Cmc11g0292131 (gene) Melon (Charmono) v1.1

Overview
NameCmc11g0292131
Typegene
OrganismCucumis melo L. var. cantalupensis cv. Charmono (Melon (Charmono) v1.1)
DescriptionSubtilisin-like protease SBT1.1
LocationCMiso1.1chr11: 7751475 .. 7761623 (+)
RNA-Seq ExpressionCmc11g0292131
SyntenyCmc11g0292131
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CTTTTGCTCTGATATCAACTTGTCACACCCCTTTCTAGATTACCTACTCTAGACCTGAGAGATGGTGTAATGTCAATTGATATCATTACCCTCTGAATGACACTAATTGACTCTTAACCTCGAACCTCTAGACAATTTGCGATTGGAAGTCTTTTAGTAATTAAAAAAAAATAAAACTGAGATGTAGCCCACTTTGAAAATGAGATTTATAAAAAGCAATGATTTTACATAAAGTAAGGGCATAAAAATCATAAAGTTTTCACAAATCTTTCAAATTCTAGAAAGATGTCTCATTTTAGCGTAACAATTCCTTTTCATAACTAAAATTTGATTCACTTGATAGTAGTAAATCTAACACTTGAAGATACACAATTTGTACCTAGAAATAGAGAAAACATTTTGAAAAGGTAAGTTGAAAAACTTAGTGAATGACAATTTAATAAAACATGTTTACAGAAACAGTTTAGCATAAAATCTTGACTTAAGAAACATTCAGCAAAGAAATTCATTTCATAGCGTGGTACTTAGGAACATTGAACTTTTAGTAGCATTGCATAGAGCTTCTAGAAGACATGATTCATAGTCATAGACAGTATTAAACCTCTTCGTCCTAAGACGATACAGCCGATAGGAAACAGCTTTCATTGTTATCCTCCTCCTTTAAGACATAATAATTTATACCCTTCCTAATAGCCTATAGTTAAAATAAACTTGTTAACGATATATGCATAATAGGCTAGGATAAAACATAGTTGAAAACCTTGAAACATACTTTTGATCATGTAGCAATAGCATTCAGTTGAACATAACATAGCCTCTTGGAAACCATTTATAAAACATTTAAACTTTTGCAATCTCAATAAAAATCAATAAACTTAACATCCATGAGATATACTTGGTTCAATAGATTCTAAACCATGCTTTAGAAACCATTATAGAAATCATTTGATTACTCACAATACTTGGTGTTAGCTCTTTAGTTTGGAATTTCCTTCAAAGTCTCCTTGAAGTGAAAATTTCATATTTGAGTCTTAGTTCATCTCTTGATCAAGAAAATATCCAAGAATTTCCTAAAATTGCAAAAATTAGCAAAACTATCTGATATGGCATGTTGGTGCTTGGTGGCATGGTGGCAGTGCTTGGCGTGCGCGTATGAACTAGGTCGACCTTATCGCATGCTAACATTGCGATGAGATGTCGCACATTACGTGCTAACCTCACATGAAGTTATGCACGCGTCTAGTTTGTGCACCTTACAATCATCATGGTTGTGTGCCTTGTGTCACAATCGTAACTTCTCAACACGATTGTGTCGTACTTGTTTAGCTCGATCAACAAGTCAGCCGTTCGAAATTCGGAATCTGCAGACAAACTCGCGGTATGATGTAGCCTCCCTCCACGTTCTTGGGAAAATATTTTTATAAAACGGGAGAGAGGAAGTAAATAGTTGAAAACATCATAAAGAAAGCATTGAAGACTGTCAATTGCAAAGAAAATAGCTTAGCTTGCAAAGAGTGCGACAAGGCTTGAGCGGGGGTCGGACTAGTCATGTACCCCCTATAGTACATATTGAGATTTTTGGCCTTGGCAGGCTTGCGTATGAAAAAGCCGAAATGTCACACTATGACTCGGCGACCCGAAAAAAAAAAGAATTAACCTAGACTACTTTCAAGACATAAAGATAAAGTGATTTGGGGGTATTCGGGCATACGACCATAGGTAAATAATACCTTGGACAAATATGCCCTTGACATTCTCCCCCACTTAAACGGTTGACGTCCTTGTCAACTGGCGAAGCTGGAGCTCTTCGATCTTCTGCGTCCACGCTTCAAGGTATTCACCATGTTCTCCACTTGTTACCTCCACGAGGGGCTTCGTCTGCTGCACCAGGAATTTATGTATCTCCCTCGTGGGCCTTCTACCAGTCCTTACTCTGTCAGCAAGGACTTCCTTGACTTTTCTGTCTTCCTCCAGGTCCAGGTTGATAGATAATCGTACGGCGTTGTTGCACCGTCAATTGAAAGCTTGGTCATCCACTCGAACTCAAGAGGGCATCGCTCTCGATCTACCCCCTCCAACAGCTAGACCCAATTTCTTTGTCTGCCATCAACACAATGATGCAGATATTCTCCGAGCACACAGTTGAATTGCTCGGCTTCAACTATGGGAATCTTGGTCGTATCGACGACTCCAAGACTTGGCCCCTCGATCATGGCTTGCTTCAAACCATTAAAGGCGGCATGACACTCGAGGTTCTCACTCCACTGAGTGTCTTCTTCTCTCAACAACCCACCTTGGTGGCACTCCCCTACATGACTCAGCGCGTTTATCTGGCTCTGCACAGAACAACACTTTCCTCCCTTGGCATCGGTAAGACTCAGTAGCAGCATGGGGAACTCGTATGCTTCATGCCCAGTGACACAAGTTGTCTCGAGTCCCTTTGCCTTCGTTGTTCTTACTCGATAGTACTTCGGTCGGATGTTTGACTTCAGGAGATACTTCACCCCATGTGGGCGGTCCACCCGCCTCGTGAGCATGGAGAGTGGATATTTGCGTCGAAATATGAACTTACTCTGGATATGGCGGTCCATACACTGTTGTAGGCTTCTGTCCTTCTTCTTCAGGGAAAGGACATGGACTCCATACGGAGCTTCTACAGGTCTACTAAATTCTGTATTCAATAACATCTTCGATGGTTTCCGAAGTTTGGCTAACTCCGGCGATGCCATGCGATAAGCATTCTTCGCAAACGCTTTTACCTCTGGCAACAACTCTATTCCATGGTCGATCGTCCTTCGCATCGACACGGATTTGGGCCAACTATTTGGCAGAACATCATGGCAATTCTCTGGGACACACAGAGTGTCTTTAGGGACTGTCTCCCCTGGCTTTTCCAACGCCCCAAGCAGGGTCTCCACAAATGGTGGTTCCTCTTGGGCGTGACTCTCATCTAGTTGCATGGCCGATATCATTTTGAACCCGTTAGGCTGACAAATATCTGCTTGTACTACCATGGGGAAAGATCCGGTAATCGCTAGACATTTGGCTAAAGGCATTGGAATGACTTGATGTTCAAGGAGGAACTTCATTCCCAGTACTACATCAAAGTCGTCCATCTTTACAACCACAATAAGTCTAGGGGCCTTTCCATCCTCCCAACTCTATCGTCGCTCGCTTCACCAGTCCTACGATAGGTAGGGCAACGGAATTCACGGCCTTCATTCTTCCTGAATCTTTCTCCCAACGGAGTCTTAGACGTCTAGCTTCCGCCTCAGTTATGAAGTTGTGGGTTGCACCAGAATCAACCATAGTGCTCTTAGTCTGCTTTTGGTTGATCCAGGTACCAACATACAGTAAGCCCCCTTTTGTTGGTACGTGGCTCTCCCCTGACTTTTTCTGGAGAGATGACATGTATTTTATGGCCCCTATTCGAGTCTTTTCGCCCCCATCTATCAGGCCCGCTTCATCCTCAGCTTGATTTGACTTATCATCTGAATCCGCGATTAAAGAGGCCTGAAACGCATGAAAGTCGACTTTATTCGGGCATTCTCTTGCCAGATGGGGCCCCTGACATATGAAACAACTGAGGGGACGCTTGGTTGGGCTTCGATCATTTGACCTTCGCCATGTATTTTCGGTGGTTGACTGGTAAGGTTTGTGGTCTTTACCAGAACGTTTGTCTCCCTCGACAGCTTTGGGAGAACTCAAGCGACTATTCCTATTCCTTTCAGGTGAGGAACTTTGGTGACGTTTCACATCTTGAGAGTCACCAATCAAATCAAACAATCATTCGGCTGCTGCATACACTGACGTGAGGTCTTGTACCCTTTGTTCATATAACTCGGTCTTGGCCCACGGTTTCAGCCCTTCGACAAAACAAAAAACTTTGTCTTTCTCTGACATATCGCGAATGTCTAACAACAGGTCGGCTAACTGTTTCACGCACTCTCGAATGCTACCAGTGTGTTTTAGATCACGCAATTTTTGCCGAGTCAGGATTTCCACGTTCTCGGGAAAGAATTGAGAGCGAAGTTCTTTCTTCAGGACGTCCCAAGTATCTATTGTGCAACGCCCTTCTTGTATGTCCATGTATCGGGACCTCCACCACAACTTGGCATCCTCACACAGATACATCGTCACCAATGTCACTTTGGCTTCTTCAGTGACTATGTTTGTGGCCTTGAAGTACTGTTCGAGATCAAATGTGAAGTTCTCTAAGGCCTTTGCATCCCTCACCCCACAGAAGGGTTTGGGTTCCAGAACCTTCACCTTAGTAACAGGAACTGCTCCTCCAACCGGAACTTGGTTTGCCATTGCTCGCATTGTGAGACTCAGTCTTCTGTTCACATCTGCAATTTCATTTCTAACGACATCGAGGGTAGCTCGAAAATCCTTTGACATGCCGTTTATCATCTCTAAGAGTGTCTTCTGAGAGCTATCTAGCTCGCTGACACGTTCTTCCATATGGGCAGCAAAACCCGATGAACTGTCCCCACGCTCGTAGTTAACAGTTCTTTCGACGTTTGTGTTTGCTTCCAAGGTGTCGACTCTTGCCAACAACTCTTGTATCGGTAACCCTTCGACACGGCCAGCTACCGCATCGATTTTATCAGTTTTCTCAGAAATTTCATCGAGACGAGACTTCAAGTAGCGGATGAAGTCGGGAACTTCGACTAGGTAGAGCATCTGCTCTTCTAGCTCTACTAGTCAGTCTTTCTGGGCCTTGTCTGATGGATTCGCAGAAGACATGTTTCGGTCTTATCGTCAATTAGCCAACTTGGCTCTGATACCACTTGTCACAATCGTAACTTCTCAACACGATTTTGCAGCACTTGTTTAGCTTGATCAACAAGTCAGCCGTTCGAAATTCAAAATCTGCGGACAAACTCGCGGTATGATGTAGCCTCCCTCCACGTTCTTGGAAAAATGTTTTTATAAAACGGGAGAGAGAAAGTAAATAGTTGAAAACATCATAAAGAAAGCATTGAAGACTGTCAATTGCAAAGAAAATAGCTTATCTTGCAAAGAGTGCGACAAGGCTTGGGCGGGGGTCGGACTAGTCATGTACCCCCTATAGTACATATTGAGATTTTTGGCCTTGGCAGGCTTGCATATGAAAAAGCCGAAATGTCACACTGTGACTCGACGACCCGAAAACAAAAGAATTAACCTAGACTACTTTCAAGACATAAAGATAAAGTGATTTGGGGGTATTCGGGCATACGGCCATAGGTAAATAATACCTTGGACAAATATGCCCTTGACACCTTGCGCACGTCATATCTTGCGTACACAGCCTTATGTGCGCTAGCCTCTACGTACATGGTCATATGTATAGCCTGAGCGCATTCTTGAAATTCAGTTATGCCATTGGCGTGCTGCGTGCCTCAATTTAAGCAAAAGAACCCCTATAAACTAAAACTCATGCCCAGAAAAAGATTTTTGTCCAGATGCTTAACTTTACTTTGAAAATTCATATCTAAATATCCATAACTCTTTTGGGAAACCTTTCTTCTACAAATTTACTTGAAAATGTCTTACATTCTTTCCTCAGAATTTTAGATCCAAACTTCAAGGAATGTGTTACGTGGCCTCCAAAATGTGCACCTTTCTCAAATTCTCCTCAAAATTGACCTTCTTGCCTTTTCTTTTGTTTGAACAAAATCTTCCTCGGCTTCAAACTAACTAGCAGCCCTTTTCTAGAAATTAGACTCAATTTCTGACCTTTTGAGAGTAATTTGAAGTAAATGGCACGAGTGGATTGTGAGAAATCCTTGTTTGAAGTTACCTATTTATAGTGAAGCTTTTCATGAAACTGAAGTGACACCTCCAACTTCATTGATCCACCTCCCCCTTGGCCGCAAAATGCAAACATGCTTAAGACACTTGGATTCCATTAAACTGATTGCCCTTAATCAGACATGTAGCTTACTTAAACGCCTTGCTTACCTCTTAACTATGGCTACAAGCCTTCCTCGCGTGCAAGCACCCTTGCCTAAACCTCTTAGTTGCCTATCTTCCTCTAACCTCTATGGTCACAAGCTTCCTCACATGCAAGCCAAGAGGAAATCTAAAGAGTTGAAGTGTTGCCAAAGGGCCTACGCAAAAAGAAGAAAGTAGAAGCAATCTGGGTTTAAGGCTAAGTTCTGTTGTGTCAAGTTATGAGTGGTGCTTCTAGGCGAATCGCTGATGAGTGCTTTAGTGACAAGTATCTTAGAGTTTCTATGGTGAAGTCGCATCACAAATCATAAGTTGTTAACTACACTAGAATGCAAAAATCATAAGAGGTTGGAGGAACCCAACTGACAAGTAAATACAGGAGGATTACACATAAGGGAAGCTTGTTCTATGTGTTGAAGCGTACAAAAGAATTGTCAATTCAAGAGGAGTTTCCATAATGGTCCTAGATTGACACATTATGCTTTAAATAAATATCCAGAGGATGCTATTGTTGATAAACTCTGTAACTATCAACTATCTAGAATTTAATATATGATTTCCTCACTCGGACCAAAAGCTCCCTTGACGTAGATGATGTTGCGCTGAGGTGGTTTACCAACGTGACTGTGTTATTCTTTTCTGTCCTTATTGCTCCTTTCACTGTTTGTGCAGCTATTAGCATTTGTCTTAGCAATTTCTGCATACTTCAATTAATCTCGTACTTGTTTTTCTCACTTTTGTTAGTGAAGAATTGTACAGCATAATAGATATTATATCTATACTCATGAAGTGTGATAGGTCTTTGTTGTAGATATTACAAAAGGTGAGCAAGTCATTGGTTGTGTTTTTAGCAGAAGACAATATTGATCTAGCAGTTGTAATATTATTATTTTTGCATTTTGAGTGTGTAATGCAAACTGTACATTTGTGAACTAAAATATTGTTAATGTTAAGTTTGTGATATTGTTGTG

Coding sequence (CDS)

ATGTCCATGTATCGGGACCTCCACCACAACTTGGCATCCTCACACAGATACATCGTCACCAATGTCACTTTGGCTTCTTCAGTGACTATGTTTGTGGCCTTGAAGTACTGTTCGAGATCAAATGTGAAGTTCTCTAAGGCCTTTGCATCCCTCACCCCACAGAAGGGTTTGGGTTCCAGAACCTTCACCTTAGTAACAGGAACTGCTCCTCCAACCGGAACTTGGTTTGCCATTGCTCGCATTGTGAGACTCAGTCTTCTGTTCACATCTGCAATTTCATTTCTAACGACATCGAGGGTAGCTCGAAAATCCTTTGACATGCCGTTTATCATCTCTAAGAGTGTCTTCTGA

Protein sequence

MSMYRDLHHNLASSHRYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGLGSRTFTLVTGTAPPTGTWFAIARIVRLSLLFTSAISFLTTSRVARKSFDMPFIISKSVF
Homology
[Close]
BLAST of Cmc11g0292131 vs. NCBI nr
Match: TYK29019.1 (subtilisin-like protease SBT1.1 [Cucumis melo var. makuwa])

HSP 1 Score: 157.5 bits (397), Expect = 6.8e-35
Identity = 88/116 (75.86%), Postives = 93/116 (80.17%), Query Frame = 0 

Query: 1   MSMYRDLHHNLASSHRYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGLGSR 60
           MSMYRDLH NL SS R I+ NVTL SSVT+FVALKY SRSN+KF KAFASLT QKGLGSR
Sbjct: 13  MSMYRDLHRNLVSSDRCIIANVTLTSSVTVFVALKYYSRSNMKFPKAFASLTQQKGLGSR 72

Query: 61  TFTLVTGTAPPTGTWFAIARIVRLSLLFTSAISFLTTSRVARKSFDMPFIISKSVF 117
           TFTL+    P TG WFAIARIVR S  FTS ISFL TSRVA+ S DM FIISKSVF
Sbjct: 73  TFTLLMEIVPLTGAWFAIARIVRFSFAFTSMISFLMTSRVAQNSSDMSFIISKSVF 128

[Close]
BLAST of Cmc11g0292131 vs. NCBI nr
Match: TYK05651.1 (Retrotransposable element Tf2 [Cucumis melo var. makuwa])

HSP 1 Score: 108.2 bits (269), Expect = 4.7e-20
Identity = 57/73 (78.08%), Postives = 63/73 (86.30%), Query Frame = 0 

Query: 44   FSKAFASLTPQKGLGSRTFTLVTGTAPPTGTWFAIARIVRLSLLFTSAISFLTTSRVARK 103
            FS+AFASL PQK LGS  FTL+TG APP G WFAIAR+VR  L+FTSAISFLTTS+VA+K
Sbjct: 1492 FSRAFASLAPQKVLGSEIFTLLTGIAPPAGAWFAIARMVRFILVFTSAISFLTTSKVAQK 1551

Query: 104  SFDMPFIISKSVF 117
            S DMPFIISKSVF
Sbjct: 1552 SSDMPFIISKSVF 1564

[Close]
BLAST of Cmc11g0292131 vs. NCBI nr
Match: KAA0040200.1 (hypothetical protein E6C27_scaffold1164G00140 [Cucumis melo var. makuwa] >TYK25929.1 hypothetical protein E5676_scaffold190G00240 [Cucumis melo var. makuwa])

HSP 1 Score: 97.8 bits (242), Expect = 6.4e-17
Identity = 51/73 (69.86%), Postives = 58/73 (79.45%), Query Frame = 0 

Query: 1   MSMYRDLHHNLASSHRYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGLGSR 60
           MS Y DL HNLASS + IV NVTL+SS+T+ +ALKYCSRSN+KFSKAFASL PQKG GS 
Sbjct: 306 MSTYWDLFHNLASSDKCIVANVTLSSSMTVIMALKYCSRSNMKFSKAFASLAPQKGFGSE 365

Query: 61  TFTLVTGTAPPTG 74
            FTL+T   PP G
Sbjct: 366 IFTLLTKILPPAG 378

[Close]
BLAST of Cmc11g0292131 vs. NCBI nr
Match: TYK16931.1 (Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 58.9 bits (141), Expect = 3.3e-05
Identity = 31/42 (73.81%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 16  RYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGL 58
           ++IVT+VT ASSVT+FVALKY  RSN+KF K FASL PQKGL
Sbjct: 722 KHIVTHVTWASSVTVFVALKYYLRSNMKFFKVFASLAPQKGL 763

[Close]
BLAST of Cmc11g0292131 vs. ExPASy TrEMBL
Match: A0A5D3E023 (Subtilisin-like protease SBT1.1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold120G001300 PE=3 SV=1)

HSP 1 Score: 157.5 bits (397), Expect = 3.3e-35
Identity = 88/116 (75.86%), Postives = 93/116 (80.17%), Query Frame = 0 

Query: 1   MSMYRDLHHNLASSHRYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGLGSR 60
           MSMYRDLH NL SS R I+ NVTL SSVT+FVALKY SRSN+KF KAFASLT QKGLGSR
Sbjct: 13  MSMYRDLHRNLVSSDRCIIANVTLTSSVTVFVALKYYSRSNMKFPKAFASLTQQKGLGSR 72

Query: 61  TFTLVTGTAPPTGTWFAIARIVRLSLLFTSAISFLTTSRVARKSFDMPFIISKSVF 117
           TFTL+    P TG WFAIARIVR S  FTS ISFL TSRVA+ S DM FIISKSVF
Sbjct: 73  TFTLLMEIVPLTGAWFAIARIVRFSFAFTSMISFLMTSRVAQNSSDMSFIISKSVF 128

[Close]
BLAST of Cmc11g0292131 vs. ExPASy TrEMBL
Match: A0A5D3C142 (Retrotransposable element Tf2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold98G001130 PE=4 SV=1)

HSP 1 Score: 108.2 bits (269), Expect = 2.3e-20
Identity = 57/73 (78.08%), Postives = 63/73 (86.30%), Query Frame = 0 

Query: 44   FSKAFASLTPQKGLGSRTFTLVTGTAPPTGTWFAIARIVRLSLLFTSAISFLTTSRVARK 103
            FS+AFASL PQK LGS  FTL+TG APP G WFAIAR+VR  L+FTSAISFLTTS+VA+K
Sbjct: 1492 FSRAFASLAPQKVLGSEIFTLLTGIAPPAGAWFAIARMVRFILVFTSAISFLTTSKVAQK 1551

Query: 104  SFDMPFIISKSVF 117
            S DMPFIISKSVF
Sbjct: 1552 SSDMPFIISKSVF 1564

[Close]
BLAST of Cmc11g0292131 vs. ExPASy TrEMBL
Match: A0A5D3DRD9 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold190G00240 PE=4 SV=1)

HSP 1 Score: 97.8 bits (242), Expect = 3.1e-17
Identity = 51/73 (69.86%), Postives = 58/73 (79.45%), Query Frame = 0 

Query: 1   MSMYRDLHHNLASSHRYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGLGSR 60
           MS Y DL HNLASS + IV NVTL+SS+T+ +ALKYCSRSN+KFSKAFASL PQKG GS 
Sbjct: 306 MSTYWDLFHNLASSDKCIVANVTLSSSMTVIMALKYCSRSNMKFSKAFASLAPQKGFGSE 365

Query: 61  TFTLVTGTAPPTG 74
            FTL+T   PP G
Sbjct: 366 IFTLLTKILPPAG 378

[Close]
BLAST of Cmc11g0292131 vs. ExPASy TrEMBL
Match: A0A5D3CY75 (Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold130G00680 PE=4 SV=1)

HSP 1 Score: 58.9 bits (141), Expect = 1.6e-05
Identity = 31/42 (73.81%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 16  RYIVTNVTLASSVTMFVALKYCSRSNVKFSKAFASLTPQKGL 58
           ++IVT+VT ASSVT+FVALKY  RSN+KF K FASL PQKGL
Sbjct: 722 KHIVTHVTWASSVTVFVALKYYLRSNMKFFKVFASLAPQKGL 763

The following BLAST results are available for this feature:
BLAST of Cmc11g0292131 vs. NCBI nr
Match NameE-valueIdentityDescription
TYK29019.16.8e-3575.86subtilisin-like protease SBT1.1 [Cucumis melo var. makuwa][more]
TYK05651.14.7e-2078.08Retrotransposable element Tf2 [Cucumis melo var. makuwa][more]
KAA0040200.16.4e-1769.86hypothetical protein E6C27_scaffold1164G00140 [Cucumis melo var. makuwa] >TYK259... [more]
TYK16931.13.3e-0573.81Ty3/gypsy retrotransposon protein [Cucumis melo var. makuwa][more]
BLAST of Cmc11g0292131 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Cmc11g0292131 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5D3E0233.3e-3575.86Subtilisin-like protease SBT1.1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_... [more]
A0A5D3C1422.3e-2078.08Retrotransposable element Tf2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_sc... [more]
A0A5D3DRD93.1e-1769.86Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold... [more]
A0A5D3CY751.6e-0573.81Ty3/gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E567... [more]
BLAST of Cmc11g0292131 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
Relationships

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

Feature NameUnique NameType
Cmc11g0292131.1Cmc11g0292131.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0071897 DNA biosynthetic process
biological_process GO:0015074 DNA integration
biological_process GO:0006260 DNA replication
biological_process GO:0006508 proteolysis
biological_process GO:0009610 response to symbiotic fungus
cellular_component GO:0016020 membrane
cellular_component GO:0005634 nucleus
molecular_function GO:0003887 DNA-directed DNA polymerase activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0004252 serine-type endopeptidase activity
molecular_function GO:0008270 zinc ion binding