MELO3C033218.jh1 (gene) Melon (Harukei-3) v1.41

Overview
NameMELO3C033218.jh1
Typegene
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
DescriptionLEA_2 domain-containing protein
Locationchr08: 10382624 .. 10397484 (+)
RNA-Seq ExpressionMELO3C033218.jh1
SyntenyMELO3C033218.jh1
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTTTGGTGGAAGCGAAGAGGAAGGTAATCCCTTTCAACCTCCCCAAACGTGGCCGACCAAATCACGATTCCAACATCTAGCCTTCGGCCATTCCTCGCCCACCGTCCGTCACGAGCATTCCTCTCTAGTCGTCCATCACCGGCATTCCTCGCAGCTATCGACCATTCCTCAGCTGACGAAGAATGTGACGGATATAAGTATTTTGTTGAGTGGGAATAGTGAATTTGGAAGTGAGTTACAAGAGGCGTTGATGCAGAAAGACATAGTGGGAAAATTTCGCTGCTTGTTGAGCCTTTATAGCCTCGGGCAAGTTTTTTCAGTGCCAGTGAATGGTGTTGCGCCCACAACAAAAAATAACTCTCAATCAACAGCGTCGGTATCATCAGCTACTCCTTTGCAATCGGAAGAGTATGATTTCTCCTCTTTAACACAAGACTCTCCCGATGCACATAGTGCCGTCGGAAAGAACATCGGTAGCAGTATGTTGGCTTCGATATTCGCAATGTGCAAACGGGACAACATTGAGAATGCCCTACTCCTGATGCCTTACATGTCAATGGACGATGTATGTCGACAATAG

Coding sequence (CDS)

ATGTTTGGTGGAAGCGAAGAGGAAGGTAATCCCTTTCAACCTCCCCAAACGTGGCCGACCAAATCACGATTCCAACATCTAGCCTTCGGCCATTCCTCGCCCACCGTCCGTCACGAGCATTCCTCTCTAGTCGTCCATCACCGGCATTCCTCGCAGCTATCGACCATTCCTCAGCTGACGAAGAATGTGACGGATATAAGTATTTTGTTGAGTGGGAATAGTGAATTTGGAAGTGAGTTACAAGAGGCGTTGATGCAGAAAGACATAGTGGGAAAATTTCGCTGCTTGTTGAGCCTTTATAGCCTCGGGCAAGTTTTTTCAGTGCCAGTGAATGGTGTTGCGCCCACAACAAAAAATAACTCTCAATCAACAGCGTCGGTATCATCAGCTACTCCTTTGCAATCGGAAGAGTATGATTTCTCCTCTTTAACACAAGACTCTCCCGATGCACATAGTGCCGTCGGAAAGAACATCGGTAGCAGTATGTTGGCTTCGATATTCGCAATGTGCAAACGGGACAACATTGAGAATGCCCTACTCCTGATGCCTTACATGTCAATGGACGATGTATGTCGACAATAG

Protein sequence

MFGGSEEEGNPFQPPQTWPTKSRFQHLAFGHSSPTVRHEHSSLVVHHRHSSQLSTIPQLTKNVTDISILLSGNSEFGSELQEALMQKDIVGKFRCLLSLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQSEEYDFSSLTQDSPDAHSAVGKNIGSSMLASIFAMCKRDNIENALLLMPYMSMDDVCRQ
Homology
[Close]
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match: XP_008454632.1 (PREDICTED: probable ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucumis melo])

HSP 1 Score: 73.6 bits (179), Expect = 2.17e-11
Identity = 42/49 (85.71%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLYSLGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 456 SLYSLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 504

[Close]
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match: KAA0036779.1 (putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucumis melo var. makuwa])

HSP 1 Score: 73.6 bits (179), Expect = 2.21e-11
Identity = 42/49 (85.71%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLYSLGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 482 SLYSLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 530

[Close]
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match: TYJ95847.1 (putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucumis melo var. makuwa])

HSP 1 Score: 73.6 bits (179), Expect = 2.29e-11
Identity = 42/49 (85.71%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLYSLGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 554 SLYSLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 602

[Close]
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match: XP_031738942.1 (ADP-ribosylation factor GTPase-activating protein AGD5 isoform X2 [Cucumis sativus])

HSP 1 Score: 72.4 bits (176), Expect = 5.18e-11
Identity = 41/49 (83.67%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLY+LGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 405 SLYNLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 453

[Close]
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match: XP_004150098.1 (ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucumis sativus] >KGN59876.1 hypothetical protein Csa_001028 [Cucumis sativus])

HSP 1 Score: 72.4 bits (176), Expect = 5.43e-11
Identity = 41/49 (83.67%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLY+LGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 456 SLYNLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 504

[Close]
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match: A0A1S3BZ67 (probable ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103494997 PE=4 SV=1)

HSP 1 Score: 73.6 bits (179), Expect = 1.05e-11
Identity = 42/49 (85.71%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLYSLGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 456 SLYSLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 504

[Close]
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match: A0A5A7T5X5 (Putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold20G00650 PE=4 SV=1)

HSP 1 Score: 73.6 bits (179), Expect = 1.07e-11
Identity = 42/49 (85.71%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLYSLGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 482 SLYSLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 530

[Close]
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match: A0A5D3B9N9 (Putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold110G001380 PE=4 SV=1)

HSP 1 Score: 73.6 bits (179), Expect = 1.11e-11
Identity = 42/49 (85.71%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLYSLGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 554 SLYSLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 602

[Close]
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match: A0A0A0LIL4 (Arf-GAP domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G851770 PE=4 SV=1)

HSP 1 Score: 72.4 bits (176), Expect = 2.63e-11
Identity = 41/49 (83.67%), Postives = 43/49 (87.76%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQS-EEYDFSSLTQ 145
           SLY+LGQV SVPVNGV PT KN SQSTASVSSATP QS +EYDFSSLTQ
Sbjct: 456 SLYNLGQVSSVPVNGVTPTAKNKSQSTASVSSATPSQSGKEYDFSSLTQ 504

[Close]
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match: A0A6J1FEN5 (probable ADP-ribosylation factor GTPase-activating protein AGD5 OS=Cucurbita moschata OX=3662 GN=LOC111443384 PE=4 SV=1)

HSP 1 Score: 66.6 bits (161), Expect = 2.52e-09
Identity = 37/51 (72.55%), Postives = 41/51 (80.39%), Query Frame = 0 

Query: 98  SLYSLGQVFSVPVNGVAPTTKNNSQSTASVSSATPLQSE---EYDFSSLTQ 145
           SLYSL QV SVP NGV PT KN +QS+AS+ SATPLQS+   EYDFSSLTQ
Sbjct: 427 SLYSLSQVSSVPANGVTPTAKNKTQSSASIPSATPLQSQSGKEYDFSSLTQ 477

The following BLAST results are available for this feature:
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008454632.12.17e-1185.71PREDICTED: probable ADP-ribosylation factor GTPase-activating protein AGD5 isofo... [more]
KAA0036779.12.21e-1185.71putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucu... [more]
TYJ95847.12.29e-1185.71putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucu... [more]
XP_031738942.15.18e-1183.67ADP-ribosylation factor GTPase-activating protein AGD5 isoform X2 [Cucumis sativ... [more]
XP_004150098.15.43e-1183.67ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 [Cucumis sativ... [more]
BLAST of MELO3C033218.jh1 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BZ671.05e-1185.71probable ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 OS=Cu... [more]
A0A5A7T5X51.07e-1185.71Putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 OS=Cu... [more]
A0A5D3B9N91.11e-1185.71Putative ADP-ribosylation factor GTPase-activating protein AGD5 isoform X1 OS=Cu... [more]
A0A0A0LIL42.63e-1183.67Arf-GAP domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G851770 PE=... [more]
A0A6J1FEN52.52e-0972.55probable ADP-ribosylation factor GTPase-activating protein AGD5 OS=Cucurbita mos... [more]
BLAST of MELO3C033218.jh1 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
Relationships

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

Feature NameUnique NameType
MELO3C033218.jh1.t1MELO3C033218.jh1.t1mRNA