Clc07G03770 (gene) Watermelon (cordophanus) v2

Overview
NameClc07G03770
Typegene
OrganismCitrullus lanatus subsp. cordophanus cv. cordophanus (Watermelon (cordophanus) v2)
DescriptionThioredoxin H1-like
LocationClcChr07: 3851559 .. 3866814 (+)
RNA-Seq ExpressionClc07G03770
SyntenyClc07G03770
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTGATATGGGAAAAGTAGTTTCATGCCACACTGTTGGTTCATGGAAGCAACAACTCCTCAAAGCCAAACAATACAACAAATTGGTCGTCGTGAATTTTACTGCAACATGGTGTGGCCCGTGTCGTGCCATGGCTCCAGTTCTTGAAGACTTGGCGAGTAAAATGAGTACTAATAATGTTATATTTTTGAAAGTGGACGTTGACGAACTCATGAGTGTTGCGAATGAGTTAGGAGTCGGAGCCTTGCCCTCATTTCAATTCTACAAGAATGGAAAGTTAGTGGACAAGTTCGTGGGGGCAAGAAAAGATGTATTGCACAACACTCTATACAAATATGTGGTTGTGAACTTCACAGCAACATGGTGCGGCCCATGTCGTGCCATGGCTCCAATTCTTGAAGAGCTGTCGAAGAAAATGAGTAATGTTATATTCTTGAAAGTGGATATTGATGAACTCATGAGTATTGCAAAGGAGTTTGGAGTAAGTTCCATTCCTTCATTTCAATTCTTAAAGAATGGGAAGTTGGTGGACAAGTTCGTGGAAATGGGGAAGGTGATCTCATGCCACAATCTTGGCTCATGGAACCAACAACTCCTCAAAGCCAAACAATACAACAAGCTGCTTGTTGTGAACTTTACTGCGAAATGGTGCGGTTCGTGTCGAGCCATGGCTGTTGTTCTCGAAGAACTAGTGAAGAAGATGAATAATGTCAATTTTTTGAAAGTGGACATTGATGAGCTCAATAGTGTTGCGAACGAGTTCGAAGTGAGTGCCCTGCCTTCATTTCAATTCTTCAAGAATGAGAAATTGGTTGAAAAATTTGTGGGTGCAAAGAAAGATGTACTGAAAAGAACTGTATTGAAACATGCCACATGAAAAAGTAGATGAAAGCTGTCTGATTCAAAACTAAAGACGAAATATCATATTTACAAAAGAGAGTAGATTTAGAGCATCAAATGGTGATAATTTTCAAAAGAGAAAGAAGATCAGTTTAGTTACAATACGTACGTTACCTAAATAATATGTAAGAGAAATACATGAAATATATCTTATGTTGAATATATTTTATAAGTATAACATGTATAAGATATGGGGATACGAAAAAGAGTATATTCTAATTAGTATTGTTGAACTAAGGCTCATTTGGTAATTTGAGGTTCATAG

Coding sequence (CDS)

ATGGCTGATATGGGAAAAGTAGTTTCATGCCACACTGTTGGTTCATGGAAGCAACAACTCCTCAAAGCCAAACAATACAACAAATTGGTCGTCGTGAATTTTACTGCAACATGGTGTGGCCCGTGTCGTGCCATGGCTCCAGTTCTTGAAGACTTGGCGAGTAAAATGAGTACTAATAATGTTATATTTTTGAAAGTGGACGTTGACGAACTCATGAGTGTTGCGAATGAGTTAGGAGTCGGAGCCTTGCCCTCATTTCAATTCTACAAGAATGGAAAGTTAGTGGACAAGTTCGTGGGGGCAAGAAAAGATGTATTGCACAACACTCTATACAAATATGTGGTTGTGAACTTCACAGCAACATGGTGCGGCCCATGTCGTGCCATGGCTCCAATTCTTGAAGAGCTGTCGAAGAAAATGAGTAATGTTATATTCTTGAAAGTGGATATTGATGAACTCATGAGTATTGCAAAGGAGTTTGGAGTAAGTTCCATTCCTTCATTTCAATTCTTAAAGAATGGGAAGTTGGTGGACAAGTTCGTGGAAATGGGGAAGGTGATCTCATGCCACAATCTTGGCTCATGGAACCAACAACTCCTCAAAGCCAAACAATACAACAAGCTGCTTGTTGTGAACTTTACTGCGAAATGGTGCGGTTCGTGTCGAGCCATGGCTGTTGTTCTCGAAGAACTAGTGAAGAAGATGAATAATGTCAATTTTTTGAAAGTGGACATTGATGAGCTCAATAGTGTTGCGAACGAGTTCGAAGTGAGTGCCCTGCCTTCATTTCAATTCTTCAAGAATGAGAAATTGGTTGAAAAATTTGTGGGTGCAAAGAAAGATGTACTGAAAAGAACTGTATTGAAACATGCCACATGA

Protein sequence

MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNVIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVVNFTATWCGPCRAMAPILEELSKKMSNVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVDKFVEMGKVISCHNLGSWNQQLLKAKQYNKLLVVNFTAKWCGSCRAMAVVLEELVKKMNNVNFLKVDIDELNSVANEFEVSALPSFQFFKNEKLVEKFVGAKKDVLKRTVLKHAT
Homology
[Close]
BLAST of Clc07G03770 vs. NCBI nr
Match: KAA0051550.1 (thioredoxin H1-like [Cucumis melo var. makuwa])

HSP 1 Score: 323.6 bits (828), Expect = 1.8e-84
Identity = 164/183 (89.62%), Postives = 172/183 (93.99%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           M DMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWC PCR MAPVL+DLA+KMS NN
Sbjct: 1   MNDMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCAPCRGMAPVLKDLANKMS-NN 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKY-VVVNFT 120
           VI LKVDVDELMSVANE GVGALPSFQF+KNGKLVDKFVGARKDVLH T+ K+ VVVNFT
Sbjct: 61  VIVLKVDVDELMSVANEYGVGALPSFQFFKNGKLVDKFVGARKDVLHKTVSKHVVVVNFT 120

Query: 121 ATWCGPCRAMAPILEELSKKMS-NVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVD 180
           A+WCGPCR MAPILEEL+KKMS NVIFLKVDIDELMSIAKEFGVSS+PSFQFLKNGKLVD
Sbjct: 121 ASWCGPCRFMAPILEELAKKMSNNVIFLKVDIDELMSIAKEFGVSSVPSFQFLKNGKLVD 180

Query: 181 KFV 182
           KFV
Sbjct: 181 KFV 182

[Close]
BLAST of Clc07G03770 vs. NCBI nr
Match: KAG8366283.1 (hypothetical protein BUALT_Bualt17G0060300 [Buddleja alternifolia])

HSP 1 Score: 245.7 bits (626), Expect = 4.8e-61
Identity = 122/358 (34.08%), Postives = 197/358 (55.03%), Query Frame = 0 

Query: 2   ADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNV 61
           A  G++++ H+   WK     +KQ +KL+V++FTA+WCGPC+ + P ++  A K +  +V
Sbjct: 28  AKKGQIIAFHSSSKWKIHFEASKQASKLIVIDFTASWCGPCQFIQPAIDKFAEKYT--DV 87

Query: 62  IFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKY-------- 121
            F+K+DVDEL  VA E GV  +P+F F K G  +DK VGA+K+ +   + K+        
Sbjct: 88  EFIKIDVDELHDVAQEFGVQVMPTFLFIKKGNEIDKVVGAKKEEIQKKIEKHSVQPAIIK 147

Query: 122 ---------------------------------VVVNFTATWCGPCRAMAPILEELSKKM 181
                                            +V++FTA+WCGPC+ + P + E ++K 
Sbjct: 148 SNGLQTKKGQIIAFHSSSKWKIHFEASKQTSKLIVIDFTASWCGPCQFIQPAINEFAEKY 207

Query: 182 SNVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVDKFV------------------- 241
           ++V F+K+D+DEL  +A+EFGV  +P+F F+K GK +DK V                   
Sbjct: 208 TDVEFIKIDVDELHDVAQEFGVQVMPTFLFIKKGKEIDKVVGAKKEEIQKKIEKHSVQPA 267

Query: 242 ---------EMGKVISCHNLGSWNQQLLKAKQYNKLLVVNFTAKWCGSCRAMAVVLEELV 291
                    + G++I+ H+   W      +KQ +KL+V++FTA WCG C+ +   + E  
Sbjct: 268 IIKSNGLQTKKGQIIAFHSSSKWKIHFEASKQTSKLIVIDFTASWCGPCQFIQPAINEFA 327

[Close]
BLAST of Clc07G03770 vs. NCBI nr
Match: XP_038893273.1 (thioredoxin H1-like [Benincasa hispida])

HSP 1 Score: 219.5 bits (558), Expect = 3.7e-53
Identity = 105/115 (91.30%), Postives = 111/115 (96.52%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCR MAPVLEDLASKM  N+
Sbjct: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRTMAPVLEDLASKMRNND 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVV 116
           V+FLKVDVDELMSVANELGVGALPSFQF+KNGKLVDKFVGARKDVLH+T+ K+VV
Sbjct: 61  VLFLKVDVDELMSVANELGVGALPSFQFFKNGKLVDKFVGARKDVLHSTVSKHVV 115

[Close]
BLAST of Clc07G03770 vs. NCBI nr
Match: XP_008464900.1 (PREDICTED: thioredoxin H1-like [Cucumis melo] >TYK21273.1 thioredoxin H1-like [Cucumis melo var. makuwa])

HSP 1 Score: 205.7 bits (522), Expect = 5.5e-49
Identity = 101/114 (88.60%), Postives = 106/114 (92.98%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           M DMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWC PCR MAPVL+DLA+KMS NN
Sbjct: 1   MNDMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCAPCRGMAPVLKDLANKMS-NN 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYV 115
           VI LKVDVDELMSVANE GVGALPSFQF+KNGKLVDKFVGARKDVLH T+ K+V
Sbjct: 61  VIVLKVDVDELMSVANEYGVGALPSFQFFKNGKLVDKFVGARKDVLHKTVSKHV 113

[Close]
BLAST of Clc07G03770 vs. NCBI nr
Match: RXH73260.1 (hypothetical protein DVH24_012944 [Malus domestica])

HSP 1 Score: 204.5 bits (519), Expect = 1.2e-48
Identity = 115/287 (40.07%), Postives = 159/287 (55.40%), Query Frame = 0 

Query: 6   KVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNVIFLK 65
           KV++CH+V +W + L K+    KL+VV+FTATWCGPCR +AP+  +LA K     V FLK
Sbjct: 5   KVIACHSVAAWTEHLEKSNVDKKLIVVDFTATWCGPCRFIAPIFAELARK--NPEVTFLK 64

Query: 66  VDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVVNFTATWCGP 125
           VDVDEL +V+ E GV A+P+F F K GK+VDK VGA+K+ L                   
Sbjct: 65  VDVDELKTVSEEWGVEAMPTFLFLKEGKVVDKVVGAKKEELQ------------------ 124

Query: 126 CRAMAPILEELSKKMSNVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVDKFVEMGK 185
                                       + + K    + +P+          DK  E  K
Sbjct: 125 ----------------------------LKVVKHAAPADVPA----------DKMAE-EK 184

Query: 186 VISCHNLGSWNQQLLKAKQYNKLLVVNFTAKWCGSCRAMAVVLEELVKKMNNVNFLKVDI 245
           VI+CH++ +W + L K+    KL+VV+FTA WCG CR +A +  EL +K   V FLKVD+
Sbjct: 185 VIACHSVAAWTEHLEKSHVDKKLVVVDFTAIWCGPCRFIAPIFAELARKNPEVTFLKVDV 232

Query: 246 DELNSVANEFEVSALPSFQFFKNEKLVEKFVGAKKDVLKRTVLKHAT 293
           DEL +V  E+ V A+P+F   K  K+V+K VGAKK+ L+  V+KHAT
Sbjct: 245 DELKTVTEEWGVEAMPTFLILKEGKVVDKVVGAKKEELQLKVVKHAT 232

[Close]
BLAST of Clc07G03770 vs. ExPASy Swiss-Prot
Match: P29448 (Thioredoxin H1 OS=Arabidopsis thaliana OX=3702 GN=TRX1 PE=1 SV=1)

HSP 1 Score: 132.5 bits (332), Expect = 7.8e-30
Identity = 60/113 (53.10%), Postives = 85/113 (75.22%), Query Frame = 0 

Query: 2   ADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNV 61
           ++ G+V++CHTV +W +QL KA +   LVVV+FTA+WCGPCR +AP   DLA K+   NV
Sbjct: 3   SEEGQVIACHTVETWNEQLQKANESKTLVVVDFTASWCGPCRFIAPFFADLAKKLP--NV 62

Query: 62  IFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYV 115
           +FLKVD DEL SVA++  + A+P+F F K GK++DK VGA+KD L +T+ K++
Sbjct: 63  LFLKVDTDELKSVASDWAIQAMPTFMFLKEGKILDKVVGAKKDELQSTIAKHL 113

[Close]
BLAST of Clc07G03770 vs. ExPASy Swiss-Prot
Match: Q39362 (Thioredoxin H-type 2 OS=Brassica napus OX=3708 GN=THL-2 PE=2 SV=1)

HSP 1 Score: 129.0 bits (323), Expect = 8.6e-29
Identity = 62/115 (53.91%), Postives = 81/115 (70.43%), Query Frame = 0 

Query: 2   ADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNV 61
           A+ G+V+ CH +  W  QL  AKQ NKL+V++FTA+WC PCR +APV  DLA K   ++ 
Sbjct: 3   AEEGQVIGCHEIDVWAVQLDTAKQSNKLIVIDFTASWCPPCRMIAPVFADLAKKF-MSSA 62

Query: 62  IFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVV 117
           IF KVDVDEL +VA E GV A+P+F   K+G +VDK VGARK+ LH T+ K+  V
Sbjct: 63  IFFKVDVDELQNVAQEFGVEAMPTFVLIKDGNVVDKVVGARKEDLHATIAKHTGV 116

[Close]
BLAST of Clc07G03770 vs. ExPASy Swiss-Prot
Match: Q39239 (Thioredoxin H4 OS=Arabidopsis thaliana OX=3702 GN=TRX4 PE=1 SV=2)

HSP 1 Score: 126.3 bits (316), Expect = 5.6e-28
Identity = 61/115 (53.04%), Postives = 80/115 (69.57%), Query Frame = 0 

Query: 2   ADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNV 61
           A+ G+V+ CHT   W  QL KAK+ NKL+V++FTA+WC PCR +AP+  DLA K   ++ 
Sbjct: 3   AEEGQVIGCHTNDVWTVQLDKAKESNKLIVIDFTASWCPPCRMIAPIFNDLAKKF-MSSA 62

Query: 62  IFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVV 117
           IF KVDVDEL SVA E GV A+P+F F K G++VDK VGA K+ L   + K+  V
Sbjct: 63  IFFKVDVDELQSVAKEFGVEAMPTFVFIKAGEVVDKLVGANKEDLQAKIVKHTGV 116

[Close]
BLAST of Clc07G03770 vs. ExPASy Swiss-Prot
Match: Q43636 (Thioredoxin H-type OS=Ricinus communis OX=3988 PE=3 SV=1)

HSP 1 Score: 125.9 bits (315), Expect = 7.3e-28
Identity = 58/109 (53.21%), Postives = 79/109 (72.48%), Query Frame = 0 

Query: 182 EMGKVISCHNLGSWNQQLLKAKQYNKLLVVNFTAKWCGSCRAMAVVLEELVKKMNNVNFL 241
           E G+VI CH + +WN+QL K      L+VV+FTA WCG CR +A  L EL KK+ NV FL
Sbjct: 4   EEGQVIGCHTVEAWNEQLQKGNDTKGLIVVDFTASWCGPCRFIAPFLAELAKKLPNVTFL 63

Query: 242 KVDIDELNSVANEFEVSALPSFQFFKNEKLVEKFVGAKKDVLKRTVLKH 291
           KVD+DEL +VA+E+ V ++P+F F K  K+++K VGAKKD L++T+ KH
Sbjct: 64  KVDVDELKTVAHEWAVESMPTFMFLKEGKIMDKVVGAKKDELQQTIAKH 112

[Close]
BLAST of Clc07G03770 vs. ExPASy Swiss-Prot
Match: Q07090 (Thioredoxin H-type 2 OS=Nicotiana tabacum OX=4097 PE=3 SV=1)

HSP 1 Score: 125.6 bits (314), Expect = 9.5e-28
Identity = 62/120 (51.67%), Postives = 81/120 (67.50%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           MA+ G+V+  HTV +W + L K     KL+VV+FTA+WCGPC+ +A    +LA KM T  
Sbjct: 1   MAEEGQVIGVHTVDAWNEHLQKGIDDKKLIVVDFTASWCGPCKFIASFYAELAKKMPT-- 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVVNFTA 120
           V FLKVDVDEL SVA +  V A+P+F F K GK+VDK VGA+KD L  T+ K++    TA
Sbjct: 61  VTFLKVDVDELKSVATDWAVEAMPTFMFLKEGKIVDKVVGAKKDELQQTIAKHISSTSTA 118

[Close]
BLAST of Clc07G03770 vs. ExPASy TrEMBL
Match: A0A5A7U8S0 (Thioredoxin H1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold174G00820 PE=4 SV=1)

HSP 1 Score: 323.6 bits (828), Expect = 8.8e-85
Identity = 164/183 (89.62%), Postives = 172/183 (93.99%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           M DMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWC PCR MAPVL+DLA+KMS NN
Sbjct: 1   MNDMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCAPCRGMAPVLKDLANKMS-NN 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKY-VVVNFT 120
           VI LKVDVDELMSVANE GVGALPSFQF+KNGKLVDKFVGARKDVLH T+ K+ VVVNFT
Sbjct: 61  VIVLKVDVDELMSVANEYGVGALPSFQFFKNGKLVDKFVGARKDVLHKTVSKHVVVVNFT 120

Query: 121 ATWCGPCRAMAPILEELSKKMS-NVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVD 180
           A+WCGPCR MAPILEEL+KKMS NVIFLKVDIDELMSIAKEFGVSS+PSFQFLKNGKLVD
Sbjct: 121 ASWCGPCRFMAPILEELAKKMSNNVIFLKVDIDELMSIAKEFGVSSVPSFQFLKNGKLVD 180

Query: 181 KFV 182
           KFV
Sbjct: 181 KFV 182

[Close]
BLAST of Clc07G03770 vs. ExPASy TrEMBL
Match: A0A6N2LF06 (Uncharacterized protein OS=Salix viminalis OX=40686 GN=SVIM_LOCUS212340 PE=4 SV=1)

HSP 1 Score: 216.9 bits (551), Expect = 1.2e-52
Identity = 125/291 (42.96%), Postives = 160/291 (54.98%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           MA+ G+V++CHTV +WK+   K K   KL+VV+FTATWC PCR +AP+  +LA K  T  
Sbjct: 1   MAEEGQVIACHTVDTWKEHFEKGKGSQKLIVVDFTATWCPPCRMIAPIFAELAKKFPT-- 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVVNFTA 120
           V FLKVDVDEL +VA E  V A+P+F F K+GK+VDK VGA KD L              
Sbjct: 61  VTFLKVDVDELKAVAEEWNVEAMPTFLFLKDGKIVDKTVGADKDGL-------------- 120

Query: 121 TWCGPCRAMAPILEELSKKMSNVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVDKF 180
                     P+LE   +                                          
Sbjct: 121 ----------PVLEMAGE------------------------------------------ 180

Query: 181 VEMGKVISCHNLGSWNQQLLKAKQYNKLLVVNFTAKWCGSCRAMAVVLEELVKKMNNVNF 240
              G+VI C    SWNQQL K K+ NKL+VV+FTA WCG C+ +A  +EEL  K+ NV F
Sbjct: 181 ---GQVIVCQTEESWNQQLEKGKESNKLIVVDFTASWCGPCKLIAPAVEELAWKLPNVTF 220

Query: 241 LKVDIDELNSVANEFEVSALPSFQFFKNEKLVEKFVGAKKDVLKRTVLKHA 292
           LKVD+DEL SVA E++V A+P+F F K+ K+VEK+ GA K  L+  V KHA
Sbjct: 241 LKVDVDELQSVAQEWDVRAMPTFIFLKDGKIVEKYTGANKMKLQAAVEKHA 220

[Close]
BLAST of Clc07G03770 vs. ExPASy TrEMBL
Match: A0A5D3DCH1 (Thioredoxin H1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold101G00270 PE=4 SV=1)

HSP 1 Score: 205.7 bits (522), Expect = 2.7e-49
Identity = 101/114 (88.60%), Postives = 106/114 (92.98%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           M DMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWC PCR MAPVL+DLA+KMS NN
Sbjct: 1   MNDMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCAPCRGMAPVLKDLANKMS-NN 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYV 115
           VI LKVDVDELMSVANE GVGALPSFQF+KNGKLVDKFVGARKDVLH T+ K+V
Sbjct: 61  VIVLKVDVDELMSVANEYGVGALPSFQFFKNGKLVDKFVGARKDVLHKTVSKHV 113

[Close]
BLAST of Clc07G03770 vs. ExPASy TrEMBL
Match: A0A1S3CMM6 (thioredoxin H1-like OS=Cucumis melo OX=3656 GN=LOC103502660 PE=4 SV=1)

HSP 1 Score: 205.7 bits (522), Expect = 2.7e-49
Identity = 101/114 (88.60%), Postives = 106/114 (92.98%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           M DMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWC PCR MAPVL+DLA+KMS NN
Sbjct: 1   MNDMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCAPCRGMAPVLKDLANKMS-NN 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYV 115
           VI LKVDVDELMSVANE GVGALPSFQF+KNGKLVDKFVGARKDVLH T+ K+V
Sbjct: 61  VIVLKVDVDELMSVANEYGVGALPSFQFFKNGKLVDKFVGARKDVLHKTVSKHV 113

[Close]
BLAST of Clc07G03770 vs. ExPASy TrEMBL
Match: A0A498HR88 (Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_012944 PE=4 SV=1)

HSP 1 Score: 204.5 bits (519), Expect = 5.9e-49
Identity = 115/287 (40.07%), Postives = 159/287 (55.40%), Query Frame = 0 

Query: 6   KVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNVIFLK 65
           KV++CH+V +W + L K+    KL+VV+FTATWCGPCR +AP+  +LA K     V FLK
Sbjct: 5   KVIACHSVAAWTEHLEKSNVDKKLIVVDFTATWCGPCRFIAPIFAELARK--NPEVTFLK 64

Query: 66  VDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVVNFTATWCGP 125
           VDVDEL +V+ E GV A+P+F F K GK+VDK VGA+K+ L                   
Sbjct: 65  VDVDELKTVSEEWGVEAMPTFLFLKEGKVVDKVVGAKKEELQ------------------ 124

Query: 126 CRAMAPILEELSKKMSNVIFLKVDIDELMSIAKEFGVSSIPSFQFLKNGKLVDKFVEMGK 185
                                       + + K    + +P+          DK  E  K
Sbjct: 125 ----------------------------LKVVKHAAPADVPA----------DKMAE-EK 184

Query: 186 VISCHNLGSWNQQLLKAKQYNKLLVVNFTAKWCGSCRAMAVVLEELVKKMNNVNFLKVDI 245
           VI+CH++ +W + L K+    KL+VV+FTA WCG CR +A +  EL +K   V FLKVD+
Sbjct: 185 VIACHSVAAWTEHLEKSHVDKKLVVVDFTAIWCGPCRFIAPIFAELARKNPEVTFLKVDV 232

Query: 246 DELNSVANEFEVSALPSFQFFKNEKLVEKFVGAKKDVLKRTVLKHAT 293
           DEL +V  E+ V A+P+F   K  K+V+K VGAKK+ L+  V+KHAT
Sbjct: 245 DELKTVTEEWGVEAMPTFLILKEGKVVDKVVGAKKEELQLKVVKHAT 232

[Close]
BLAST of Clc07G03770 vs. TAIR 10
Match: AT3G51030.1 (thioredoxin H-type 1 )

HSP 1 Score: 132.5 bits (332), Expect = 5.5e-31
Identity = 60/113 (53.10%), Postives = 85/113 (75.22%), Query Frame = 0 

Query: 2   ADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNV 61
           ++ G+V++CHTV +W +QL KA +   LVVV+FTA+WCGPCR +AP   DLA K+   NV
Sbjct: 3   SEEGQVIACHTVETWNEQLQKANESKTLVVVDFTASWCGPCRFIAPFFADLAKKLP--NV 62

Query: 62  IFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYV 115
           +FLKVD DEL SVA++  + A+P+F F K GK++DK VGA+KD L +T+ K++
Sbjct: 63  LFLKVDTDELKSVASDWAIQAMPTFMFLKEGKILDKVVGAKKDELQSTIAKHL 113

[Close]
BLAST of Clc07G03770 vs. TAIR 10
Match: AT1G19730.1 (Thioredoxin superfamily protein )

HSP 1 Score: 126.3 bits (316), Expect = 4.0e-29
Identity = 61/115 (53.04%), Postives = 80/115 (69.57%), Query Frame = 0 

Query: 2   ADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNV 61
           A+ G+V+ CHT   W  QL KAK+ NKL+V++FTA+WC PCR +AP+  DLA K   ++ 
Sbjct: 3   AEEGQVIGCHTNDVWTVQLDKAKESNKLIVIDFTASWCPPCRMIAPIFNDLAKKF-MSSA 62

Query: 62  IFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVV 117
           IF KVDVDEL SVA E GV A+P+F F K G++VDK VGA K+ L   + K+  V
Sbjct: 63  IFFKVDVDELQSVAKEFGVEAMPTFVFIKAGEVVDKLVGANKEDLQAKIVKHTGV 116

[Close]
BLAST of Clc07G03770 vs. TAIR 10
Match: AT1G45145.1 (thioredoxin H-type 5 )

HSP 1 Score: 119.0 bits (297), Expect = 6.3e-27
Identity = 52/113 (46.02%), Postives = 79/113 (69.91%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           MA  G+V++CHT+  W +++  A +  KL+V++FTA+WC PCR +APV  ++A K +  N
Sbjct: 1   MAGEGEVIACHTLEVWNEKVKDANESKKLIVIDFTASWCPPCRFIAPVFAEMAKKFT--N 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKY 114
           V+F K+DVDEL +VA E  V A+P+F F K G ++D+ VGA KD ++  L K+
Sbjct: 61  VVFFKIDVDELQAVAQEFKVEAMPTFVFMKEGNIIDRVVGAAKDEINEKLMKH 111

[Close]
BLAST of Clc07G03770 vs. TAIR 10
Match: AT5G42980.1 (thioredoxin 3 )

HSP 1 Score: 113.2 bits (282), Expect = 3.5e-25
Identity = 56/116 (48.28%), Postives = 77/116 (66.38%), Query Frame = 0 

Query: 1   MADMGKVVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNN 60
           MA  G+V++CHTV  W ++L  A +  KL+V++FTATWC PCR +APV  DLA K    +
Sbjct: 1   MAAEGEVIACHTVEDWTEKLKAANESKKLIVIDFTATWCPPCRFIAPVFADLAKKHL--D 60

Query: 61  VIFLKVDVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKYVVV 117
           V+F KVDVDEL +VA E  V A+P+F F K G++ +  VGA K+ +   L K+  V
Sbjct: 61  VVFFKVDVDELNTVAEEFKVQAMPTFIFMKEGEIKETVVGAAKEEIIANLEKHKTV 114

[Close]
BLAST of Clc07G03770 vs. TAIR 10
Match: AT1G69880.1 (thioredoxin H-type 8 )

HSP 1 Score: 98.2 bits (243), Expect = 1.2e-20
Identity = 48/107 (44.86%), Postives = 65/107 (60.75%), Query Frame = 0 

Query: 7   VVSCHTVGSWKQQLLKAKQYNKLVVVNFTATWCGPCRAMAPVLEDLASKMSTNNVIFLKV 66
           +V    +  WK +L   K  NKL+V+ FTA WCGPC+ + P LE+LA+K +  +V F+K+
Sbjct: 39  IVEIKNMNQWKSRLNALKDTNKLLVIEFTAKWCGPCKTLEPKLEELAAKYT--DVEFVKI 98

Query: 67  DVDELMSVANELGVGALPSFQFYKNGKLVDKFVGARKDVLHNTLYKY 114
           DVD LMSV  E  +  LP+  F K G+ VD  VG + D L   L KY
Sbjct: 99  DVDVLMSVWMEFNLSTLPAIVFMKRGREVDMVVGVKVDELERKLNKY 143

The following BLAST results are available for this feature:
BLAST of Clc07G03770 vs. NCBI nr
Match NameE-valueIdentityDescription
KAA0051550.11.8e-8489.62thioredoxin H1-like [Cucumis melo var. makuwa][more]
KAG8366283.14.8e-6134.08hypothetical protein BUALT_Bualt17G0060300 [Buddleja alternifolia][more]
XP_038893273.13.7e-5391.30thioredoxin H1-like [Benincasa hispida][more]
XP_008464900.15.5e-4988.60PREDICTED: thioredoxin H1-like [Cucumis melo] >TYK21273.1 thioredoxin H1-like [C... [more]
RXH73260.11.2e-4840.07hypothetical protein DVH24_012944 [Malus domestica][more]
BLAST of Clc07G03770 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
P294487.8e-3053.10Thioredoxin H1 OS=Arabidopsis thaliana OX=3702 GN=TRX1 PE=1 SV=1[more]
Q393628.6e-2953.91Thioredoxin H-type 2 OS=Brassica napus OX=3708 GN=THL-2 PE=2 SV=1[more]
Q392395.6e-2853.04Thioredoxin H4 OS=Arabidopsis thaliana OX=3702 GN=TRX4 PE=1 SV=2[more]
Q436367.3e-2853.21Thioredoxin H-type OS=Ricinus communis OX=3988 PE=3 SV=1[more]
Q070909.5e-2851.67Thioredoxin H-type 2 OS=Nicotiana tabacum OX=4097 PE=3 SV=1[more]
BLAST of Clc07G03770 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7U8S08.8e-8589.62Thioredoxin H1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold174G... [more]
A0A6N2LF061.2e-5242.96Uncharacterized protein OS=Salix viminalis OX=40686 GN=SVIM_LOCUS212340 PE=4 SV=... [more]
A0A5D3DCH12.7e-4988.60Thioredoxin H1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold101G... [more]
A0A1S3CMM62.7e-4988.60thioredoxin H1-like OS=Cucumis melo OX=3656 GN=LOC103502660 PE=4 SV=1[more]
A0A498HR885.9e-4940.07Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_012944 PE=4 SV=1[more]
BLAST of Clc07G03770 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G51030.15.5e-3153.10thioredoxin H-type 1 [more]
AT1G19730.14.0e-2953.04Thioredoxin superfamily protein [more]
AT1G45145.16.3e-2746.02thioredoxin H-type 5 [more]
AT5G42980.13.5e-2548.28thioredoxin 3 [more]
AT1G69880.11.2e-2044.86thioredoxin H-type 8 [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (cordophanus) v2
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePRINTSPR00421THIOREDOXINcoord: 122..131
score: 64.83
coord: 30..38
score: 53.52
coord: 256..267
score: 33.47
NoneNo IPR availableGENE3D3.40.30.10Glutaredoxincoord: 184..292
e-value: 5.5E-32
score: 112.2
coord: 1..109
e-value: 1.3E-34
score: 120.7
coord: 110..183
e-value: 1.7E-29
score: 104.2
NoneNo IPR availablePANTHERPTHR10438:SF431THIOREDOXINcoord: 182..291
coord: 1..113
coord: 112..181
NoneNo IPR availablePANTHERPTHR10438THIOREDOXINcoord: 182..291
coord: 1..113
coord: 112..181
NoneNo IPR availableCDDcd02947TRX_familycoord: 197..287
e-value: 1.3526E-26
score: 98.014
NoneNo IPR availableCDDcd02947TRX_familycoord: 112..181
e-value: 3.03772E-31
score: 110.34
NoneNo IPR availableCDDcd02947TRX_familycoord: 18..103
e-value: 2.58456E-30
score: 107.644
IPR013766Thioredoxin domainPFAMPF00085Thioredoxincoord: 112..182
e-value: 6.3E-23
score: 80.7
coord: 192..287
e-value: 3.4E-24
score: 84.8
coord: 10..110
e-value: 8.3E-27
score: 93.2
IPR013766Thioredoxin domainPROSITEPS51352THIOREDOXIN_2coord: 72..205
score: 13.335756
IPR017937Thioredoxin, conserved sitePROSITEPS00194THIOREDOXIN_1coord: 115..133
IPR017937Thioredoxin, conserved sitePROSITEPS00194THIOREDOXIN_1coord: 210..228
IPR017937Thioredoxin, conserved sitePROSITEPS00194THIOREDOXIN_1coord: 31..49
IPR036249Thioredoxin-like superfamilySUPERFAMILY52833Thioredoxin-likecoord: 182..290
IPR036249Thioredoxin-like superfamilySUPERFAMILY52833Thioredoxin-likecoord: 4..112
IPR036249Thioredoxin-like superfamilySUPERFAMILY52833Thioredoxin-likecoord: 112..181

Relationships

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

Feature NameUnique NameType
Clc07G03770.2Clc07G03770.2mRNA