Gallus gallus OX=9031 GN=SUOX PE=1 SV=3)

HSP 1 Score: 277.3 bits (708), Expect = 6.1e-73
Identity = 167/450 (37.11%), Postives = 222/450 (49.33%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           ++PFNAEPP   L   ++TP + F+ RNH P+P V+    Y + ++G       L + ++
Sbjct: 112 QKPFNAEPPAELLAERFLTPNELFFTRNHLPVPAVEP-SSYRLRVDGPGGRTLSLSLAEL 171

Query: 330 R-RLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 389
           R R PK+ VTATLQCAGNRR+ MS++R VKG+ WD+ A+  A WGGA L DVL   G P+
Sbjct: 172 RSRFPKHEVTATLQCAGNRRSEMSRVRPVKGLPWDIGAISTARWGGASLRDVLLHAGFPE 231

Query: 390 CSYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLL 449
                 +GG+HV F  +D                 +  G PY  SIP  +A +P ADVLL
Sbjct: 232 ----ELQGGEHVCFEGLD----------------ADPGGAPYGASIPYGRALSPAADVLL 291

Query: 450 AYEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIA 509
           AYEMNG  L RDH +P+RVVVPGV+GARSVKWL  +++                SP E  
Sbjct: 292 AYEMNGTELPRDHRFPVRVVVPGVVGARSVKWLRRVAV----------------SPDE-- 351

Query: 510 VRYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYD 569
                                                                       
Sbjct: 352 ------------------------------------------------------------ 411

Query: 570 IPSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRV 629
                SP  + Q DYK F P V+WD +D+ T     + PVQS +        + PG++ V
Sbjct: 412 -----SPSRWQQNDYKGFSPCVDWDTVDYRTAPAIQELPVQSAVTQPRPGAAVPPGELTV 450

Query: 630 SGYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVL 689
            GYA SGGGR + RVD+S+DGG+ W       K+       +P    WAW  +E+T+ V 
Sbjct: 472 KGYAWSGGGREVVRVDVSLDGGRTW-------KVARLMGDKAPPGRAWAWALWELTVPVE 450

Query: 690 RNT--EIVAKAVDSAANVQPETVEEIWNLR 717
             T  EIV KAVDS+ NVQP++V  IWNLR
Sbjct: 532 AGTELEIVCKAVDSSYNVQPDSVAPIWNLR 450

[Close]
BLAST of Cla97C03G054020 vs. ExPASy Swiss-Prot
Match: Q84UV8 (Bifunctional monodehydroascorbate reductase and carbonic anhydrase nectarin-3 OS=Nicotiana langsdorffii x Nicotiana sanderae OX=164110 GN=NEC3 PE=1 SV=1)

HSP 1 Score: 258.5 bits (659), Expect = 2.9e-67
Identity = 123/218 (56.42%), Postives = 166/218 (76.15%), Query Frame = 0 

Query: 7   DDERGFDYERDGEKGPTHWGELRPEWHTCKAGLMQSPIDLLHERVEIISHLGDLKINYKS 66
           DDE  F Y+   E GP +WG +RP+W  C +G +QSPID+   R E++S+L  L+ +YK 
Sbjct: 29  DDESEFSYDEKSENGPANWGNIRPDWKEC-SGKLQSPIDIFDLRAEVVSNLRILQKDYKP 88

Query: 67  SNATLKNRGHDMMMKWVDGGGYMEMNGTQYKLKQCHWHSPSEHTIDGKKFELEAHLVHES 126
           SNATL NRGHD+M++ +D GGY+++N TQY+LKQ HWH+PSEHTI+G++F LEAHLVHES
Sbjct: 89  SNATLLNRGHDIMLR-LDDGGYLKINETQYQLKQLHWHTPSEHTINGERFNLEAHLVHES 148

Query: 127 SNGMVSVIGILYQIG-EPDYFLSTIEDHLELASDTHEEERVMGIIDPNMLKMGSKQYYRY 186
           +NG   VIGI+Y+IG  PD FLS IE+ L++ ++    ER +GIIDPN +K+  K+Y+RY
Sbjct: 149 NNGKFVVIGIVYEIGLWPDPFLSMIENDLKVPANKKGIERGIGIIDPNQIKLDGKKYFRY 208

Query: 187 IGSLTVPPCTENVMWTMIHQVRTVTEEQVKLLRVAVHD 224
           IGSLT PPCTE V+W +  +V+TVT  Q+KLL+ AVHD
Sbjct: 209 IGSLTTPPCTEGVVWIIDRKVKTVTRRQIKLLQEAVHD 244

[Close]
BLAST of Cla97C03G054020 vs. ExPASy Swiss-Prot
Match: F4HUC4 (Alpha carbonic anhydrase 5 OS=Arabidopsis thaliana OX=3702 GN=ACA5 PE=3 SV=1)

HSP 1 Score: 255.4 bits (651), Expect = 2.5e-66
Identity = 121/229 (52.84%), Postives = 166/229 (72.49%), Query Frame = 0 

Query: 7   DDERGFDYERDGEKGPTHWGELRPEWHTCKAGLMQSPIDLLHERVEIISHLGDLKINYKS 66
           +DE  F+YE+ GEKGP +WG L+PEW  C  G MQSPIDL  +RV I  +LG L+  Y  
Sbjct: 30  EDETQFNYEKKGEKGPENWGRLKPEWAMCGKGNMQSPIDLTDKRVLIDHNLGYLRSQYLP 89

Query: 67  SNATLKNRGHDMMMKWVDG--GGYMEMNGTQYKLKQCHWHSPSEHTIDGKKFELEAHLVH 126
           SNAT+KNRGHD+MMK+  G  G  + +NGT+YKL+Q HWHSPSEHT++GK+F LE H+VH
Sbjct: 90  SNATIKNRGHDIMMKFEGGNAGLGITINGTEYKLQQIHWHSPSEHTLNGKRFVLEEHMVH 149

Query: 127 ESSNGMVSVIGILYQIGEPDYFLSTIEDHLELASDTHEEERVMGIIDPNMLKMGSKQYYR 186
           +S +G  +V+   Y++G+PDYFL T+E +L+  +DTHE +  + ++ P      SK YYR
Sbjct: 150 QSKDGRNAVVAFFYKLGKPDYFLLTLERYLKRITDTHESQEFVEMVHPRTFGFESKHYYR 209

Query: 187 YIGSLTVPPCTENVMWTMIHQVRTVTEEQVKLLRVAVHD-----AQPLR 229
           +IGSLT PPC+ENV+WT+  ++RTVT +Q+ +LRV VHD     A+PL+
Sbjct: 210 FIGSLTTPPCSENVIWTISKEMRTVTLKQLIMLRVTVHDQSNSNARPLQ 258

[Close]
BLAST of Cla97C03G054020 vs. ExPASy TrEMBL
Match: A0A6J1FLM7 (sulfite oxidase-like OS=Cucurbita moschata OX=3662 GN=LOC111445089 PE=4 SV=1)

HSP 1 Score: 637.9 bits (1644), Expect = 6.5e-179
Identity = 327/447 (73.15%), Postives = 338/447 (75.62%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSALISSYVTPVDFFYKRNHGP+PLVDDIERYSVS+NGLIE+PKELFMKDI
Sbjct: 25  KEPFNAEPPRSALISSYVTPVDFFYKRNHGPVPLVDDIERYSVSLNGLIENPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK RTVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKL 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SYST+KGGKHVEFVSIDRCK              EEKGGPYK SIPLS ASNP+ADVLLA
Sbjct: 145 SYSTQKGGKHVEFVSIDRCK--------------EEKGGPYKASIPLSHASNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVV+PGVIGARSVKWLDSISIIAEE Q                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVIPGVIGARSVKWLDSISIIAEESQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDW+TRRPQMDFPVQSV+CSLEDVDHI+PGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWTTRRPQMDFPVQSVMCSLEDVDHIRPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEATRYQK GVPYVADSPSSDKWAWV FEVTLDV +
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKTGVPYVADSPSSDKWAWVLFEVTLDVEQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEIVAKAVDSAANVQPE VEEIWNLR
Sbjct: 445 NTEIVAKAVDSAANVQPERVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. ExPASy TrEMBL
Match: A0A1S3CHS9 (sulfite oxidase-like OS=Cucumis melo OX=3656 GN=LOC103501076 PE=4 SV=1)

HSP 1 Score: 635.6 bits (1638), Expect = 3.2e-178
Identity = 325/447 (72.71%), Postives = 338/447 (75.62%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRS LISSYVTPVDFFYKRNHGPIPLV+DIERY VSINGLI+ PKELFMKDI
Sbjct: 25  KEPFNAEPPRSTLISSYVTPVDFFYKRNHGPIPLVNDIERYFVSINGLIDKPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK +TVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTKTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SY T+KGGKHVEFVSIDRCK              EEKGGPYKGSIPLSQAS+P+ADVLLA
Sbjct: 145 SYRTQKGGKHVEFVSIDRCK--------------EEKGGPYKGSIPLSQASDPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVVVPGVIGARSVKW+DSI+IIAEECQ                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVVPGVIGARSVKWIDSINIIAEECQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQ VICSLEDVDHIKPGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQCVICSLEDVDHIKPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEA+R QK+GVPYVADSPSSDKWAWVFFEVTL+V +
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEASRSQKVGVPYVADSPSSDKWAWVFFEVTLNVQQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEIVAKAVDSAANVQP TVEEIWNLR
Sbjct: 445 NTEIVAKAVDSAANVQPGTVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. ExPASy TrEMBL
Match: A0A6J1BX38 (sulfite oxidase isoform X1 OS=Momordica charantia OX=3673 GN=LOC111006477 PE=4 SV=1)

HSP 1 Score: 633.6 bits (1633), Expect = 1.2e-177
Identity = 325/447 (72.71%), Postives = 336/447 (75.17%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSALISSYVTPVD FYKRNHGPIPLVDDIERYS SI+GLI++ KELFMKDI
Sbjct: 25  KEPFNAEPPRSALISSYVTPVDLFYKRNHGPIPLVDDIERYSFSISGLIQNSKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK RTVKGVGWDVSALGNA WGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTRTVKGVGWDVSALGNATWGGAKLADVLELVGIPKF 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SYST+KGGKHVEFVSIDRCK              EE GGPYK SIPLSQASNP+ADVLLA
Sbjct: 145 SYSTQKGGKHVEFVSIDRCK--------------EENGGPYKASIPLSQASNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVVVPGVIGARSVKWLDSI+IIAEECQ                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVVPGVIGARSVKWLDSINIIAEECQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVD IKPGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDQIKPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVD+S+DGGKNWIEA+RYQKIGVPYVADSPSSDKWAWVFFEVTLDV+R
Sbjct: 385 GYAVSGGGRGIERVDVSIDGGKNWIEASRYQKIGVPYVADSPSSDKWAWVFFEVTLDVVR 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEIVAKA DSAANVQPE VEEIWNLR
Sbjct: 445 NTEIVAKAADSAANVQPEKVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. ExPASy TrEMBL
Match: A0A0A0LSD8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G120460 PE=4 SV=1)

HSP 1 Score: 632.9 bits (1631), Expect = 2.1e-177
Identity = 324/447 (72.48%), Postives = 338/447 (75.62%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRS LISSYVTPVDFFYKRNHGPIPLV+DIERY VSINGLI++PKELFMKDI
Sbjct: 25  KEPFNAEPPRSTLISSYVTPVDFFYKRNHGPIPLVNDIERYFVSINGLIDNPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNV ATLQCAGNRRTAMSK +TVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVPATLQCAGNRRTAMSKTKTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKY 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SY T+KGGKHVEFVSIDRCK              EEKGGPYKGSIPLSQAS+P+ADVLLA
Sbjct: 145 SYRTQKGGKHVEFVSIDRCK--------------EEKGGPYKGSIPLSQASDPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGETLNRDHGYPLRVVVPGVIGARSVKW+DSI+IIAEECQ                 
Sbjct: 205 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWIDSINIIAEECQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQ VICSLEDVDHIKPGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQCVICSLEDVDHIKPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGKNWIEA+R QK+GVPYVADSPSSDKWAWVFFEVTL+V R
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKNWIEASRSQKVGVPYVADSPSSDKWAWVFFEVTLNVQR 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           NTEI+AKAVDSAANVQP TVEEIWNLR
Sbjct: 445 NTEIIAKAVDSAANVQPGTVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. ExPASy TrEMBL
Match: A0A6J1K347 (sulfite oxidase-like OS=Cucurbita maxima OX=3661 GN=LOC111489633 PE=4 SV=1)

HSP 1 Score: 630.2 bits (1624), Expect = 1.4e-176
Identity = 324/447 (72.48%), Postives = 337/447 (75.39%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSALISSYVTPVDFFYKRNHGP+PLVDDIERYSVS+NGLIE+PKELFMKDI
Sbjct: 25  KEPFNAEPPRSALISSYVTPVDFFYKRNHGPVPLVDDIERYSVSLNGLIENPKELFMKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK RTVKGVGWDVSALGNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RMLPKYNVTATLQCAGNRRTAMSKTRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKL 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           SYST+KGGKHVEFVSIDRCK              EEKGGPYK SIPLS ASNP+ADVLLA
Sbjct: 145 SYSTQKGGKHVEFVSIDRCK--------------EEKGGPYKASIPLSHASNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGE LNRDHGYPLRVV+PGVIGARSVKWL+SISIIAEE Q                 
Sbjct: 205 YEMNGEPLNRDHGYPLRVVIPGVIGARSVKWLESISIIAEESQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNIDW+TRRPQMDFPVQSV+CSLEDVDHIKPGKV VS
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNIDWTTRRPQMDFPVQSVMCSLEDVDHIKPGKVTVS 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDISVDGGK+WIEATRYQK GVPYVADS SSDKWAWV FEVTLDV +
Sbjct: 385 GYAVSGGGRGIERVDISVDGGKSWIEATRYQKTGVPYVADSRSSDKWAWVLFEVTLDVEQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
           +TEIVAKAVDSAANVQPE VEEIWNLR
Sbjct: 445 DTEIVAKAVDSAANVQPERVEEIWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. TAIR 10
Match: AT3G01910.1 (sulfite oxidase )

HSP 1 Score: 559.7 bits (1441), Expect = 4.3e-159
Identity = 278/447 (62.19%), Postives = 318/447 (71.14%), Query Frame = 0 

Query: 270 REPFNAEPPRSALISSYVTPVDFFYKRNHGPIPLVDDIERYSVSINGLIESPKELFMKDI 329
           +EPFNAEPPRSAL+SSYVTPVD FYKRNHGPIP+VD ++ YSV++ GLI++P++LF+KDI
Sbjct: 25  KEPFNAEPPRSALVSSYVTPVDLFYKRNHGPIPIVDHLQSYSVTLTGLIQNPRKLFIKDI 84

Query: 330 RRLPKYNVTATLQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKC 389
           R LPKYNVTATLQCAGNRRTAMSK+R V+GVGWDVSA+GNAVWGGAKLADVLELVGIPK 
Sbjct: 85  RSLPKYNVTATLQCAGNRRTAMSKVRNVRGVGWDVSAIGNAVWGGAKLADVLELVGIPKL 144

Query: 390 SYSTEKGGKHVEFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLA 449
           + ST  G +HVEFVS+DRCK              EE GGPYK SI LSQA+NP+ADVLLA
Sbjct: 145 TASTNLGARHVEFVSVDRCK--------------EENGGPYKASITLSQATNPEADVLLA 204

Query: 450 YEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAV 509
           YEMNGETLNRDHG+PLRVVVPGVIGARSVKWLDSI++IAEE Q                 
Sbjct: 205 YEMNGETLNRDHGFPLRVVVPGVIGARSVKWLDSINVIAEESQ----------------- 264

Query: 510 RYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDI 569
                                                                       
Sbjct: 265 ------------------------------------------------------------ 324

Query: 570 PSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVS 629
                 GFFMQKDYKMFPPSVNWDNI+WS+RRPQMDFPVQS ICS+EDV  +KPGKV + 
Sbjct: 325 ------GFFMQKDYKMFPPSVNWDNINWSSRRPQMDFPVQSAICSVEDVQMVKPGKVSIK 374

Query: 630 GYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLR 689
           GYAVSGGGRGIERVDIS+DGGKNW+EA+R Q+ G  Y+++  SSDKWAWV FE T+DV +
Sbjct: 385 GYAVSGGGRGIERVDISLDGGKNWVEASRTQEPGKQYISEHSSSDKWAWVLFEATIDVSQ 374

Query: 690 NTEIVAKAVDSAANVQPETVEEIWNLR 717
            TE++AKAVDSAANVQPE VE +WNLR
Sbjct: 445 TTEVIAKAVDSAANVQPENVESVWNLR 374

[Close]
BLAST of Cla97C03G054020 vs. TAIR 10
Match: AT3G01910.2 (sulfite oxidase )

HSP 1 Score: 438.7 bits (1127), Expect = 1.1e-122
Identity = 223/376 (59.31%), Postives = 252/376 (67.02%), Query Frame = 0 

Query: 341 LQCAGNRRTAMSKIRTVKGVGWDVSALGNAVWGGAKLADVLELVGIPKCSYSTEKGGKHV 400
           +QCAGNRRTAMSK+R V+GVGWDVSA+GNAVWGGAKLADVLELVGIPK + ST  G +HV
Sbjct: 1   MQCAGNRRTAMSKVRNVRGVGWDVSAIGNAVWGGAKLADVLELVGIPKLTASTNLGARHV 60

Query: 401 EFVSIDRCKIERNDFDCYGYQVQEEKGGPYKGSIPLSQASNPKADVLLAYEMNGETLNRD 460
           EFVS+DRCK              EE GGPYK SI LSQA+NP+ADVLLAYEMNGETLNRD
Sbjct: 61  EFVSVDRCK--------------EENGGPYKASITLSQATNPEADVLLAYEMNGETLNRD 120

Query: 461 HGYPLRVVVPGVIGARSVKWLDSISIIAEECQVGNLKYKLGSSPQEIAVRYPNSLHTENT 520
           HG+PLRVVVPGVIGARSVKWLDSI++IAEE Q                            
Sbjct: 121 HGFPLRVVVPGVIGARSVKWLDSINVIAEESQ---------------------------- 180

Query: 521 QTLPNNKMKGNPWLFERAVSPQVSPHSPKISPPHTESQNPFHGPHKYDIPSAGSPGFFMQ 580
                                                                  GFFMQ
Sbjct: 181 -------------------------------------------------------GFFMQ 240

Query: 581 KDYKMFPPSVNWDNIDWSTRRPQMDFPVQSVICSLEDVDHIKPGKVRVSGYAVSGGGRGI 640
           KDYKMFPPSVNWDNI+WS+RRPQMDFPVQS ICS+EDV  +KPGKV + GYAVSGGGRGI
Sbjct: 241 KDYKMFPPSVNWDNINWSSRRPQMDFPVQSAICSVEDVQMVKPGKVSIKGYAVSGGGRGI 279

Query: 641 ERVDISVDGGKNWIEATRYQKIGVPYVADSPSSDKWAWVFFEVTLDVLRNTEIVAKAVDS 700
           ERVDIS+DGGKNW+EA+R Q+ G  Y+++  SSDKWAWV FE T+DV + TE++AKAVDS
Sbjct: 301 ERVDISLDGGKNWVEASRTQEPGKQYISEHSSSDKWAWVLFEATIDVSQTTEVIAKAVDS 279

Query: 701 AANVQPETVEEIWNLR 717
           AANVQPE VE +WNLR
Sbjct: 361 AANVQPENVESVWNLR 279

[Close]
BLAST of Cla97C03G054020 vs. TAIR 10
Match: AT3G01910.3 (sulfite oxidase )

HSP 1 Score: 327.0 bits (837), Expect = 4.7e-89
Identity = 166/292 (56.85%), Postives = 188/292 (64.38%), Query Frame = 0 

Query: 425 EKGGPYKGSIPLSQASNPKADVLLAYEMNGETLNRDHGYPLRVVVPGVIGARSVKWLDSI 484
           E GGPYK SI LSQA+NP+ADVLLAYEMNGETLNRDHG+PLRVVVPGVIGARSVKWLDSI
Sbjct: 14  ENGGPYKASITLSQATNPEADVLLAYEMNGETLNRDHGFPLRVVVPGVIGARSVKWLDSI 73

Query: 485 SIIAEECQVGNLKYKLGSSPQEIAVRYPNSLHTENTQTLPNNKMKGNPWLFERAVSPQVS 544
           ++IAEE Q                                                    
Sbjct: 74  NVIAEESQ---------------------------------------------------- 133

Query: 545 PHSPKISPPHTESQNPFHGPHKYDIPSAGSPGFFMQKDYKMFPPSVNWDNIDWSTRRPQM 604
                                          GFFMQKDYKMFPPSVNWDNI+WS+RRPQM
Sbjct: 134 -------------------------------GFFMQKDYKMFPPSVNWDNINWSSRRPQM 193

Query: 605 DFPVQSVICSLEDVDHIKPGKVRVSGYAVSGGGRGIERVDISVDGGKNWIEATRYQKIGV 664
           DFPVQS ICS+EDV  +KPGKV + GYAVSGGGRGIERVDIS+DGGKNW+EA+R Q+ G 
Sbjct: 194 DFPVQSAICSVEDVQMVKPGKVSIKGYAVSGGGRGIERVDISLDGGKNWVEASRTQEPGK 222

Query: 665 PYVADSPSSDKWAWVFFEVTLDVLRNTEIVAKAVDSAANVQPETVEEIWNLR 717
            Y+++  SSDKWAWV FE T+DV + TE++AKAVDSAANVQPE VE +WNLR
Sbjct: 254 QYISEHSSSDKWAWVLFEATIDVSQTTEVIAKAVDSAANVQPENVESVWNLR 222

[Close]
BLAST of Cla97C03G054020 vs. TAIR 10
Match: AT1G08080.1 (alpha carbonic anhydrase 7 )

HSP 1 Score: 282.0 bits (720), Expect = 1.7e-75
Identity = 125/217 (57.60%), Postives = 171/217 (78.80%), Query Frame = 0 

Query: 7   DDERGFDYERDGEKGPTHWGELRPEWHTCKAGLMQSPIDLLHERVEIISHLGDLKINYKS 66
           +DER F+Y+++ EKGP  WGEL+PEW  C  G MQSPIDL++ERV I+SHLG L  +Y  
Sbjct: 35  EDEREFNYKKNDEKGPERWGELKPEWEMCGKGEMQSPIDLMNERVNIVSHLGRLNRDYNP 94

Query: 67  SNATLKNRGHDMMMKWVDGGGYMEMNGTQYKLKQCHWHSPSEHTIDGKKFELEAHLVHES 126
           SNATLKNRGHD+M+K+ DG G +++NG +Y+L+Q HWHSPSEHTI+G++F LE H+VHE 
Sbjct: 95  SNATLKNRGHDIMLKFEDGAGTIKINGFEYELQQLHWHSPSEHTINGRRFALELHMVHEG 154

Query: 127 SNGMVSVIGILYQIGEPDYFLSTIEDHLELASDTHEEERVMGIIDPNMLKMGSKQYYRYI 186
            N  ++V+ +LY+IG  D F+ ++E  LE  ++  E E+ +G+IDP  +K+GS++YYRY 
Sbjct: 155 RNRRMAVVTVLYKIGRADTFIRSLEKELEGIAEMEEAEKNVGMIDPTKIKIGSRKYYRYT 214

Query: 187 GSLTVPPCTENVMWTMIHQVRTVTEEQVKLLRVAVHD 224
           GSLT PPCT+NV W+++ +VRTVT +QVKLLRVAVHD
Sbjct: 215 GSLTTPPCTQNVTWSVVRKVRTVTRKQVKLLRVAVHD 251

[Close]
BLAST of Cla97C03G054020 vs. TAIR 10
Match: AT1G08065.1 (alpha carbonic anhydrase 5 )

HSP 1 Score: 255.4 bits (651), Expect = 1.8e-67
Identity = 121/229 (52.84%), Postives = 166/229 (72.49%), Query Frame = 0 

Query: 7   DDERGFDYERDGEKGPTHWGELRPEWHTCKAGLMQSPIDLLHERVEIISHLGDLKINYKS 66
           +DE  F+YE+ GEKGP +WG L+PEW  C  G MQSPIDL  +RV I  +LG L+  Y  
Sbjct: 30  EDETQFNYEKKGEKGPENWGRLKPEWAMCGKGNMQSPIDLTDKRVLIDHNLGYLRSQYLP 89

Query: 67  SNATLKNRGHDMMMKWVDG--GGYMEMNGTQYKLKQCHWHSPSEHTIDGKKFELEAHLVH 126
           SNAT+KNRGHD+MMK+  G  G  + +NGT+YKL+Q HWHSPSEHT++GK+F LE H+VH
Sbjct: 90  SNATIKNRGHDIMMKFEGGNAGLGITINGTEYKLQQIHWHSPSEHTLNGKRFVLEEHMVH 149

Query: 127 ESSNGMVSVIGILYQIGEPDYFLSTIEDHLELASDTHEEERVMGIIDPNMLKMGSKQYYR 186
           +S +G  +V+   Y++G+PDYFL T+E +L+  +DTHE +  + ++ P      SK YYR
Sbjct: 150 QSKDGRNAVVAFFYKLGKPDYFLLTLERYLKRITDTHESQEFVEMVHPRTFGFESKHYYR 209

Query: 187 YIGSLTVPPCTENVMWTMIHQVRTVTEEQVKLLRVAVHD-----AQPLR 229
           +IGSLT PPC+ENV+WT+  ++RTVT +Q+ +LRV VHD     A+PL+
Sbjct: 210 FIGSLTTPPCSENVIWTISKEMRTVTLKQLIMLRVTVHDQSNSNARPLQ 258

The following BLAST results are available for this feature:
BLAST of Cla97C03G054020 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038895568.11.7e-18174.27LOW QUALITY PROTEIN: sulfite oxidase-like [Benincasa hispida][more]
XP_022939080.11.3e-17873.15sulfite oxidase-like [Cucurbita moschata][more]
XP_008462789.16.7e-17872.71PREDICTED: sulfite oxidase-like [Cucumis melo][more]
XP_004139441.38.7e-17872.71sulfite oxidase isoform X1 [Cucumis sativus][more]
KAG6578371.11.1e-17771.74Chloride channel protein CLC-b, partial [Cucurbita argyrosperma subsp. sororia][more]
BLAST of Cla97C03G054020 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9S8506.1e-15862.19Sulfite oxidase OS=Arabidopsis thaliana OX=3702 GN=SOX PE=1 SV=1[more]
Q8L8172.5e-7457.60Alpha carbonic anhydrase 7 OS=Arabidopsis thaliana OX=3702 GN=ACA7 PE=2 SV=1[more]
P078506.1e-7337.11Sulfite oxidase OS=Gallus gallus OX=9031 GN=SUOX PE=1 SV=3[more]
Q84UV82.9e-6756.42Bifunctional monodehydroascorbate reductase and carbonic anhydrase nectarin-3 OS... [more]
F4HUC42.5e-6652.84Alpha carbonic anhydrase 5 OS=Arabidopsis thaliana OX=3702 GN=ACA5 PE=3 SV=1[more]
BLAST of Cla97C03G054020 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1FLM76.5e-17973.15sulfite oxidase-like OS=Cucurbita moschata OX=3662 GN=LOC111445089 PE=4 SV=1[more]
A0A1S3CHS93.2e-17872.71sulfite oxidase-like OS=Cucumis melo OX=3656 GN=LOC103501076 PE=4 SV=1[more]
A0A6J1BX381.2e-17772.71sulfite oxidase isoform X1 OS=Momordica charantia OX=3673 GN=LOC111006477 PE=4 S... [more]
A0A0A0LSD82.1e-17772.48Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G120460 PE=4 SV=1[more]
A0A6J1K3471.4e-17672.48sulfite oxidase-like OS=Cucurbita maxima OX=3661 GN=LOC111489633 PE=4 SV=1[more]
BLAST of Cla97C03G054020 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G01910.14.3e-15962.19sulfite oxidase [more]
AT3G01910.21.1e-12259.31sulfite oxidase [more]
AT3G01910.34.7e-8956.85sulfite oxidase [more]
AT1G08080.11.7e-7557.60alpha carbonic anhydrase 7 [more]
AT1G08065.11.8e-6752.84alpha carbonic anhydrase 5 [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR008335Eukaryotic molybdopterin oxidoreductasePRINTSPR00407EUMOPTERINcoord: 458..471
score: 60.16
coord: 286..302
score: 52.29
coord: 474..487
score: 50.32
coord: 441..457
score: 49.54
coord: 265..279
score: 45.48
IPR001148Alpha carbonic anhydrase domainSMARTSM01057Carb_anhydrase_2acoord: 724..898
e-value: 1.1E-33
score: 127.9
coord: 14..239
e-value: 2.0E-58
score: 210.1
IPR001148Alpha carbonic anhydrase domainPFAMPF00194Carb_anhydrasecoord: 16..222
e-value: 6.4E-37
score: 127.5
coord: 723..837
e-value: 1.2E-18
score: 67.6
IPR001148Alpha carbonic anhydrase domainPROSITEPS51144ALPHA_CA_2coord: 10..252
score: 39.638809
IPR001148Alpha carbonic anhydrase domainPROSITEPS51144ALPHA_CA_2coord: 720..907
score: 27.901815
NoneNo IPR availableGENE3D2.60.40.650coord: 605..721
e-value: 1.2E-32
score: 114.6
NoneNo IPR availablePANTHERPTHR19372SULFITE REDUCTASEcoord: 575..716
NoneNo IPR availablePANTHERPTHR19372:SF15BNAC02G33150D PROTEINcoord: 575..716
NoneNo IPR availablePANTHERPTHR19372:SF15BNAC02G33150D PROTEINcoord: 268..493
NoneNo IPR availablePANTHERPTHR19372SULFITE REDUCTASEcoord: 268..493
NoneNo IPR availableCDDcd02111eukary_SO_Mococoord: 271..716
e-value: 2.56022E-168
score: 492.291
IPR036398Alpha carbonic anhydrase domain superfamilyGENE3D3.10.200.10Alpha carbonic anhydrasecoord: 9..241
e-value: 4.5E-67
score: 228.0
coord: 722..864
e-value: 1.2E-44
score: 154.6
IPR036398Alpha carbonic anhydrase domain superfamilySUPERFAMILY51069Carbonic anhydrasecoord: 11..221
IPR036398Alpha carbonic anhydrase domain superfamilySUPERFAMILY51069Carbonic anhydrasecoord: 721..894
IPR036374Oxidoreductase, molybdopterin-binding domain superfamilyGENE3D3.90.420.10coord: 257..508
e-value: 7.6E-85
score: 286.0
IPR036374Oxidoreductase, molybdopterin-binding domain superfamilySUPERFAMILY56524Oxidoreductase molybdopterin-binding domaincoord: 268..491
IPR000572Oxidoreductase, molybdopterin-binding domainPFAMPF00174Oxidored_molybcoord: 298..491
e-value: 6.7E-52
score: 175.5
IPR005066Moybdenum cofactor oxidoreductase, dimerisationPFAMPF03404Mo-co_dimercoord: 602..716
e-value: 8.5E-29
score: 100.3
IPR018338Carbonic anhydrase, alpha-class, conserved sitePROSITEPS00162ALPHA_CA_1coord: 817..833
IPR018338Carbonic anhydrase, alpha-class, conserved sitePROSITEPS00162ALPHA_CA_1coord: 107..123
IPR041891Carbonic anhydrase, prokaryotic-likeCDDcd03124alpha_CA_prokaryotic_likecoord: 731..896
e-value: 3.66988E-60
score: 202.117
IPR041891Carbonic anhydrase, prokaryotic-likeCDDcd03124alpha_CA_prokaryotic_likecoord: 21..227
e-value: 4.93635E-83
score: 264.134
IPR014756Immunoglobulin E-setSUPERFAMILY81296E set domainscoord: 605..717

Relationships

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

Feature NameUnique NameType
Cla97C03G054020.2Cla97C03G054020.2mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006790 sulfur compound metabolic process
cellular_component GO:0005739 mitochondrion
molecular_function GO:0004089 carbonate dehydratase activity
molecular_function GO:0020037 heme binding
molecular_function GO:0030151 molybdenum ion binding
molecular_function GO:0043546 molybdopterin cofactor binding
molecular_function GO:0008482 sulfite oxidase activity
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0016491 oxidoreductase activity