MELO.jh102756.1 (gene) Melon (Harukei-3) v1.41
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGAGAAATCTCAGGCTTTCAATTGGGTGTCATTGGAGCACTATTCTTATCAGTGGCATCTTCTGTCTCCATTGTCATCTGCAACAAGGCACTCATGAGTAACCTCGGCTTCCCTTTCGGTGCGTATTCTTTCTCTTTTAACATTATTATCAATCAAGCCGCTTATGCGTGTAGTGTGGTTTCTATGTTTGAACTGTATTATCATAAACTATCACAAGAAACTAGAGAATGCAATACCTTTTATAGAAAAGAATATGAATCCGACCTATTCATGTTATCTTCTTAAAGTGGTTTTAATCCCTCTAGTAGATGAGTTTCAAGAGTAATTGTTTCTTGGGATAGAACATATTGCTTTTTCTATGGAAACTAACACCTCGTCCACAAGGATCAATGAACTCTACCAGTTAAGCAACACTTCAATGAAATTTTAAAATAGAAGAAAAATCTTATAAGAACAAAGTGTACATAAACCAGTTAAGTTGAAGAAGAGACATATTTATGTTTATAGACTAATATATATTCTTTAAATTGGTTAATAGTTGAAAAGATGCATCCATTGTGAAAGAATGCTACTCATGGAATTGAAAGGATGCAATTCCCAACAAAGAGACACGTACTATTTATTCTAATATGAACTCTTGTAATGTCATTTATTTTCTACCCGAATGAAAGTTTCTTAGTTCATCTGGTGAGGAGGAGGAATCGAGTGTTTATATCTTAACTGGTTGAATTGTGTTACACACAAAAGAATCCAAGAAATAGGTGTTAAGAAAATAAATATATGATTAAATTCACTTTCTTTGTGGCAGCAACTACTCTGACTAGTTGGCATCTGATGGTCACGTATTGCACTCTTCATGTGGCTCATCGCTTAAACTTGTTTGAATCCAAACCAATTGACACAAAGACGGTTGTGCTTTTTGGGATGCTCAATGGCATCTCCATTGGATTTCTTAACTTGAGCTTGGGATTCAATTCTGTTGGATTCTACCAGGTTGAGTTTAATTAATTATGATTCTTTCTTTGGGTTCTTCTTTTCTTCCCTACCAAACTGATATACTATGTTTTTATTTCATTTTGGTTTAACTTTGTGTGGTTCCTTGTTTGTTTTTCTCTGCAGATGACAAAACTTGCAATTATTCCATTCACTGTTATGTTAGAGACTATTTTCCTTAAAAAACAATTCAGGTACTAGCTTTTTCTCCTTTGTCTAATCACAAAGAAGAATTTAATTTCTCACTTAGATTTTTTCTTGTTGTAGTTCCAAGATTAGGCTCTCTCTCTTCCTCTTGCTAGTTGGAGTTGGTATTGCTTCTATCACTGATCTTCAGCTCAATTTTTTGGGAACTGTTCTTTCTCTCTTGGCTATCATAACAACCTGTGTTGGCCAAATTGTATCCTTCTCCTCCTACCATTTTCCATTTATGTCTTTATAAACTTTCACTTCATGATTGATACAGAGAAATTTTGCAGTGTTTAAGATGTGAAGTTAAGTTCTGGAGTTTAGAGTTAATATGTGAACTAGTATGTGTTTATAGCGTAAAGTTATTTAGTTTGGAGTTAGGAAATGTTAGAGGGAGTGAGAAAGAGGGGAAGATCATATCTCTTGATAAATTTGGAAACTTCAATAATGAATCCAGTTGAAGTTAATGGAATTGAGTTATTTAATATCAACTTATGAAGTTGTGACTCGGTGGGCAAAAGACACCTCCTTTATGTTTTGTTTTTCTTAACTTGGTGTTTAATACAGCTAACAAACACTATTCAGAAAAGGCTGAGTGTATCTTCAACGCAGCTACTGTATCAGTCTGCTCCATTTCAAGCAGCCATTCTGTTTGTGTCTGGCCCTTTCTTAGACCAATGTCTAACCAAGAAAAATGTGTTTGCTTACAAGTATTCTCCTGTGGTTTTGGTATGCTATTGTCCATTGGATTCATTATACTCTTGTCGTTAGTATCTTCTTTTGACTTATTAAAATGAGTGTATTCTTGGACTTGCAGGCTTTTATCATCCTTTCATGTCTGATATCTGTATCAGTCAACTTTAGCACATTTTTGGTGATTGGAAAGACATCACCGGTGACATACCAGGTGCTCGGCCACCTCAAGACATGCCTTGTTCTTGGCTTTGGCTATACTCTTCTCCATGATCCTTTCACTGAGAGAAACCTCATTGGAATCCTAATAGCCATTGGTGGGATGGGTTTGTATTCATATTTTTGTACCCAAGAGACTAAAAAGAAGCAGGGTGACCTCTCTTTAGGATCTCAGGTACCTCCTACTTCTTGAGTTCATCGAAAGATGCATCTATATCTATCTTTATGCAGCCTGCTTTAATCACACACAAGAATGTATTGTTTTTCGAGAAAAAAAGAAAATACTCAACTCTCAGGAAAATAAGGTCTTCCAAAATATTATCTAAATGAATTGGGTATGGTTTTGTTTCAGATAAAAGACAAGGAAACAGCAGCTCTTCTAGCAGGAGTTCTTCAAGATAAAGAAAATCATGAAGTGAAGAAATCAAACAAGGATTCTCTGGTTTAATTAACTAAATGAGATATGGAAGGAGAAGATATATAGATTTTCAGGAAAATGTTTTTGTATTTTTCTTTCCTTTTTCTCATAGAAGGTGGTACTTCTTAAATTCTTTGAATAAACACCCCATTTTGGTACTACTTTTCAAATTGAAGTACTCCTCTTTAGGATTTTGTCTGGAGACTATTGAAAGAACCATATTGCAGATTTATGGTCACTGTGCTTTGAAATCACCAACAAGGCTAAAAGAGCCAATGAAAAATCTGCTTAAAAAACAGTGGAGATCCTACCCTAAGAAACCATATAATCTCTCCCATTGGAGAAAGCTGAAGAAAAAGAGATGCGTAGCGCAAAAAGATGAACATATTATAAACATTATTTTGTTGTTCATTGTGAGGAAATAGTAATCAATGTTTATTATTGTTGTTTTGTATCTTTATTAAATTCGTAGAGATTCTTCCATTTGTCACAGAATAGAACCGAATAAACATCTCCTCATCATCATAAGCCTACCGCACAAGGCTTTTTTTTTTTTAATGGACAAACTTCTAATGGTTTCCAATTGGCAGCTAAGTTGAAGGAAGAAAATGGAACATTTTGTTTTCAACAGTAGCAAGTTGCTGAAATTAAGTTATAAATTGTTAGTTGCCCCTGTTCCTCGCTTTTCTGGACAAACAAGAAGACACGGAATAACCAAACCAACCACTTCTTCATCTCCTCGTCACAAACGAGAGGAAAAGACATCTTGAATGAATGTCAAAACCATAATAGCATCACCAAATTTACTTGTGTTTATAGCTTAGGTTTTAAGTCGAGTTGGTTGGTGTTACCTTGTATACCATAATAGGTGTGGATGTGCTGCCTACAGTCAATGCTTTGTTGCTTTACCAAATGACCTATTAATCATCCTATTCTGAATCCATTCTATATAAAGTGGGGGAAATTTTTCATTTGGTTTGATATATTTGCTTAGTTAAAAATTTGGCCTCCAACAAACAAATGTAGAATTGTGGCAAAAGCACAAAAGAACGTTTTGATAATGCTAGAGAGTCATCCTTCATTATTTTCAAAAACTGAAGCAAACAACATTGGCCATCTGAAATTTAAGTTATCTGTGAAAAGAATTCCAAAGAAAAAGTAGAAAGTTTCTTTTTTGGGTACTAAGAAGTAGGGAAGGTTATAGGCAGATTACATCAAAGAAACATGGCAATAGACTTTGATAGGGAAATTTAATACCATACTTTTATTATTGTATAGTTGAACTTCAACTTTTAAAGCCAACATTCTTGGTTGCATCACTGTGGAAAAGAGGGCCAAAAGTCCAAAGATGCTAAAGCTACCTATAGGTAACTAAAAATGTTTTTACCCTACAAAAATTTAAAATGTCGATAAAATTATCAATATCTTCGATACCTTGCATTCGACAAAAACCTTGATCATAAATCTCATATTTCTAGCGTATTTTGTTTTTGAAAGTTTTGTTGGTTTAGTTTTTAAGATGGACAAATAGAGTTAAAAGAGGCACAAAATGAACTCGTGAAATTAAATTGCATTCTTTTATTGATCAATTCTAGTAAAGGTGGGTATTTGTGAGATAATTGGTATTTGTCATCAAAATCATTCTTTTTGTCACACCATTTATTATCCTAATGTTTTTTTTTTATTATTGTTATTATTATTTTACAAATATATTCCAAAAGAGAGACCCTCGAGATTATGGCAAAAACATACACCACAAAAATTTTAAATAACTGAAACAAAGAGAAAAAGTCAACCAAACAAAATAATAATAAAACAGTACTAACTCAAGGAAAAGACCGAATCATACTCCATGAAAGAACTCCTAAATTGCTTAAAATAACAAATCAAAACTTTTGATTTTTGAACGTTAAAAAAAAAAAACAAAGAAAAGAAATTACTTAAATTTATAATCAGTGAATAAAAGTGTCAATGTGTGTGTAAATATTTAATTTTTTTGCAATTTTGGACATTGAGTTGTGGCACATCTGCATCTATATTATATGATTTCTAAGATAATAATATGAAAATGAGGAGTTGAAGATCACCACATTGTTTGAAATCAGTACTACCGTACTTATTAGCTATCTCAATTTGCATCCAAAATTGCAATTAATAAATGTACTACTCCAATAGTTAATTTGAAATATAAGTTTTGTTTTAAAAGAAAAAGAAGAAGAAGAAGAAGAAGGTGAAGGTGGTGAAGGTGGTGAAGGTGGTGAAGGTGTGGGTATGGGAGGAGGTGGAGGGTGGAATGAGAATTTGGATCACATGGGGTTTAGGGAGTGGCGTGGATGCCGCAGGGGCTGTCTCCATCCTTTGTCGGTATATATCATAGCCATACCCAGGCCCACTCTATTTTACTTTTGGCCCAATTCAACCCCCACCCTATTCTTTTTCCTTTTCTTTTTCTTTTTCTACCCATTCTTTCGCTATCTCAATTTTTACTTTTTAACACTTTTTTAAATAAAATACGAGTATCCAAGAATTTGAACCTACAGAAGTGTATTAAGTTTTATGTTAAGGGCATGAAAAAGAGAAGTTGAAAAGCTATCTCCATCAATGTGGTTGGTATTATTAATTTGAGAAAGGTCTTAAATATAAAATATGTTTTTAAGCTGTATGTATGTCGGTATCAATGTTGATTCCAAAACCTAACTAACTAAACCCACCCCCCCAAAAGAAAAAAAAAAAAAGAGTTTTGTAATATCCCCCATTTATTAACCCTTCAAATAAAAAGAAGAAAAGAGGAAAATCCTTTGTCCACGTCATCAGTTTCATGACAACGATTCAGCAATAGTTGTCATAAACTTTGTCCAATTCCTCTGATGCGACATGTCGGTAATGACGTTTGTTTCTTCTCTCTCTCTCTCTCACCCATTTTCCAGCTCCTCTAAATAAAATTCCTTTTTTTTTTCTTTTTCTTTTTGCTTGCCAGATTCCTTTTTGAAAAGAAAAAAAAAAACAGTGTCCAAATTTATACTGTTGTTTAAATTTATTTATAATAGTAATAAAGAATAAATAAATAAATAAATAAATAAAAAGGAGTTATTTGGTTTACTTTGTTAGAAAGGGTGTGGGTGTCCGTATTATGCATCCGATGTTGGCAGAACGGTTGGATTTGAAATCAATCTTTGTTGTGCGTTTGAAACAAACGTTGCCTTTATGAATTTGGCCAATTTTGTTGTATATTTCTGGAAATGCAAATTAAACTTTGTGCTTCTTTCTAATTCACCTTATTAATATTATTACCTACTACTTCCCCTTCCCATATAAATATCCTTTCTTATCTTATCTTCTTTTATTTCATTTCATTTCTCTCTTCATTGTTAGGCAGAAAAACACACACACAAGTATGTATGCATGTATTATATATACATATTCACATACTAATACCAAACACCAAATCAGTGTGTGTTTTATGTCAGTGGCTTATATTCATCCACCTAACATCAAATATTGTTAATATATAGTTTATTAAGTATTCTTTTCTTCCTTTACTTTCTCTTTTTTGTAATACCGATCCATTATAAACAAAGATCCATCTTCTAGAATTTTAAGGTATTGATCTCTAGTGTATGTATATCGTAATTAAGAATTTTTCATCCTTCCTTTTCTAGTTAATTCATTATTGTTATCAATATCAAATATGAAGGAAGCCAGGATTTTATCTTGCATATTTTTTCTCTCCATCTCTTTGAAGCTTATCAAATATATTGTTACAAAATGTTTTTTTTTTTTTTAGTTTTGAATTAGTTCATGTCTTTCTAATTCATTCATTTTAATCACGTTCATGAGTTATTTTTTCTCTCTCCTTCTAACTAATCTAATGTTTTGGTTTCATTTATTTTACCGTCAATCCATTGTCTCTCTTAACTTAAATTTTAGAGGTAATTTGTTTTTTTTTTTAATATAGTTAAGTGTGTTGATTTTTATGTGTAAATATTTTGCCGCTCTTCAATTTAAGTTTTTTAGATTAATTATATTGGTAATTTTTAATATGGTATTAACGTTATCGTTTTTGGGTTAATTAATGATTTAACTAGCTCCTTTGTTTCAAAAATGACATGTTTGTGCTTTAGGTTTTAATTTGATTTTTAATCGTCCTTTATTTGTTTTCTTTTTATAAAAAATTCAACTAATTGAAAAATGCATGTTTAGCATTTATAATGGTCACATCAAACGTCATCATTTTATTAGGTCAACCGATGTAATTAATCATACTTTGACCATTTTGTTAGAAATTAAATTTCAAAGGTCGAATACTAATTAGAGATCAACTTCATATTTTTAGACCAATTACAGTCGAAAGTTCATCGATCAAATTATTTAAAATTTGATACAAATGGAGCCGATAAACAAAATTTTGGTAAAATTCAAATAGGAGTTCTGTAATATACTTTTGTGTTGTTTTTAGAATATTTTACTTTTTAAAATTCAATTATATTGTTATTAAAAACAAGTTTAGAAGCTATGCAACATGAGTTACATGGCTTTAACAACAAAACTAATTGATTGTAATTAATTATAATGTTTTAATTCCGTGAGATTAGACCTAACTTTGACCAACTAAATAAATAGTTAAAAGTGCAATATTGATTGGAATATTAAATGAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAAGGGAGATAAATAAGCACAGGTTTGGATCAAATATGTGATGGGAGTAAGGTAAGAGGGTGCGGGGTAGAGCTTTGGAGGACGCGGCTGCTAAATGTTTGATTTTGAGCCACATTACATTAATATTCAAAGTGTTGTTTTCACTCATTCCATATCTTTTCAATTCTCTTTTTTTTTTTCCTTTTCCTTTTCATTTGTATTTTCATTTTACAGATTTACGGTAAATAATATTACAACTTTTATGAGCTCATAAAAATATGCAAAATATTTATAATTTCATTTTCTTTTTTTCAATTTTAGTAATTGCATTAGGAAATCTCATTTATGGAAACTCAAATAGGACGCTCTGAATTTTGGAATTTTTTTGGATGGATCAGTCAATTATATATATATATATATACGTATTTTCAAAACTATTTTGAGTTTTTAACCACAGCCAATAAAGAATAGAAGAATGATTCTGGTTCATATTTTTGACTTTAGTTTAATTGTTTGTACGAATAGTGGGTTGGCTCATAACTTAGTTGGGCGAGCTATATCTAATACAAAACTATGCACATTTGAATGGACAACGTAAACAATTTTTAAAAGGAAAAATTTTTAAATAAGGATTTCTTAATGATAAGATTCTTTGCTTGTCAAAATATTTCATAAATTAGATAATTCGTTTTTATCTTAAGTGGATGAAAACTAACTCCAATTTCATCATAAAATTTGCAAGTTAAATTATACAAAATAAACCCCTAAACTTTCAACACTTTGTGTTGAGAGTATTCTTAAACTTTCAAAAGTTTTAAAAGCACGCCTAAACGACCGAAATGAGTTTAAAATATACTTTTACCCTTAGTTAGGATGAAAATTGTTAGTTTTATGTATAAAAAAATATTTTTTAAAAATAGTTTTGGATAATAACCCGTTAGCGTTTTTATGTCTAAAGATATCCTTAAATTTTTAAAAGTTAAATGCTCTAAAACTTTTAAAAAATAATAAAAAAAATAGGTAAATTTTTATAAATGTAACAAAACATCAAACTATTTACGATAACAAAAGGCATGAAATTAGTCACTTTTTAAATATTTCAAGTTTACCCTTCCATCTTTATTCTTTTCTCCTTGCAATTCATTGTCTTTCTTCTTCTTTTTTTTTTCTGCTACGATTTTTTTCCATCATTTTTCTTCTTTTCTGATTTTTCTTTACGTCGTTTACATTTGGGTAACCAAATCTAAATGGTCGTGTACAAAAAATAGAAAAATCTAAAAGATCATGCATAAAGAATCTTGAAAAAAAATCATTTAGATTGGAGTAGCCAAATGTAAATATCGTGTATCAAAAGAATTAAAAAAAAACCGTTTAGCCAAAACTAAACGATTGTGTAAACAAATCTAGACAATCGTATAAACAAATCTAAACGATCGTGTAGAAAAGAATAAACGACGGTGTAGCAAAAGAATTTAAAAAATCGTTTAGCAAAACCTAAACGATCGTGTAACCAAATTTAAACGTAACCAACTTAAGTGATCGTGTAACAAAATTAAACGATAGAATTGAAAAAATAAATTGTAGTCATATCTAAACAATCGTGCACCAAACAATAGCTAAATCTAAACGATCGTGTAGCAAATATATTACGCGACTGCCTGGTTGAAAGGAATTTATGTGATTGTTTTAACATCGTATCAGTATGTTTTAAAAGGAATTTTTTAAATAGAATTTTGTGAAATTTTGTATTTTAACTTTAAAAAAATGACTTCTATTTTAGTTGTTAAGAAATTTGGTGTAGAACCGAAAAGATAAGAAAAAATAAGAATACCTTATATAAAAATAAAATGAGGATATATGTATATATCTTAAATTATTTTTTTCGAAGTTAAAAATCTTCAAACGAGTTTATCATCTTACTAACAATAGAAAAAAGAGTTATTTTTACAATAAGATATTAACAAGTTCAATTTTATACCAATGATGAGAGCAATTATAAATTTGTTTTTAGTTTAAGGATATTCATGAATCTTTTTAATAGTTTGCAGATATTTTTTAAACAAAATTTCAACTATTTTCATCCAAAAGTAACAAAGTATTTATTAAAAAACTTATTTTTAAAGTGTTAAAGGTATTTTTGAAACTTTTAAATACAAAGCTTAAGGATATTTTTTATAATTTAGCTTAAAATTGTATTTATTTTTTCTTTTGAATTCAATTTACCTAAAATATATTTGCATTAACTTTTTCAAATTTTTAAATGATTGTTTATAAGTAAAAAAAAATTGTTTATAGCCACATAGAAGGATAATCCAAACCAACTATTAATTTATGTAAAATAAATGATCTGAAGTTAACAATAAATATTTTGGACTAGTTAAATTATATTGCATTGTCATTAAGTTTTATTTATTATCAACTTGCTTACATTTTTTTCTTACCATAAACTATATTTGATGTTGTCTCTCGCATGCAAATGTCTAAAATTTAAAGGATTCTTTTTAATATAATAAAAATTGAAACATTCAAGCCACAAATCTTTAGTCATCAACATATATGTACAATTATGTTCACTTTACCGAACCTTAAATTTAATATATCGATTAGGATTAGAGAAAAAGAAAAACAAATATGTAAATAATGGTTATAGTTACTAATTATAACTAAACAGTAGGGAACAGTAGATTAGTGTTGACAACTCATTAATACAAAATTTCTAATTAAAGCATATGAATATTAATTAGTAGTAGATATATAGATACAATCAATTTTTCACCCATTCCTTTTTTTAAACAAACAATATTAAAAGCCCTGAAATAACCCTCCTAAAGAAAAAAAAAAGACATTAATATGGGTAACAAAACAATAACTCTTCTCTCTTTGGTTTTCCTTTTACTTCACTTTATACCTATGTTTAAAATAGTTAATATATAGTGAAGAAAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGTATGCTAATTAAATATGTGTTTTTGGTCTTTAATGTTTTAAATATTACTTTTTGAATCTAATCTTATAATTTAATTTTTTTAAAAAAATAAAAAATAAAAAGTTATTTCCACACGTTTTCAATTAAGCATCAATTTAGGGACATGATGTCTCCGTTTAATTAAGATGATGCTACCAATTGTAAGTACTTTAGCATTTTTGCAAAAGTTAGTTCGATTATAATTAAGATTGTTTACTTTGTATCTTTTAGTATTATTGTCTTCTTTATCGTTAGTGTAACTGCAACATATTCATACAGACATGTCGGTAAAAATGTACGTAATAATAACGATATTTGAGGGTAAAAGATTAGAGAGCCGTCATTCGGAAGTATTTGAAAAAAGTTTATAGATCTCATGTAACTTACTAATGAAAAGAATTGAGCCTTCAATTAGTTTTGAATCAAGTGAAATGAAAGTTGCATTTAAGAGTGTAAAACTAAACATTAAATCTTGAATGAAATTGTGAGTAGAGGGATTGTTTTTAATATGACATAACATAAGTGAATTTTGACCAAATAAAAAATTATTCCTTACGTACCTAAAATTTGTGTTCATCATTATTTCAAAGTAGGTAAAAATTTTAAGTTTTATCTCCTATTAAGTGACACTATATTCTTCTCTTAAATTTCTATCCATTTACGTTCAATTATGACAATTAATTTTAACATGCATTAAATGTTAAAAAGGATAAAATTGAAAATTTGAGAAACCTAACAAACCAAACATGACTTTTTGTCCAACAAACTAAAACTTTTTAAGAGATGGTTAAATTACTAAATTTTAGGATTAAATTCTCCTAATAGTTTAAGGATAAGTTGTTATGTCATTTAAATTTTTTTTTGAAAAAGAATCAACGAGTAAATAAAGGACATTCTTTCACAAAAACAAGAGTTCCAAGGACCTTATGTGTTTTTTAAACAAGAAAAGAAAACAACACACCAAAATAATCATATACAATTAGGTGAGTAACAAAATTACATCTAACGAAAGAAAAAGCACTCACCTTGATAAATAAGATATGGTGTATCATCAACCTCATTCTTAGTTTTAGAAAGATTTGAAAAATAATGAGTGTAAAATAACAACTACGAAATCTGACTTAACCGTAAGAGAGATTGACAAGAAACGAGCCCGAATGGATGAGTCAATTATAATCAACATGCTAAATAAAAACAAACCAAATATTTAAATCTTGAAACCCACAGAAGTAAATTAAAAACAAATATGAAATTGATGCCTACAAATTTCTTTGGAAGTGAACATAGTTTGAGGGATAAAGAACAATAATTCAATAAAGATGATAATAGTAACTATAACCTCTTCATTGGAAGTGAAAGATTCTTCTATCCCATCCATCCATCTGTAGTTGGGTGTAAATATATATGTGTATATATATATATATGGCCCAAAGGAAACAGAGAGAAAAACAGAGAGGTAAAAGAAAGAAAAGGAAAGGTAGGGTTTAAAAGAAGAGAAGAGTAA ATGGGAGAAATCTCAGGCTTTCAATTGGGTGTCATTGGAGCACTATTCTTATCAGTGGCATCTTCTGTCTCCATTGTCATCTGCAACAAGGCACTCATGAGTAACCTCGGCTTCCCTTTCGCAACTACTCTGACTAGTTGGCATCTGATGGTCACGTATTGCACTCTTCATGTGGCTCATCGCTTAAACTTGTTTGAATCCAAACCAATTGACACAAAGACGGTTGTGCTTTTTGGGATGCTCAATGGCATCTCCATTGGATTTCTTAACTTGAGCTTGGGATTCAATTCTGTTGGATTCTACCAGATGACAAAACTTGCAATTATTCCATTCACTGTTATGTTAGAGACTATTTTCCTTAAAAAACAATTCAGTTCCAAGATTAGGCTCTCTCTCTTCCTCTTGCTAGTTGGAGTTGGTATTGCTTCTATCACTGATCTTCAGCTCAATTTTTTGGGAACTGTTCTTTCTCTCTTGGCTATCATAACAACCTGTGTTGGCCAAATTCTAACAAACACTATTCAGAAAAGGCTGAGTGTATCTTCAACGCAGCTACTGTATCAGTCTGCTCCATTTCAAGCAGCCATTCTGTTTGTGTCTGGCCCTTTCTTAGACCAATGTCTAACCAAGAAAAATGTGTTTGCTTACAAGTATTCTCCTGTGGTTTTGGCTTTTATCATCCTTTCATGTCTGATATCTGTATCAGTCAACTTTAGCACATTTTTGGTGATTGGAAAGACATCACCGGTGACATACCAGGTGCTCGGCCACCTCAAGACATGCCTTGTTCTTGGCTTTGGCTATACTCTTCTCCATGATCCTTTCACTGAGAGAAACCTCATTGGAATCCTAATAGCCATTGGTGGGATGGGTTTGTATTCATATTTTTGTACCCAAGAGACTAAAAAGAAGCAGGGTGACCTCTCTTTAGGATCTCAGATAAAAGACAAGGAAACAGCAGCTCTTCTAGCAGGAGTTCTTCAAGATAAAGAAAATCATGAAGTGAAGAAATCAAACAAGGATTCTCTGAAAAAGAAGAAGAAGAAGAAGAAGGTGAAGGTGGTGAAGGTGGTGAAGGTGGTGAAGGTGTGGGTATGGGAGGAGGTGGAGGGTGGAATGAGAATTTGGATCACATGGGGTTTAGGGAGTGGCGTGGATGCCGCAGGGGCTGTCTCCATCCTTTGTCGAGAGAAAAACAGAGAGGTAAAAGAAAGAAAAGGAAAGGTAGGGTTTAAAAGAAGAGAAGAGTAA ATGGGAGAAATCTCAGGCTTTCAATTGGGTGTCATTGGAGCACTATTCTTATCAGTGGCATCTTCTGTCTCCATTGTCATCTGCAACAAGGCACTCATGAGTAACCTCGGCTTCCCTTTCGCAACTACTCTGACTAGTTGGCATCTGATGGTCACGTATTGCACTCTTCATGTGGCTCATCGCTTAAACTTGTTTGAATCCAAACCAATTGACACAAAGACGGTTGTGCTTTTTGGGATGCTCAATGGCATCTCCATTGGATTTCTTAACTTGAGCTTGGGATTCAATTCTGTTGGATTCTACCAGATGACAAAACTTGCAATTATTCCATTCACTGTTATGTTAGAGACTATTTTCCTTAAAAAACAATTCAGTTCCAAGATTAGGCTCTCTCTCTTCCTCTTGCTAGTTGGAGTTGGTATTGCTTCTATCACTGATCTTCAGCTCAATTTTTTGGGAACTGTTCTTTCTCTCTTGGCTATCATAACAACCTGTGTTGGCCAAATTCTAACAAACACTATTCAGAAAAGGCTGAGTGTATCTTCAACGCAGCTACTGTATCAGTCTGCTCCATTTCAAGCAGCCATTCTGTTTGTGTCTGGCCCTTTCTTAGACCAATGTCTAACCAAGAAAAATGTGTTTGCTTACAAGTATTCTCCTGTGGTTTTGGCTTTTATCATCCTTTCATGTCTGATATCTGTATCAGTCAACTTTAGCACATTTTTGGTGATTGGAAAGACATCACCGGTGACATACCAGGTGCTCGGCCACCTCAAGACATGCCTTGTTCTTGGCTTTGGCTATACTCTTCTCCATGATCCTTTCACTGAGAGAAACCTCATTGGAATCCTAATAGCCATTGGTGGGATGGGTTTGTATTCATATTTTTGTACCCAAGAGACTAAAAAGAAGCAGGGTGACCTCTCTTTAGGATCTCAGATAAAAGACAAGGAAACAGCAGCTCTTCTAGCAGGAGTTCTTCAAGATAAAGAAAATCATGAAGTGAAGAAATCAAACAAGGATTCTCTGAAAAAGAAGAAGAAGAAGAAGAAGGTGAAGGTGGTGAAGGTGGTGAAGGTGGTGAAGGTGTGGGTATGGGAGGAGGTGGAGGGTGGAATGAGAATTTGGATCACATGGGGTTTAGGGAGTGGCGTGGATGCCGCAGGGGCTGTCTCCATCCTTTGTCGAGAGAAAAACAGAGAGGTAAAAGAAAGAAAAGGAAAGGTAGGGTTTAAAAGAAGAGAAGAGTAA MGEISGFQLGVIGALFLSVASSVSIVICNKALMSNLGFPFATTLTSWHLMVTYCTLHVAHRLNLFESKPIDTKTVVLFGMLNGISIGFLNLSLGFNSVGFYQMTKLAIIPFTVMLETIFLKKQFSSKIRLSLFLLLVGVGIASITDLQLNFLGTVLSLLAIITTCVGQILTNTIQKRLSVSSTQLLYQSAPFQAAILFVSGPFLDQCLTKKNVFAYKYSPVVLAFIILSCLISVSVNFSTFLVIGKTSPVTYQVLGHLKTCLVLGFGYTLLHDPFTERNLIGILIAIGGMGLYSYFCTQETKKKQGDLSLGSQIKDKETAALLAGVLQDKENHEVKKSNKDSLKKKKKKKKVKVVKVVKVVKVWVWEEVEGGMRIWITWGLGSGVDAAGAVSILCREKNREVKERKGKVGFKRREE Homology
BLAST of MELO.jh102756.1 vs. NCBI nr
Match: XP_008463953.1 (PREDICTED: uncharacterized membrane protein At1g06890 [Cucumis melo] >KAA0035349.1 putative membrane protein [Cucumis melo var. makuwa] >TYK14288.1 putative membrane protein [Cucumis melo var. makuwa]) HSP 1 Score: 644 bits (1660), Expect = 6.87e-231 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. NCBI nr
Match: XP_004145747.1 (UDP-xylose transporter 1 [Cucumis sativus] >KGN46843.1 hypothetical protein Csa_020972 [Cucumis sativus]) HSP 1 Score: 640 bits (1651), Expect = 1.61e-229 Identity = 341/343 (99.42%), Postives = 342/343 (99.71%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. NCBI nr
Match: XP_038902920.1 (UDP-xylose transporter 1 [Benincasa hispida]) HSP 1 Score: 634 bits (1635), Expect = 4.41e-227 Identity = 338/343 (98.54%), Postives = 340/343 (99.13%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. NCBI nr
Match: XP_022995001.1 (UDP-xylose transporter 1-like isoform X1 [Cucurbita maxima] >XP_023534458.1 UDP-xylose transporter 1-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 626 bits (1614), Expect = 6.96e-224 Identity = 332/343 (96.79%), Postives = 337/343 (98.25%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. NCBI nr
Match: XP_022957760.1 (UDP-xylose transporter 1-like [Cucurbita moschata]) HSP 1 Score: 625 bits (1611), Expect = 1.99e-223 Identity = 331/343 (96.50%), Postives = 337/343 (98.25%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy Swiss-Prot
Match: F4IHS9 (UDP-xylose transporter 1 OS=Arabidopsis thaliana OX=3702 GN=UXT1 PE=1 SV=1) HSP 1 Score: 498.8 bits (1283), Expect = 5.9e-140 Identity = 267/343 (77.84%), Postives = 299/343 (87.17%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy Swiss-Prot
Match: Q8RXL8 (UDP-xylose transporter 3 OS=Arabidopsis thaliana OX=3702 GN=UXT3 PE=1 SV=1) HSP 1 Score: 427.6 bits (1098), Expect = 1.7e-118 Identity = 235/354 (66.38%), Postives = 279/354 (78.81%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy Swiss-Prot
Match: Q8GUJ1 (UDP-xylose transporter 2 OS=Arabidopsis thaliana OX=3702 GN=UXT2 PE=1 SV=1) HSP 1 Score: 422.9 bits (1086), Expect = 4.1e-117 Identity = 234/350 (66.86%), Postives = 278/350 (79.43%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy Swiss-Prot
Match: Q9FIH5 (UDP-rhamnose/UDP-galactose transporter 3 OS=Arabidopsis thaliana OX=3702 GN=URGT3 PE=1 SV=1) HSP 1 Score: 194.1 bits (492), Expect = 3.1e-48 Identity = 111/286 (38.81%), Postives = 183/286 (63.99%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy Swiss-Prot
Match: Q9LPU2 (UDP-rhamnose/UDP-galactose transporter 2 OS=Arabidopsis thaliana OX=3702 GN=URGT2 PE=1 SV=1) HSP 1 Score: 193.7 bits (491), Expect = 4.0e-48 Identity = 114/330 (34.55%), Postives = 198/330 (60.00%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy TrEMBL
Match: A0A5A7T1U8 (Putative membrane protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold84G00110 PE=4 SV=1) HSP 1 Score: 644 bits (1660), Expect = 3.33e-231 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy TrEMBL
Match: A0A1S3CKG4 (uncharacterized membrane protein At1g06890 OS=Cucumis melo OX=3656 GN=LOC103501954 PE=4 SV=1) HSP 1 Score: 644 bits (1660), Expect = 3.33e-231 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy TrEMBL
Match: A0A0A0KBE2 (TPT domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G141400 PE=4 SV=1) HSP 1 Score: 640 bits (1651), Expect = 7.81e-230 Identity = 341/343 (99.42%), Postives = 342/343 (99.71%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy TrEMBL
Match: A0A6J1K0S8 (UDP-xylose transporter 1-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111490686 PE=4 SV=1) HSP 1 Score: 626 bits (1614), Expect = 3.37e-224 Identity = 332/343 (96.79%), Postives = 337/343 (98.25%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. ExPASy TrEMBL
Match: A0A6J1H1F0 (UDP-xylose transporter 1-like OS=Cucurbita moschata OX=3662 GN=LOC111459208 PE=4 SV=1) HSP 1 Score: 625 bits (1611), Expect = 9.65e-224 Identity = 331/343 (96.50%), Postives = 337/343 (98.25%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. TAIR 10
Match: AT2G28315.1 (Nucleotide/sugar transporter family protein ) HSP 1 Score: 498.8 bits (1283), Expect = 4.2e-141 Identity = 267/343 (77.84%), Postives = 299/343 (87.17%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. TAIR 10
Match: AT1G06890.3 (nodulin MtN21 /EamA-like transporter family protein ) HSP 1 Score: 430.3 bits (1105), Expect = 1.8e-120 Identity = 231/335 (68.96%), Postives = 274/335 (81.79%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. TAIR 10
Match: AT1G06890.1 (nodulin MtN21 /EamA-like transporter family protein ) HSP 1 Score: 427.6 bits (1098), Expect = 1.2e-119 Identity = 235/354 (66.38%), Postives = 279/354 (78.81%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. TAIR 10
Match: AT1G06890.2 (nodulin MtN21 /EamA-like transporter family protein ) HSP 1 Score: 427.6 bits (1098), Expect = 1.2e-119 Identity = 235/354 (66.38%), Postives = 279/354 (78.81%), Query Frame = 0
BLAST of MELO.jh102756.1 vs. TAIR 10
Match: AT2G30460.1 (Nucleotide/sugar transporter family protein ) HSP 1 Score: 422.9 bits (1086), Expect = 2.9e-118 Identity = 234/350 (66.86%), Postives = 278/350 (79.43%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
|