Cmc04g0112641 (gene) Melon (Charmono) v1.1

Overview
NameCmc04g0112641
Typegene
OrganismCucumis melo L. var. cantalupensis cv. Charmono (Melon (Charmono) v1.1)
Descriptioninactive TPR repeat-containing thioredoxin TTL3-like
LocationCMiso1.1chr04: 31376551 .. 31397026 (-)
RNA-Seq ExpressionCmc04g0112641
SyntenyCmc04g0112641
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTTCCACCGGACATGTATTTCTCATTGCTCTCTCACGTTTCTCCCATGCTCTCTCACTTTCTCCCTTGCTTTCTCACTGTCTCCCTTGCTCTCTCACTGTCTCCCTCGTCTTCAACAGGGAGCCAAATTGGGGAGTCCAGGAAATCTTGCTGAAGGGAATTTGGGGTCTGGGAATTTACAATTTGGTAGTGAAACTTGGGTGGTTAAAAGGGCAATGGCGAGCTCCGATTCAGAGGAGGTCAAAAGGGCTGCGAATGAATTGTATAGAAGAGGGAGTTTTGTAGAAGCCTTGTCGTTGTATGATCGTGCAATTTCTTTGTTCCCGGAAAATGCTGCTTATCGGAGCAATAGGGCCGCGGCGTTGACTGCACTTGGTCGGCTGGGTGAGGCAGTGAGAGAGTGTGAGGAGGCTGTGAGGCTCGATCTTGGCTATGGCAGGGCTCACCAGCGGCTTTCTGCTCTTTATCTTCGCACAGTGGTCTACCACTTAAATTAAGAGGCTTGTTCAAGATCCTAGAAGATTCATTTGGGCTGTGAGTATAGGACAATTGCGATGCAGAATCACGCAAACAAGGCTTGGAGCTCTAGTAGAAAATGCAAATATGCTAATTCCTTATGCTGTTGGAAATACAACAAATTATTGAAGAGTCGACACAAGATGGTGTTCAAAATCTTCGGTGCAAAGGTGATGATATTAAAAAACGGTTGAGGCTAGGACAAGAAGGAGATGCACCTTCAAACACTTAGCCGCTTTGACTTCTAATGACGAACTTGAATATATGGGCCAAGATGATGGAAGAGGCTAGAATGGAGGAATGCTCTGAGGAAGAAGGATTACTCCTTGCTTAAGTCAGTACCCGACGGTACAATGAATTGCCATATTAGTCTATTGATCTGACTCTCATGCTCATTTCAAGCTTGAAGGCAATTGCCCCCGCAAAGACCACAACCTTCATCAAGTCTTATTGCATCAACTATGGCTCACATTCATTAAGAAAATGGGCAGATACCTTGATAGTTTTTTGGGACCATGTCTCGACCTATCAACCACTTGGTTGCCATTTTCTCTCTTTTTCGAATTTTTCATAGACCGTGAAAATTTTGGCTGGCTTGTCTTTCAAATTTTTCTTAGAAGTAGAATTTTTCAAATTTTATTATCTTGTAAAAGAACAATGATTATCAAATGTAATGGGTTCTAATGATCTTCTACTTCTTATCGACACTACTTGACAGATTTACAGACTTGGAATAGGCAAGAGGAAGCTAGAAAAGGCGGCTGGAAATAGCCAACAACTTGAAGGTGAAGTTTGTATAGTAATATCTTAAAACAATTAGATTGCTTTCTTGATCGGAGTTTTGTATCATGTCTGATTGGTGCTAATAAAATTGTCTAAACTGACGTTATTAAGTGGCACTTAGACATTTGACAGCTCTCTCATTAGCTGATTTTGCAGCCTTGTTGTTCATCAATTTCTTCTTTCGCCTTGTCATATATTCATGTTCCCTTACCTTTTAAGATTGAAATGGTGTCTTTATTTTCTGCTATTGTGTTT

Coding sequence (CDS)

ATGGCGAGCTCCGATTCAGAGGAGGTCAAAAGGGCTGCGAATGAATTGTATAGAAGAGGGAGTTTTGTAGAAGCCTTGTCGTTGTATGATCGTGCAATTTCTTTGTTCCCGGAAAATGCTGCTTATCGGAGCAATAGGGCCGCGGCGTTGACTGCACTTGGTCGGCTGGGTGAGGCAGTGAGAGAGTGTGAGGAGGCTGTGAGGCTCGATCTTGGCTATGGCAGGGCTCACCAGCGGCTTTCTGCTCTTTATCTTCGCACAGTGGTCTACCACTTAAATTAA

Protein sequence

MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVRECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN
Homology
[Close]
BLAST of Cmc04g0112641 vs. NCBI nr
Match: XP_016899656.1 (PREDICTED: inactive TPR repeat-containing thioredoxin TTL3-like, partial [Cucumis melo])

HSP 1 Score: 178.7 bits (452), Expect = 2.3e-41
Identity = 93/93 (100.00%), Postives = 93/93 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 219 MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 278

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN 94
           RECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN
Sbjct: 279 RECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN 311

[Close]
BLAST of Cmc04g0112641 vs. NCBI nr
Match: KAA0053839.1 (inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa] >TYK25561.1 inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa])

HSP 1 Score: 164.1 bits (414), Expect = 5.8e-37
Identity = 86/86 (100.00%), Postives = 86/86 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 230 MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 289

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRLSALYLR
Sbjct: 290 RECEEAVRLDLGYGRAHQRLSALYLR 315

[Close]
BLAST of Cmc04g0112641 vs. NCBI nr
Match: KAA0053815.1 (inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa])

HSP 1 Score: 162.9 bits (411), Expect = 1.3e-36
Identity = 85/86 (98.84%), Postives = 86/86 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 56  MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 115

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRL+ALYLR
Sbjct: 116 RECEEAVRLDLGYGRAHQRLAALYLR 141

[Close]
BLAST of Cmc04g0112641 vs. NCBI nr
Match: TYK25586.1 (inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa])

HSP 1 Score: 162.9 bits (411), Expect = 1.3e-36
Identity = 85/86 (98.84%), Postives = 86/86 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 56  MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 115

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRL+ALYLR
Sbjct: 116 RECEEAVRLDLGYGRAHQRLAALYLR 141

[Close]
BLAST of Cmc04g0112641 vs. NCBI nr
Match: XP_004136849.1 (inactive TPR repeat-containing thioredoxin TTL3 [Cucumis sativus] >KGN43656.1 hypothetical protein Csa_017307 [Cucumis sativus])

HSP 1 Score: 161.0 bits (406), Expect = 4.9e-36
Identity = 84/86 (97.67%), Postives = 85/86 (98.84%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSD EEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 249 MASSDPEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 308

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRL+ALYLR
Sbjct: 309 RECEEAVRLDLGYGRAHQRLAALYLR 334

[Close]
BLAST of Cmc04g0112641 vs. ExPASy Swiss-Prot
Match: Q9SIN1 (Inactive TPR repeat-containing thioredoxin TTL3 OS=Arabidopsis thaliana OX=3702 GN=TTL3 PE=1 SV=2)

HSP 1 Score: 118.6 bits (296), Expect = 3.7e-26
Identity = 61/80 (76.25%), Postives = 69/80 (86.25%), Query Frame = 0 

Query: 7   EEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVRECEEA 66
           EE+KR  N++YRRGSF EALSLYDRAI + P NAAYRSNRAAALTAL RLGEAV+EC EA
Sbjct: 221 EELKRMGNDMYRRGSFSEALSLYDRAILISPGNAAYRSNRAAALTALRRLGEAVKECLEA 280

Query: 67  VRLDLGYGRAHQRLSALYLR 87
           VR+D  Y RAHQRL++LYLR
Sbjct: 281 VRIDPSYSRAHQRLASLYLR 300

[Close]
BLAST of Cmc04g0112641 vs. ExPASy Swiss-Prot
Match: Q84JR9 (TPR repeat-containing thioredoxin TTL4 OS=Arabidopsis thaliana OX=3702 GN=TTL4 PE=2 SV=1)

HSP 1 Score: 118.6 bits (296), Expect = 3.7e-26
Identity = 61/83 (73.49%), Postives = 70/83 (84.34%), Query Frame = 0 

Query: 4   SDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVREC 63
           SDSEEVK+A N +YR+G++ EAL+LYDRAISL PEN AYRSNRAAAL A GRL EAV+EC
Sbjct: 209 SDSEEVKKAGNVMYRKGNYAEALALYDRAISLSPENPAYRSNRAAALAASGRLEEAVKEC 268

Query: 64  EEAVRLDLGYGRAHQRLSALYLR 87
            EAVR D  Y RAHQRL++LYLR
Sbjct: 269 LEAVRCDPSYARAHQRLASLYLR 291

[Close]
BLAST of Cmc04g0112641 vs. ExPASy Swiss-Prot
Match: Q9MAH1 (TPR repeat-containing thioredoxin TTL1 OS=Arabidopsis thaliana OX=3702 GN=TTL1 PE=1 SV=1)

HSP 1 Score: 115.5 bits (288), Expect = 3.1e-25
Identity = 59/83 (71.08%), Postives = 67/83 (80.72%), Query Frame = 0 

Query: 4   SDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVREC 63
           SDSEEVKR  NE+YR+G F EAL LYDRAI+L P NAAYRSNRAAAL  L R+GEAV+EC
Sbjct: 225 SDSEEVKRVGNEMYRKGLFNEALKLYDRAIALSPTNAAYRSNRAAALIGLSRIGEAVKEC 284

Query: 64  EEAVRLDLGYGRAHQRLSALYLR 87
           E+AVR D  YGRAH RL+ L +R
Sbjct: 285 EDAVRSDPNYGRAHHRLALLLIR 307

[Close]
BLAST of Cmc04g0112641 vs. ExPASy Swiss-Prot
Match: F4IXE4 (TPR repeat-containing thioredoxin TTL2 OS=Arabidopsis thaliana OX=3702 GN=TTL2 PE=2 SV=2)

HSP 1 Score: 105.1 bits (261), Expect = 4.2e-22
Identity = 52/83 (62.65%), Postives = 65/83 (78.31%), Query Frame = 0 

Query: 4   SDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVREC 63
           S+ EEVKR  NE++R+G F EAL LYDRAI L P NA Y SNRAAAL++LG++GEAV EC
Sbjct: 256 SNPEEVKRFGNEMFRKGCFAEALKLYDRAIELSPSNATYHSNRAAALSSLGQIGEAVNEC 315

Query: 64  EEAVRLDLGYGRAHQRLSALYLR 87
           E A++LD  + RAH RL++L LR
Sbjct: 316 EIAIKLDPNFARAHHRLASLLLR 338

[Close]
BLAST of Cmc04g0112641 vs. ExPASy Swiss-Prot
Match: Q8BJU0 (Small glutamine-rich tetratricopeptide repeat-containing protein alpha OS=Mus musculus OX=10090 GN=Sgta PE=1 SV=2)

HSP 1 Score: 62.4 bits (150), Expect = 3.1e-09
Identity = 33/78 (42.31%), Postives = 49/78 (62.82%), Query Frame = 0 

Query: 3   SSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVRE 62
           S+++E +K   NE  +  +F  A+ LY +AI L P NA Y  NRAAA + LG    AV++
Sbjct: 89  SAEAERLKTEGNEQMKLENFEAAVHLYGKAIELNPANAVYFCNRAAAYSKLGNYVGAVQD 148

Query: 63  CEEAVRLDLGYGRAHQRL 81
           CE A+ +D GY +A+ R+
Sbjct: 149 CERAIGIDPGYSKAYGRM 166

[Close]
BLAST of Cmc04g0112641 vs. ExPASy TrEMBL
Match: A0A1S4DUJ6 (inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo OX=3656 GN=LOC103487121 PE=4 SV=1)

HSP 1 Score: 178.7 bits (452), Expect = 1.1e-41
Identity = 93/93 (100.00%), Postives = 93/93 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 219 MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 278

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN 94
           RECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN
Sbjct: 279 RECEEAVRLDLGYGRAHQRLSALYLRTVVYHLN 311

[Close]
BLAST of Cmc04g0112641 vs. ExPASy TrEMBL
Match: A0A5A7UK41 (Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G007140 PE=4 SV=1)

HSP 1 Score: 164.1 bits (414), Expect = 2.8e-37
Identity = 86/86 (100.00%), Postives = 86/86 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 230 MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 289

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRLSALYLR
Sbjct: 290 RECEEAVRLDLGYGRAHQRLSALYLR 315

[Close]
BLAST of Cmc04g0112641 vs. ExPASy TrEMBL
Match: A0A5D3DPJ1 (Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G007450 PE=4 SV=1)

HSP 1 Score: 162.9 bits (411), Expect = 6.3e-37
Identity = 85/86 (98.84%), Postives = 86/86 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 56  MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 115

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRL+ALYLR
Sbjct: 116 RECEEAVRLDLGYGRAHQRLAALYLR 141

[Close]
BLAST of Cmc04g0112641 vs. ExPASy TrEMBL
Match: A0A5A7UJF4 (Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold135G002010 PE=4 SV=1)

HSP 1 Score: 162.9 bits (411), Expect = 6.3e-37
Identity = 85/86 (98.84%), Postives = 86/86 (100.00%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 56  MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 115

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRL+ALYLR
Sbjct: 116 RECEEAVRLDLGYGRAHQRLAALYLR 141

[Close]
BLAST of Cmc04g0112641 vs. ExPASy TrEMBL
Match: A0A5A7SMW1 (Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold13G003020 PE=4 SV=1)

HSP 1 Score: 161.0 bits (406), Expect = 2.4e-36
Identity = 84/86 (97.67%), Postives = 85/86 (98.84%), Query Frame = 0 

Query: 1   MASSDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 60
           MASSD EEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV
Sbjct: 239 MASSDPEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAV 298

Query: 61  RECEEAVRLDLGYGRAHQRLSALYLR 87
           RECEEAVRLDLGYGRAHQRL+ALYLR
Sbjct: 299 RECEEAVRLDLGYGRAHQRLAALYLR 324

[Close]
BLAST of Cmc04g0112641 vs. TAIR 10
Match: AT2G42580.1 (tetratricopetide-repeat thioredoxin-like 3 )

HSP 1 Score: 118.6 bits (296), Expect = 2.6e-27
Identity = 61/80 (76.25%), Postives = 69/80 (86.25%), Query Frame = 0 

Query: 7   EEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVRECEEA 66
           EE+KR  N++YRRGSF EALSLYDRAI + P NAAYRSNRAAALTAL RLGEAV+EC EA
Sbjct: 221 EELKRMGNDMYRRGSFSEALSLYDRAILISPGNAAYRSNRAAALTALRRLGEAVKECLEA 280

Query: 67  VRLDLGYGRAHQRLSALYLR 87
           VR+D  Y RAHQRL++LYLR
Sbjct: 281 VRIDPSYSRAHQRLASLYLR 300

[Close]
BLAST of Cmc04g0112641 vs. TAIR 10
Match: AT3G58620.1 (tetratricopetide-repeat thioredoxin-like 4 )

HSP 1 Score: 118.6 bits (296), Expect = 2.6e-27
Identity = 61/83 (73.49%), Postives = 70/83 (84.34%), Query Frame = 0 

Query: 4   SDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVREC 63
           SDSEEVK+A N +YR+G++ EAL+LYDRAISL PEN AYRSNRAAAL A GRL EAV+EC
Sbjct: 209 SDSEEVKKAGNVMYRKGNYAEALALYDRAISLSPENPAYRSNRAAALAASGRLEEAVKEC 268

Query: 64  EEAVRLDLGYGRAHQRLSALYLR 87
            EAVR D  Y RAHQRL++LYLR
Sbjct: 269 LEAVRCDPSYARAHQRLASLYLR 291

[Close]
BLAST of Cmc04g0112641 vs. TAIR 10
Match: AT1G53300.1 (tetratricopetide-repeat thioredoxin-like 1 )

HSP 1 Score: 115.5 bits (288), Expect = 2.2e-26
Identity = 59/83 (71.08%), Postives = 67/83 (80.72%), Query Frame = 0 

Query: 4   SDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVREC 63
           SDSEEVKR  NE+YR+G F EAL LYDRAI+L P NAAYRSNRAAAL  L R+GEAV+EC
Sbjct: 225 SDSEEVKRVGNEMYRKGLFNEALKLYDRAIALSPTNAAYRSNRAAALIGLSRIGEAVKEC 284

Query: 64  EEAVRLDLGYGRAHQRLSALYLR 87
           E+AVR D  YGRAH RL+ L +R
Sbjct: 285 EDAVRSDPNYGRAHHRLALLLIR 307

[Close]
BLAST of Cmc04g0112641 vs. TAIR 10
Match: AT3G14950.1 (tetratricopetide-repeat thioredoxin-like 2 )

HSP 1 Score: 105.1 bits (261), Expect = 3.0e-23
Identity = 52/83 (62.65%), Postives = 65/83 (78.31%), Query Frame = 0 

Query: 4   SDSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVREC 63
           S+ EEVKR  NE++R+G F EAL LYDRAI L P NA Y SNRAAAL++LG++GEAV EC
Sbjct: 256 SNPEEVKRFGNEMFRKGCFAEALKLYDRAIELSPSNATYHSNRAAALSSLGQIGEAVNEC 315

Query: 64  EEAVRLDLGYGRAHQRLSALYLR 87
           E A++LD  + RAH RL++L LR
Sbjct: 316 EIAIKLDPNFARAHHRLASLLLR 338

[Close]
BLAST of Cmc04g0112641 vs. TAIR 10
Match: AT5G10090.1 (Tetratricopeptide repeat (TPR)-like superfamily protein )

HSP 1 Score: 95.1 bits (235), Expect = 3.1e-20
Identity = 49/82 (59.76%), Postives = 63/82 (76.83%), Query Frame = 0 

Query: 5   DSEEVKRAANELYRRGSFVEALSLYDRAISLFPENAAYRSNRAAALTALGRLGEAVRECE 64
           D E +K   NE Y+ G+F EAL+LY+ AIS+ P+ A+YRSN++AALTALGR+ EAV EC 
Sbjct: 236 DPETLKIMGNEDYKNGNFAEALALYEAAISIDPKKASYRSNKSAALTALGRILEAVFECR 295

Query: 65  EAVRLDLGYGRAHQRLSALYLR 87
           EA+R+D  Y RAH RL+ LYLR
Sbjct: 296 EAIRIDPHYHRAHHRLANLYLR 317

The following BLAST results are available for this feature:
BLAST of Cmc04g0112641 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_016899656.12.3e-41100.00PREDICTED: inactive TPR repeat-containing thioredoxin TTL3-like, partial [Cucumi... [more]
KAA0053839.15.8e-37100.00inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa] ... [more]
KAA0053815.11.3e-3698.84inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa][more]
TYK25586.11.3e-3698.84inactive TPR repeat-containing thioredoxin TTL3-like [Cucumis melo var. makuwa][more]
XP_004136849.14.9e-3697.67inactive TPR repeat-containing thioredoxin TTL3 [Cucumis sativus] >KGN43656.1 hy... [more]
BLAST of Cmc04g0112641 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9SIN13.7e-2676.25Inactive TPR repeat-containing thioredoxin TTL3 OS=Arabidopsis thaliana OX=3702 ... [more]
Q84JR93.7e-2673.49TPR repeat-containing thioredoxin TTL4 OS=Arabidopsis thaliana OX=3702 GN=TTL4 P... [more]
Q9MAH13.1e-2571.08TPR repeat-containing thioredoxin TTL1 OS=Arabidopsis thaliana OX=3702 GN=TTL1 P... [more]
F4IXE44.2e-2262.65TPR repeat-containing thioredoxin TTL2 OS=Arabidopsis thaliana OX=3702 GN=TTL2 P... [more]
Q8BJU03.1e-0942.31Small glutamine-rich tetratricopeptide repeat-containing protein alpha OS=Mus mu... [more]
BLAST of Cmc04g0112641 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S4DUJ61.1e-41100.00inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo OX=3656 GN=... [more]
A0A5A7UK412.8e-37100.00Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa... [more]
A0A5D3DPJ16.3e-3798.84Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa... [more]
A0A5A7UJF46.3e-3798.84Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa... [more]
A0A5A7SMW12.4e-3697.67Inactive TPR repeat-containing thioredoxin TTL3-like OS=Cucumis melo var. makuwa... [more]
BLAST of Cmc04g0112641 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G42580.12.6e-2776.25tetratricopetide-repeat thioredoxin-like 3 [more]
AT3G58620.12.6e-2773.49tetratricopetide-repeat thioredoxin-like 4 [more]
AT1G53300.12.2e-2671.08tetratricopetide-repeat thioredoxin-like 1 [more]
AT3G14950.13.0e-2362.65tetratricopetide-repeat thioredoxin-like 2 [more]
AT5G10090.13.1e-2059.76Tetratricopeptide repeat (TPR)-like superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR019734Tetratricopeptide repeatSMARTSM00028tpr_5coord: 6..39
e-value: 0.74
score: 18.9
coord: 40..73
e-value: 10.0
score: 14.9
IPR019734Tetratricopeptide repeatPROSITEPS50005TPRcoord: 6..39
score: 8.5554
IPR011990Tetratricopeptide-like helical domain superfamilyGENE3D1.25.40.10Tetratricopeptide repeat domaincoord: 2..88
e-value: 1.3E-20
score: 75.7
IPR011990Tetratricopeptide-like helical domain superfamilySUPERFAMILY48452TPR-likecoord: 6..85
NoneNo IPR availablePFAMPF13432TPR_16coord: 12..69
e-value: 4.6E-8
score: 33.6
NoneNo IPR availablePANTHERPTHR46050:SF10TPR REPEAT-CONTAINING THIOREDOXIN TTL4coord: 1..86
IPR044534TPR repeat-containing thioredoxin TTL1-4PANTHERPTHR46050TPR REPEAT-CONTAINING THIOREDOXINcoord: 1..86

Relationships

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

Feature NameUnique NameType
Cmc04g0112641.1Cmc04g0112641.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0005737 cytoplasm
molecular_function GO:0005515 protein binding