MELO3C005113 (gene) Melon (DHL92) v3.5.1

Overview
NameMELO3C005113
Typegene
OrganismCucumis melo (Melon (DHL92) v3.5.1)
DescriptionProbable serine/threonine-protein kinase DDB_G0293958
Locationchr9 : 16155168 .. 16172853 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AGACCGAAAGGAGCACGAGGAGAGACAATAGAAAAAATGTCACTGGTAGACTACGCTTCATCGGACGAAGACGTGCCGGCGGCGGTGGAGGAGGAGAAGGAGGATAATCGTAATCAGTCGGAAAACCACACAGTTACAGAGCCTCAACTCCCCAAGTACGAGCCGAGGCCTCAATCTCCTCCGGTCAACCAGCCCATTGTTAAGCCAAATCAACAGTTTGAAACTAATGAGGAGTCTTCTTCTGTGCCTTGGGTTGAGCTTCCTGATGCTTCTTTACTCTTGAATTCTCAAACATCTTCTAGTCTTTTTAGTGGTAGCGATCACTCTTCTCGAGTAGCAGCGGCTATGGCTGCCAATGCATCTCGCAAGAGAGAAACAAATGTTTTAGGATCTTCTCTTCCTAGAAGTAAAGTTCCAAGATCGAGCTTGCCTCACTCTAAGAATGTTCCGGATACTTCAGGGACTTTGTTGGTTCCGCCTCAGCTTACTGGAAGGAGTAACATTGTCACTGAAGATATAAGCAAGCTGTTCGTGAAGAAGTCAGCCAAACCACCCTCGTAATGATAATGCAATGGCCGAATTCAGGAATTGTAATGATCTGTGGATTGCGTGCGGTAAAGGTAACGTGTGAGGTAGACCGGCGAGGGGCAAAAAGGATTCGTGAATGCCATA

Coding sequence (CDS)

ATGTCACTGGTAGACTACGCTTCATCGGACGAAGACGTGCCGGCGGCGGTGGAGGAGGAGAAGGAGGATAATCGTAATCAGTCGGAAAACCACACAGTTACAGAGCCTCAACTCCCCAAGTACGAGCCGAGGCCTCAATCTCCTCCGGTCAACCAGCCCATTGTTAAGCCAAATCAACAGTTTGAAACTAATGAGGAGTCTTCTTCTGTGCCTTGGGTTGAGCTTCCTGATGCTTCTTTACTCTTGAATTCTCAAACATCTTCTAGTCTTTTTAGTGGTAGCGATCACTCTTCTCGAGTAGCAGCGGCTATGGCTGCCAATGCATCTCGCAAGAGAGAAACAAATGTTTTAGGATCTTCTCTTCCTAGAAGTAAAGTTCCAAGATCGAGCTTGCCTCACTCTAAGAATGTTCCGGATACTTCAGGGACTTTGTTGGTTCCGCCTCAGCTTACTGGAAGGAGTAACATTGTCACTGAAGATATAAGCAAGCTGTTCGTGAAGAAGTCAGCCAAACCACCCTCGTAA

Protein sequence

MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQFETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSSLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPPS*
Homology
[Close]
BLAST of MELO3C005113 vs. TrEMBL
Match: A0A0A0KQH2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G457750 PE=4 SV=1)

HSP 1 Score: 322.8 bits (826), Expect = 2.6e-85
Identity = 162/173 (93.64%), Postives = 167/173 (96.53%), Query Frame = 1 

Query: 1   MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ 60
           MSLVDYASSDEDVPAAVEEE++DNRNQSENH +TEP LPK+EPRPQSPP+NQPIVKPNQQ
Sbjct: 1   MSLVDYASSDEDVPAAVEEEEKDNRNQSENHIITEPHLPKHEPRPQSPPLNQPIVKPNQQ 60

Query: 61  FETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120
           FETNEESSSVPWV LPDASLLLNS TSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS
Sbjct: 61  FETNEESSSVPWVGLPDASLLLNSPTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120

Query: 121 LPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPP 174
           LPRSK PRSSLPHSKNVPDTSG LLVPPQLTGRSNIVTEDISKLFVKKSAKPP
Sbjct: 121 LPRSKFPRSSLPHSKNVPDTSGALLVPPQLTGRSNIVTEDISKLFVKKSAKPP 173

[Close]
BLAST of MELO3C005113 vs. TrEMBL
Match: V7BVE3_PHAVU (Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_005G034300g PE=4 SV=1)

HSP 1 Score: 162.2 bits (409), Expect = 5.9e-37
Identity = 98/175 (56.00%), Postives = 120/175 (68.57%), Query Frame = 1 

Query: 1   MSLVDYASS-DEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPN- 60
           MSLVDYASS D+DVP   EEE+E                 K EP+P  PP  + + K   
Sbjct: 1   MSLVDYASSSDDDVPEPTEEEREK----------------KEEPQPPPPPPTRSLTKSGS 60

Query: 61  ---QQFETNEESSSVPWVE-LPDASLLLNSQT-SSSLFSGSDHSSRVAAAMAANASRKRE 120
              QQ E N+  SS+P  E LPDA+LLL++ T SS+L S SDH SRVAAA A NASRKR+
Sbjct: 61  SSKQQLE-NKPHSSLPLEEKLPDAALLLDAPTVSSNLMSASDHFSRVAAAQAENASRKRD 120

Query: 121 TNVLGSSLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKK 169
           +N + SS  RSKVPR +LPHS+NVP+TSG +L+PPQ++GR N+VTEDISKLFVKK
Sbjct: 121 SNGMASSTVRSKVPRGNLPHSRNVPETSGGILLPPQISGRQNVVTEDISKLFVKK 158

[Close]
BLAST of MELO3C005113 vs. TrEMBL
Match: I1LKF0_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_U018700 PE=4 SV=1)

HSP 1 Score: 161.8 bits (408), Expect = 7.7e-37
Identity = 101/174 (58.05%), Postives = 121/174 (69.54%), Query Frame = 1 

Query: 1   MSLVDYASS-DEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVK--- 60
           MSLVDYASS D+DVP   EEE   +R + E               PQSPP+         
Sbjct: 9   MSLVDYASSSDDDVPEPTEEE---HRKKEE---------------PQSPPLRSKTKSGSS 68

Query: 61  PNQQFETNEESSSVPWVE-LPDASLLLNSQT-SSSLFSGSDHSSRVAAAMAANASRKRET 120
            NQQ E N+  SS P VE LPDASLLL++ T SS+L S SDH SRVAAA A NASRKR++
Sbjct: 69  SNQQLE-NKPHSSPPSVEKLPDASLLLDAPTVSSNLMSASDHFSRVAAAQAENASRKRDS 128

Query: 121 NVLGSSLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKK 169
           N + SS  RSKVPR++LPHS+NVP+TSG++LVPPQ++GR N+VTEDISKLFVKK
Sbjct: 129 NGMASSTVRSKVPRANLPHSRNVPETSGSMLVPPQISGRKNVVTEDISKLFVKK 163

[Close]
BLAST of MELO3C005113 vs. TrEMBL
Match: A0A0S3SL38_PHAAN (Uncharacterized protein OS=Vigna angularis var. angularis GN=Vigan.07G243400 PE=4 SV=1)

HSP 1 Score: 161.4 bits (407), Expect = 1.0e-36
Identity = 96/170 (56.47%), Postives = 115/170 (67.65%), Query Frame = 1 

Query: 1   MSLVDYASS-DEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQ 60
           MSLVDYASS D+DVP   EEE++            EPQ P   PR Q+   +      NQ
Sbjct: 1   MSLVDYASSSDDDVPEPTEEERKKEE---------EPQPPPPPPRSQTKAGSSS----NQ 60

Query: 61  QFETNEESSSVPWVELPDASLLLNSQT-SSSLFSGSDHSSRVAAAMAANASRKRETNVLG 120
           Q E    SS     +LPDASLLL++ T SS L S SDH SRVAAA A NASRKR++N + 
Sbjct: 61  QLEDKTHSSRTLVEKLPDASLLLDAPTVSSDLMSASDHFSRVAAAQAENASRKRDSNGMA 120

Query: 121 SSLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKK 169
           SS  RSK+PR +LPHS+NVP+TSG +L+PPQ++GR NIVTEDISKLFVKK
Sbjct: 121 SSTVRSKLPRGNLPHSRNVPETSGGMLLPPQISGRQNIVTEDISKLFVKK 157

[Close]
BLAST of MELO3C005113 vs. TrEMBL
Match: A0A067GUH8_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g026883mg PE=4 SV=1)

HSP 1 Score: 161.4 bits (407), Expect = 1.0e-36
Identity = 96/177 (54.24%), Postives = 125/177 (70.62%), Query Frame = 1 

Query: 1   MSLVDYASS-DEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQ 60
           MSLVDYASS D+DV  A E+E++D ++ + N    +PQ+  Y+P P  PP        NQ
Sbjct: 1   MSLVDYASSSDDDVSEAEEQEQKDEQSLNPND---QPQISTYQPSP--PPRKSGSSTSNQ 60

Query: 61  QFETNEESSSVP--WVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVL 120
           + ET    S  P  + +LPDA +LLNS  S  + SG+DH+SRVAAAMA NA+RKR++N +
Sbjct: 61  RPETAAPPSLRPPAFEKLPDACVLLNS-ASKPVVSGTDHASRVAAAMAENATRKRDSNDV 120

Query: 121 GSSLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPPS 175
            S+L R+K+PR SLP+SKNV DT+G LLVPPQL GRSN+VTEDI KLFV+  A+P S
Sbjct: 121 SSTLRRNKLPRGSLPNSKNVLDTAGGLLVPPQLNGRSNVVTEDIGKLFVRIPAEPSS 171

[Close]
BLAST of MELO3C005113 vs. TAIR10
Match: AT5G13470.1 (AT5G13470.1 unknown protein)

HSP 1 Score: 123.6 bits (309), Expect = 1.2e-28
Identity = 83/171 (48.54%), Postives = 104/171 (60.82%), Query Frame = 1 

Query: 1   MSLVDY--ASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPN 60
           MSLVDY  +SSD+DV AA E+                  LP+ + R  SP  + P     
Sbjct: 1   MSLVDYDDSSSDDDVLAAEEKP-----------------LPQTQKRLVSPAQSFP--PKR 60

Query: 61  QQFETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLG 120
           Q+FE +E        +LPDA LLL S T + + +G DH+S VAAAMA +A RKR+ +   
Sbjct: 61  QRFEQDESVE-----KLPDALLLLESPTLAQV-TGGDHASVVAAAMAESALRKRDLSGNA 120

Query: 121 SSLP-RSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKK 169
           SSLP R K+PR +LPHSKN P+T G +LVPPQL GRSN+ TED+S+LFVKK
Sbjct: 121 SSLPRRPKLPRGNLPHSKNYPETLGNVLVPPQLKGRSNVATEDMSRLFVKK 146

[Close]
BLAST of MELO3C005113 vs. NCBI nr
Match: gi|659072425|ref|XP_008465558.1| (PREDICTED: uncharacterized protein LOC103503186 isoform X1 [Cucumis melo])

HSP 1 Score: 344.0 bits (881), Expect = 1.6e-91
Identity = 174/174 (100.00%), Postives = 174/174 (100.00%), Query Frame = 1 

Query: 1   MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ 60
           MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ
Sbjct: 1   MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ 60

Query: 61  FETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120
           FETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS
Sbjct: 61  FETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120

Query: 121 LPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPPS 175
           LPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPPS
Sbjct: 121 LPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPPS 174

[Close]
BLAST of MELO3C005113 vs. NCBI nr
Match: gi|449452018|ref|XP_004143757.1| (PREDICTED: uncharacterized protein LOC101221543 isoform X1 [Cucumis sativus])

HSP 1 Score: 322.8 bits (826), Expect = 3.7e-85
Identity = 162/173 (93.64%), Postives = 167/173 (96.53%), Query Frame = 1 

Query: 1   MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ 60
           MSLVDYASSDEDVPAAVEEE++DNRNQSENH +TEP LPK+EPRPQSPP+NQPIVKPNQQ
Sbjct: 1   MSLVDYASSDEDVPAAVEEEEKDNRNQSENHIITEPHLPKHEPRPQSPPLNQPIVKPNQQ 60

Query: 61  FETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120
           FETNEESSSVPWV LPDASLLLNS TSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS
Sbjct: 61  FETNEESSSVPWVGLPDASLLLNSPTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120

Query: 121 LPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKPP 174
           LPRSK PRSSLPHSKNVPDTSG LLVPPQLTGRSNIVTEDISKLFVKKSAKPP
Sbjct: 121 LPRSKFPRSSLPHSKNVPDTSGALLVPPQLTGRSNIVTEDISKLFVKKSAKPP 173

[Close]
BLAST of MELO3C005113 vs. NCBI nr
Match: gi|657950713|ref|XP_008349319.1| (PREDICTED: LOW QUALITY PROTEIN: uncharacterized protein LOC103412549 [Malus domestica])

HSP 1 Score: 174.1 bits (440), Expect = 2.2e-40
Identity = 99/172 (57.56%), Postives = 124/172 (72.09%), Query Frame = 1 

Query: 1   MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ 60
           MSLVDY SSD+DV  + EE +E+  N+ +       QLP+ +PRP +    Q +V   QQ
Sbjct: 1   MSLVDYPSSDDDV--SEEEVRENKENEPQQ------QLPRDDPRPHT----QLVVSSYQQ 60

Query: 61  FETNEESSSVPWVELPDASLLLNSQTSSSLFSGSDHSSRVAAAMAANASRKRETNVLGSS 120
            E++  +S+    +LPDAS+LLNS +SS++ SG DHSSRVAAAMA ++SRK E N   SS
Sbjct: 61  PESSAPASAPSIQQLPDASMLLNSPSSSNMLSGGDHSSRVAAAMAESSSRKWE-NAFASS 120

Query: 121 LPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKP 173
           +PR+KVPR +LPHSKNVPDT G LLVPPQL GRSNIVTED+ KLFVKK A P
Sbjct: 121 VPRNKVPRGNLPHSKNVPDTVGGLLVPPQLRGRSNIVTEDVGKLFVKKQADP 159

[Close]
BLAST of MELO3C005113 vs. NCBI nr
Match: gi|694327041|ref|XP_009354402.1| (PREDICTED: uncharacterized protein LOC103945545 [Pyrus x bretschneideri])

HSP 1 Score: 172.9 bits (437), Expect = 4.8e-40
Identity = 101/173 (58.38%), Postives = 123/173 (71.10%), Query Frame = 1 

Query: 1   MSLVDYASSDEDVPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPNQQ 60
           MSLVDY+SSD+DV  + EE +E+  N+ +       QLP  +PRP +    Q +V   QQ
Sbjct: 1   MSLVDYSSSDDDV--SEEEVRENKENEPQQ------QLPSDDPRPHT----QLVVSSYQQ 60

Query: 61  FETNEESSSVPWVELPDASLLLNSQTSSS-LFSGSDHSSRVAAAMAANASRKRETNVLGS 120
            E++  SS+    +LPDAS+LLNS  SSS + SG DHSSRVAAAM  ++SRKRE N   S
Sbjct: 61  PESSAPSSAPSIQQLPDASMLLNSPVSSSNMLSGGDHSSRVAAAMVESSSRKRE-NAFAS 120

Query: 121 SLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKP 173
           S+PR+KVPR +LPHSKNVPDT G LLVPPQL GRSNIVTED+ KLFVKK A P
Sbjct: 121 SVPRNKVPRGNLPHSKNVPDTVGGLLVPPQLRGRSNIVTEDVGKLFVKKQADP 160

[Close]
BLAST of MELO3C005113 vs. NCBI nr
Match: gi|1009129761|ref|XP_015881940.1| (PREDICTED: chloride channel protein 1 [Ziziphus jujuba])

HSP 1 Score: 166.8 bits (421), Expect = 3.4e-38
Identity = 99/175 (56.57%), Postives = 117/175 (66.86%), Query Frame = 1 

Query: 1   MSLVDYASSDED--VPAAVEEEKEDNRNQSENHTVTEPQLPKYEPRPQSPPVNQPIVKPN 60
           MSLVDY SSDED  VP  + E++E   N S+      P  P   P  +  P ++   KP 
Sbjct: 1   MSLVDYTSSDEDDDVPEDLPEKQE---NVSDQPPTPSPPPPLPNPLHKQKPSSESYQKPE 60

Query: 61  QQFETNEESSSVPWVELPDASLLLNSQT-SSSLFSGSDHSSRVAAAMAANASRKRETNVL 120
                +  S   P  +LPDASLLLNS   SS++ S +DHSS VAAAMA NASRKR++  L
Sbjct: 61  -----SSHSKEPPIEKLPDASLLLNSPDFSSNMVSATDHSSLVAAAMAENASRKRDSKGL 120

Query: 121 GSSLPRSKVPRSSLPHSKNVPDTSGTLLVPPQLTGRSNIVTEDISKLFVKKSAKP 173
            SSLPRSKVP+ SLPHSKNVPDT G +LVPPQL+GRSN+VTEDISKLFV K A P
Sbjct: 121 ASSLPRSKVPKGSLPHSKNVPDTVGGMLVPPQLSGRSNVVTEDISKLFVNKQADP 167

The following BLAST results are available for this feature:
BLAST of MELO3C005113 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0KQH2_CUCSA2.6e-8593.64Uncharacterized protein OS=Cucumis sativus GN=Csa_5G457750 PE=4 SV=1[more]
V7BVE3_PHAVU5.9e-3756.00Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_005G034300g PE=4 SV=1[more]
I1LKF0_SOYBN7.7e-3758.05Uncharacterized protein OS=Glycine max GN=GLYMA_U018700 PE=4 SV=1[more]
A0A0S3SL38_PHAAN1.0e-3656.47Uncharacterized protein OS=Vigna angularis var. angularis GN=Vigan.07G243400 PE=... [more]
A0A067GUH8_CITSI1.0e-3654.24Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g026883mg PE=4 SV=1[more]
BLAST of MELO3C005113 vs. TAIR10
Match NameE-valueIdentityDescription
AT5G13470.11.2e-2848.54 unknown protein[more]
BLAST of MELO3C005113 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|659072425|ref|XP_008465558.1|1.6e-91100.00PREDICTED: uncharacterized protein LOC103503186 isoform X1 [Cucumis melo][more]
gi|449452018|ref|XP_004143757.1|3.7e-8593.64PREDICTED: uncharacterized protein LOC101221543 isoform X1 [Cucumis sativus][more]
gi|657950713|ref|XP_008349319.1|2.2e-4057.56PREDICTED: LOW QUALITY PROTEIN: uncharacterized protein LOC103412549 [Malus dome... [more]
gi|694327041|ref|XP_009354402.1|4.8e-4058.38PREDICTED: uncharacterized protein LOC103945545 [Pyrus x bretschneideri][more]
gi|1009129761|ref|XP_015881940.1|3.4e-3856.57PREDICTED: chloride channel protein 1 [Ziziphus jujuba][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0071704 organic substance metabolic process
cellular_component GO:0005575 cellular_component
molecular_function GO:0003674 molecular_function
Unigene
This gene is associated with the following unigenes:
Unigene NameAnalysis NameSequence type in Unigene
MU46722melon EST collection version 4.0transcribed_cluster
Relationships

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

Feature NameUnique NameType
MELO3C005113T1MELO3C005113T1mRNA


The following transcribed_cluster feature(s) are associated with this gene:

Feature NameUnique NameType
MU46722MU46722transcribed_cluster


InterPro
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR33912FAMILY NOT NAMEDcoord: 2..168
score: 7.6
NoneNo IPR availablePANTHERPTHR33912:SF3SUBFAMILY NOT NAMEDcoord: 2..168
score: 7.6

Synteny
The following gene(s) are orthologous to this gene:

None

The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
MELO3C005113Silver-seed gourdcarmeB0483
MELO3C005113Silver-seed gourdcarmeB0821
MELO3C005113Cucumber (Chinese Long) v3cucmeB362
MELO3C005113Watermelon (97103) v2mewmbB009
MELO3C005113Wax gourdmewgoB005
MELO3C005113Cucumber (Gy14) v1cgymeB523
MELO3C005113Cucurbita maxima (Rimu)cmameB252
MELO3C005113Cucurbita maxima (Rimu)cmameB635
MELO3C005113Cucurbita moschata (Rifu)cmomeB240
MELO3C005113Cucurbita moschata (Rifu)cmomeB625
MELO3C005113Wild cucumber (PI 183967)cpimeB353
MELO3C005113Cucumber (Chinese Long) v2cumeB363
MELO3C005113Watermelon (Charleston Gray)mewcgB019
MELO3C005113Watermelon (97103) v1mewmB030
MELO3C005113Cucurbita pepo (Zucchini)cpemeB157
MELO3C005113Cucurbita pepo (Zucchini)cpemeB359
MELO3C005113Bottle gourd (USVL1VR-Ls)lsimeB013
MELO3C005113Cucumber (Gy14) v2cgybmeB303