IVF0009135 (gene) Melon (IVF77) v1
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.ATGGAGACCGTTCTTGAGAATTCCATCCCTGGGTTGTCTGATTCTATTGCGAAGGTAGTTTACGTGGTGTGATTATTGGGGTTTTGGTATATTTTTGTTTTAATTTGGGTGGTGAAATGATATTTTCCTGTAATATGAAAAATTAATTTCGTCTTATGCTGAATCATCTCACAGATTAGAGAAGATGTAAAATCTGGTGTAGAAAATTTAACAGAGGAGTGTGTATCCACAATGGCAGACGTTACTCGGCTTCTAATGAAGGTTTTTATCTTCCTCGTGCTAATATGCGCACCTAAGTGCACCCCTATCCATGGAAGTACGGAGGTAAGTTTCCCTTTTGGAATTCAAGTTCTGTATTTCTCGTTGGAGTTTAAGAGGCATTTTTGTTGTTGTTCTTCTTCTTGCATAACTGTGGTTGTGGAATTTGGGTTCTAAGAAGTGAAAGAACTTGTATTATAGTTTTCTGTGGTAAAAGGAATTGAACCCACTTGCCATGTGTTCACTCAATTTGATTTTTTACTGTAATTTGAGTCAGTTATGGTCATTTTCAAGGGGTTCAACTGCATCCGGGAAGTTGGGAAGGCGTCAAAAGGGATTTTTTAAGCCAGAACTGACTTCTCTCACTTTCTTTCTTTGCACTACTAACTTCCAAAGTTTTTGTGACTGTTAGAAGTTTCATCAAGTGTTTGTGTTTGTGTTTGCTACTTGGTTATGCTTCATAATTGCTTTAGGTTCACAAAAATACTATAACCTGTAGCCCTGTAATTCTATCCATTTCAGGAGTTCGAAACCTTTTTGTGTGTAGGAACTAACACAAATTGAACATTTCTAAAGTAAAAAGAAGTTGGGTTTATAGAAAATATAGTGCCATTTGGTTGAGTTATGACTACTTTTGAAGATGGTTTTATTTTAACTAATGACTGCATTCGCTAGTTTGTTTTTTTTGGTACTTCATTCACTGTCCATTTTCTCTCCATGGTCGAGTTTCTCTCCCCTCATTTATTTTTTATAACATTCATTAGATCACTCTTTAAATTATTCAATTACAAAGGAAAGACTACTTCAATTCATTGTCAGTAAACTATTTTTTTCCTTTAGTAACAATTGCTCACATCATATTGTCATTTCTCTATGTATTGTCTATAGACCAGGGTGAATTCTAGTTCTCTTCTAAGATAAAATAATTACCAGCTAATCATTTAGGAAATATTTCAGTTAAATGGCTCTTGGGTTGTCAACTGTACTATTTTTTATCTGTTTTCTGTGTGCGGTTGAAATTCTTCTGATGTACCCCATCTCCTGTGATTCTCTTCTTCAAAATCAAATAGTAGAAGTATTTGTTGGTTCATCTGTTCCACTTGCTTTGTCCCCTGTCCAGGAGTCCAGAAAGTTTTCACCTGCAACACAGTGAAAGCAAACCTTCGTCTATCGAAGAAACACGCTCATGAGAACATTGAGATCAATTTCAACAAGCTTTACTACTAGTTTTGATAAGCTTACGAGTTTTGGAAACATAAGATTTGATCGAGAAGTTAGGAGTGAAGGTTTGGGATATCTTGAAAAGATTGCATTTTTTTCTTGTATTTGAGGCCCCTTGAAATTTTGTTGTTTGTTGCCCTCTTGTTTTCTGGAGCTTCTTTCCTACAATGACTAAGATTGTTGGTACTCTGGGTCCTAACTCTCGATCTGTACAAGTTATTTCTGCTTGTTTGACGGCTGGAATGTCTGGTATGGTTGGCTTCCTTAGCAACTCTCCCTTTGTTTCTAGTGGGTAATGCGTTTGAGTTATAGTAGGGAACTTTTGTTTTTCTATTCTTTCTTTGGTGGCTGCTAGTTGCTCGGTTCGACATTTCATGGGGCAGTCCAGATTACCATCAAGAGACTTTGGAAAATTTGAAGATTGCTGTTAAAAGCACCAAGAAACTTTGTGCTGTACGTTCGTTTTTAATACGTTTGAGTGTATATTTTATCATTTGAACTTTCCTACCATTTTCTTAGTAACTTGGCCAAAGAATAAGTAAGCTAATTCTTCTGCTTTTTTCAGGTTATGCTGGATACAGCGGGTCCTGAGGTGTTGGTTACTAAAGTGAGAAATCTATCTCTCTTCAGGAAGATGGGTTTGTTGTTCTAACACCCAATCAAGAACTAGAGGCATCTTCGGAGCTGCTACCTACAAATTATGGTGGACTTTCAAAGGTTGGGAAATACTATAAAACTTCATACTACTTGTGGAACATTTTAGATCATGCCAAATCCACAGCCAAACAAGGAAAATCTGTAGCCCTGAAGTTCAGGAAAAACTTTCTATGAATTAAAGTTTTATTTTAAATTGATATTGAAAAGCCCCTCGTATATTTCTAGAAGTGGCTATTTGTTGTTATACAAGAAAATAAAACAAACAAATAAATAAATCCAAACTATTATTTAATCTAAAATCATCAACTAAACTAATGTTAACTGACTATACTAATGATTTAATTACTTGTCTGCATCGTGTCTGTTGCCTGATGCAATTTACTCAGTCAAAATTGCATCGTATCAAGACACGTGAGTTTTTCATTAAAATTGATAAGAGGTTAAGATTTTAATATTCTTTAGTTTATGCAAATAAGATATTTTGCAAAGTCAAAGTTTATAAAAGATGGGCGTTCTTTCATTCACTGCATTGATTATACAATAATCTCCTTCATATTACTAAACTTGAAATTTTCTTATATAGGTCGTTAAGAAAGGAGACACCCTTTTTCTTGGTCAGTACCTCTTTACTGGAAGTGAAACATCTGTCTGGTTGGAGGTAATGGGGCATATTGGTAGGGATCTTCAATTTTTTTTCACTGTAAGGAATCGTGGTAAATGATGTTATGCTGAGTTATGTCTGTCGGGGATTTATCAGGTTTTCGAAGTGAAAGGAGATGATGTTGGTTGTGTGGTAAAGAACTCTGCCACGTTGGTTGGTACAATGTACACTTTGCATGCTGCTGAAATTCACATTGATCTTCCAACACTTACTGAGAAAGGCAAAGAGTAACATTCTTCAGTTTCCTGTTTGTTATGTCTGTTAAGTCTCTTTGATTGCTTGCAATTAGCTTATACAACCTTAACATGATTGGTAGCTCATAGTATTTTTTGATGCTGACTGGTGACTTTAGATCATAGCTACGTGGGGAGTAAAAAACAAGATTGACTTCCTCTCTCTGTCACATGCTAGACATGTGGAAGATGTTTGACAAGTATTATTTCCTTGCATTGAGTCTTCACTTTAAACAAATGATCAATTGTGGGTGATTTGACTATGTTGATTATTACAATAGAGGATATTGATTGCTAAATTAATTTTTATGTAGGCTCGACAATTTCTTTCTAAGCTAGGTGACCTTAACCAAACTCAAATATTTGCAAAGATTGAAAGTGTAGAGGTAAGTCATTGTCAGCTCACTTTTTACTCGTATTCTTTACCATGGTTACGTTAGGATTGATTATTTCTGTTTTCTACATTGTTACAGGTGTTTTTGTTTCAGAAAACTGCCCTTTATAGATGTAATATGGCTGGAAAGCCTGCTGTTTTAACTCGTGTGGTAGACAGCATGACTAACAACTTGAGACCTACACGTGCAGTAGCTACTGATGTTGCCAATGCTGTACTTGATGGTGAGTTATTCAATTTTTAAATCTCTATTGTTTAAAGACCGAAGATGTAGGGATTTTTTAAGTCATGGTTCTTTTTAATGATGCTGAAGATTGGGTTGAACTTTTTAAAATTTATCTATTTTATGTTCAATTGTATCATTCTATTTAGTATGAATCAGGGTTCTTAGTTCCATTCTTGACAGGGGATATGATTGTATGGCGTTTTTTTATAACCTGTCTTCTCATGAGTTTGCAGGAAGTGATGCAATTCTTCTTGGGGCTGAGACATTGTGTGGATTACATCCAGTAGAAACCGTTTCAACCGTTAGTAGAATATGTGCTGAGGTAATTTGTGTGTGTATGAGATAGAAACACAGCTTTTAAACCCTAAGCTTTATGTATATAAGGTATTTCCATTCCTTTATTCATTACTATTTCATTAATGAATTAATGAAGGCACAACTTTAATTTGGAGAAAACAAACATTTAACGTGAGGTCATGAGTGCACTAAAAGGACTACAAAAGGGCTTGTTAAAGGGAAGTAGAAGGCAAACCATACATGAAATAAAACACAAACCCTTGCCGGGAAAGGATAAAGTTACAAGTAAAACAAAGGAATATCTCTAAAAGTGGAGGTTGTTATCGCCAAAGAAAATGCTGCATGCTTTCCGTTATAACCACCATTTAGTGCTGCATTCTTTTGTTACTCTGTTAAGTCTCTTTAGGTAAGTTTCTCCCCCATAAAAAGAACTAAAAAGTTTCTTTGATACTATTTAAAGTAAAAAGAGAAGGGAAAACATTCTAAAATCCTGTGCACTAAGGGGCTCGTGAGTTAGAAAAAGTTCACCAAACTGAAGGTGGAACCTTGACAGAGGCCATAGTTTCTCCCCATCCCCTTTCTTTTAATAAGAACTCTTGCATTTCTCCCTATCCGCATTTGTCCCATTATTACCTTGATTCTTTTAACATCGAAACAGAAAATTTTGTTGATCAAATGAAAATATTACCAAGGAACTAAGGAAGTTACGGAAAACTTCCAATCGAGGAATTCAAACATCCCAAAGATAGAAACAAATAATTACAATAAAATCTCAACACTCCACCCAAATGATAAAATAAAAACCATAAGCTACCCAGTTCTGAAGTTTCAAGGAGAGTAAATTCGAAGAAAGCTAACCTACCTAAGAACCATGAATTCATTTCCAAAGGAACATCTACAGTAAAGGCTATTTGCTGCGTTCAATCTCTTCCTTTATATGCCTACAAGCCATGTACGTTAATCGCCACTTTTGTGCTTGTTTTAGCATTTTCATCTTTTTTAGATGGATTACACTACACTCAAAGATTGATTTAGTTAGAATTTTGTAAGAGAAAAGGAGGGAAGATACAAAATGTCATAAACATGAAAAAGCATAAGATCGATCCGTATTCTGGTTTCAAAAAGCATCTTTGACCATGCTTCAAGGTGAGATAATACATAATGTCATAACCATGCTTATTCTTAATACTAGTTTATTCTTTCGTCTTTTATGTTACGATTCAGTTAGTAAAAAGGTTCATTGTCATCCTTTTGTTATGAAGTTCTTATCTTAGTGAATAGCTTTTCATGAAAATTTGGTATCAACTTCTTACCTGCTCAATTGATTATATGGCTTCCTCGGTCCAGTTTGGTTGAAGGGATTTGTTTGTTTTGCAGAACTGGGTTCAATAAATCTGGTTACAGCTTCGGAAAGGTCATTGGCATGTAGTTCAGCAACAAAGGTAGTGGTACTGGTGGGTTCAATGGCTTTTCTTTAGAATTCCTGAATGTTACAATATTATTGGTCACGAGGCCTTTCTCGTTTTTCATGCGTACATGCTCATTTATCTTGAAAACCTTTGTTGTTGTTGTTCAAACTTGGTTGAAGCTGTTGAAGACCTCGGTCAGTCTTCACTTAAACATATTTTGGACAACTTTGTGTGGATAATTGCAATTGTCTCTCTTCCTGGACGAATTTTAGCTGCTTTACGAAGGGGAAGGCAGGTTAGCCCTCTCGCTCCATTGTTTTGATTGTCATCTGTGCTTGTTCAACAATGATATATTTTGTTTGTGTTTCTTTTCTCTGTTTTTTTTTATCATAGGTTTGTCTTTGTAAAAATGTATAAAGCAAAATATTCTTCAAATTACGGTAGTAGATTTTTTATAGACAACATCTCCATGACTTTCATTTGCTTGCAAGTAGGAGTTAACTGAGTACTCAAACTACTTTTAACTAGTATGTTAGCCATAAATGGGTATGATATTAAAGTGAAAAGTTTGGAACGATCAAATAATTACGGTGTTTCTAGTAAAGATTAGAGAATCCTTAATATTCTAAAGCATAAAATATTACGTTAGTAAGTTGTTTAAGACTTCGAAAGGCAGAATCGTACCATTGAGTTCTTTGCAGCCTGAGTTATTGAACAATAGTTTGAACTATTTTACTTATTACCATCAGTTGGACAAGTGTAGTTCAACATTTTGTTTGTTCGTTTTCATTCATCAGTCTCAAGTGACTATAGTTGAAAGTTCATATGTTGACAATTGAATTTTCTCTGGTTACATGGGTTGGTGGCTTCTGGGAACTTTACTAGTTTCAATCAATAAGTGATTGTAGTATTGGAGTATCACATAGGCTACTTGGACAGATTATACAAAATTTGTTTTTCCCTTTTTATACTTGATAATGGTTGATTTCATGCAGTTGCAACAATTTTTTCAATTTCTGGAAATCGAGTTTGATAATGTTTTGCTGGAAAGAAAGGAGCTCCAAAAACAATTCCAGGCTGCTTTGAAGGAGCATAAGATGATGGAATTGATGTTGGACGAACTTGAAATGATACATGAAAAGGCAACCAACAAGATTGCACTCTTAGAAAGTGAGGTAATGGCCTATCTATCTCCTGTACTAAATGTTATAAATTACATTATGGATGGGTGGAACTGAGAGCAAGTATCATAGTTTTCGATAAGAAGGGGAAGGAGAAATTTATGCAATTGTTATAGGAGAGATTGAACTTTGACATAAAATTTAGTTTACTTTTTATGAGTGAAAGTTTGCATGTTGGTTAAGAACCGAGTGATGAACTCCATACAGTGCATTAACAAATAAAATCTCTCTCTTTCTCTCTCTTTAAATAGGTACGTATATATAGACACACAATCTGCAGTCGTATGTGAATCTATCTTTTTAGACGTTAGAATGTTCAGCAACACTGTTTGCAGTTCTGTTGACCCATCATCCATGTGTAACCTCTCTTAGAATGATATTAACACATAATAGTGTTGACGAGTTCTATAAAACATTAGATATAATTGATTCCGAGAAATGAATCCTTTTTTCCACTTAGGTGAGAAATGGCTTAAAAATACCAGAAAAGCTTCGCTTGTGTTGAATTGAACCATTATATGCACATTTGTAGGAAGGTCAGCATTCAATTGGTTATTGTAGAGGTTGAAAGGGCTCTTTCGCAGCTCTTGTAGTGTTAGAAGATGCTTAAATTTTTATCTCTACGAATAATTTTTTCATTTTAGCTTTGATCTTATATTTGAATTTGATTTTCTTTTTCGTAATTTCAAGATTGTTCTTTGAGGACAGACAAGAGCATAATGCTGTTGAGTGAAGGAATAGCGTGATAAGAGGTAAGTGTTTTCTTTAACTGAAAATAAAGGAGTTGTTGTTCTTTTTTTTAAGTTATGTAAGATGATAGTATCTAAAGCTTAACTATTCTCACTGCATTAAATCATAAATTGACTTTGATGCTAGACTTCATTGCATTTTAGATAGAATTTAACTAGGTGATGGTTGGAAATAGCACCAAAAGTTCTTCATCTTTCACAGATAATACAATTTTTTTTACTAGACTATCTTCGAATTGGATATATCAAGAACAAACAAATAAAACTTTTAAAAGTGACATGTTTGAACGATCAATTTTGTTCTTGGAGTAAGGACAATGCCAAAATAAGGACAAAGATAAGACTTATGGAATAAAAGTTTTGATGATTTTCAGGTGAGGTTTGAAAGTATTGAGAAACCTTTGGTCATTGATCCGGGTAAAATTAGGGAAAATACAGTTGCATGATCGATCTTTAACAATGCAATGCTTTCTTTCAAGTTTTGTAGAACTTTTTTTTTTTTAAATTTTAGTTTAACCTCTTTAATGAAATTTGATAGAAGTTCTTGTTTCTTTCCGTAGGAATAAAGGGAAATGAGAGTATAACCAAACTTGGAACCTTTGCAAGCAAGGGGAGGTTTTCTGTTCCCTTTCTTTTATTTTCCATCCTTAGAATCTTGCTTAACCATGCTTTGAGGACAACTTTAAGTGGGGGTGGGGTTGTAGCTTTGCATGTCCATGTTCTTTGGGAAATTTTCATTTTGCCAAAATGCCTAAATTTTAAAAATTTTCAAATTCTCTATCTTAGAATAAATATCATGCCTACTTTGCTTTTTAGCTTAGAAAACACGTTTTGCCTAACCCTTAAGCATGGAGCTTGGGTTTGTGATTGTTTTATTATTTAAATATCTTAATATGTTGAAAAATGCGTACTTAATAGCTTAGAAATGAGTAAAATGTATGCAATCTATTATATGAATATTGTGAACACTGTACATACTTAATAATATGTGCTGCTGAAAACATGACCTAACTAAAACCAGACTGCCTAGCCCTTAGAGTACAGCCAGTTAGGTCAAGTAGAATGCGTGAGTTCCCTCAGTATCAGAAACTTGTGTGGGGAACTCTTCACTCTTGGCCTAACCAAAACCAGACCTGCTTGCCCTTAGAGTTCAGCCGGTAGGTCAAGTAGAATGCGTGGGCTCCCTCAGTATCAGAAATTGTGTGGGGAACTCTTTGCTTTTGGCCTAACCAAACCAGACCTGCCTAGCCTTAGAGTCCAGCGGTTAGGTCGAGTAAAATGCGTTGGGCTCCCTCAGTATCAGAACTTGTGTGGGGAACTCTTTCTTTTGGCCTAACAAACCCAAAACCCAAGGGCCTGCCTAGCCTTTAGGGTCCACGACCGGTTAGGTCGAGGTAAAATGCGTTGGGCTCTCAGTATCAGAACTGTGTGGGGAACACTTCGCTTTTGGCCTAACCAAAACCAGACCTGCCTAGCCTTAGAGTCCAGCCGGTTAGGTCGAGTAAAATGCGTTGGGCTCCCTCAGTATCAGAACTTGTGTGGGGAACACTTCGCTTTTGGCCTAACCAAAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAATTAGCTTACTTATTCTTTGGCCAAGTTACTAAGAAAATGGTAGGAAAGTTCAAATGATAAAATATACACTCAAACGTATTAAAAACGAACGTACAGCACAAAGTTTCTTGGTGCTTTTAACAGCAATCTTCAAATTTTCCAAAGTCTCTTGATGGTAATCTGGACTGCCCCATGAAATGTCGAACCGAGCAACTAGCAGCCACCAAAGAAAGAATAGAAAAACAAAAGTTCCTACTATAACTCAAACGCATTACCCACTAGAAACAAAGGAGAGTTGCTAAGGAAGCCAACCATACCAGACATTCCAGCCGTCAAACAAGCAGAAATAACTTGTACAGATCGAGAGTTAGGACCCAGAGTACCAACAATCTTAGTCATTGTAGGAAAGAAGCTCCAGAAAACAAGAGGGCAACAAACAACAAAATTTCAAGGGGCCTCAAATACAAGAAAAAAATGCAATCTTTTCAAGATATCCCAAACCTTCACTCCTAACTTCTCGATCAAATCTTATGTTTCCAAAACTCGTAAGCTTATCAAAACTAGTAGTAAAGCTTGTTGAAATTGATCTCAATGTTCTCATGAGCGGTTTCTTCGATAGACGAAGGTTTGCTTTCACTGTGTTGCAGGTGAAAACTTTCTGGACTCCTGGACAGGGGACAAAGCAAGTGGAACAGATGAACCAACAAATACTTCTACTATTTGATTTTGAAGAAGAGAATCACAGGAGATGGGGTACATCAGAAGAATTTCAACCGCACACAGAAAACAGATAAAAAATAGTACAGTTGACAACCCAAGAGCCATTTAACTGAAATTTCCTAAATGATTAGCTGGTAATTATTTTATCTTAGAAGAGAACTAGAATTCACCCTGGTCTATAGACAATACATAGAGAAATGACAATATGATGTGAGCAATTGTTACTAAAGGAAAAAAATAGTTTACTGACAATGAATTGAAGTAGTCTTTCCTTTGTAATTGAATAATTTAAAGAGTGATCTAATGAATGTTATAAAAAATAAATGAGGGGAGAGAAACTCGACCATGGAGAGAAAATGGACAGTGAATGAAGTACCAAAAAAAAACAAACTAGCGAATGCAGTCATTAGTTAAAATAAAACCATCTTCAAAAGTAGTCATACTCAACCAAATGGCACTATATTTTCTATAAACCCAACTTCTTTTTACTTTAGAAATGTTCAATTTGTGTTAGTTCCTACACACAAAAAGGTTTCGAACTCCTGAAATGGATAGAATTACAGGGCTACAGGTTATAGTATTTTGTGAACCTAAAGCAATTATGAAGCATAACCAAGTAGCAAACACAAACACAAACACTTGATGAAACTTCTAACAGTCACAAAAACTTTGGAAGTTAGTAGTGCAAAGAAAGAAAGTGAGAGAAGTCAGTTCTGGCTTAAAAATCCCTTTTGACGCCTTCCCAACTTCCCGGATGCAGTTGAACCCCTTGAAAATGACCATAACTGACTCAAATTACAGTAAAAAATCAAATTGAGTGAACACATGGCAAGTGGGTTCAATTCCTTTTACCACAGAAAACTATAATACAAGTTCTTTCACTTCTTAGAACCCAAATTCCACAACCACAGTTATGCAAGAAGAAGAACAACAACAAAAATGCCTCTTAAACTCCAACGAGAAATACAGAACTTGAATTCCAAAGGGAAACTTACCTCCGTACTTCCATGGATAGGGGTGCACTTAGGTGCGCATATTAG ATGGAGACCGTTCTTGAGAATTCCATCCCTGGCTTCTTTCCTACAATGACTAAGATTGTTGGTACTCTGGGTCCTAACTCTCGATCTGTACAAGTTATTTCTGCTTGTTTGACGGCTGGAATGTCTGTTGCTCGGTTCGACATTTCATGGGGCAGTCCAGATTACCATCAAGAGACTTTGGAAAATTTGAAGATTGCTGTTAAAAGCACCAAGAAACTTTGTGCTAAATCTATCTCTCTTCAGGAAGATGGGTTTGTTGTTCTAACACCCAATCAAGAACTAGAGGCATCTTCGGAGCTGCTACCTACAAATTATGGTGGACTTTCAAAGGTCGTTAAGAAAGGAGACACCCTTTTTCTTGGTCAGTACCTCTTTACTGGAAGTGAAACATCTGTCTGGTTGGAGGTTTTCGAAGTGAAAGGAGATGATGTTGGTTGTGTGGTAAAGAACTCTGCCACGTTGGTTGGTACAATGTACACTTTGCATGCTGCTGAAATTCACATTGATCTTCCAACACTTACTGAGAAAGCTACGTGGGGAGTAAAAAACAAGATTGACTTCCTCTCTCTGTCACATGCTAGACATGTGGAAGATGCTCGACAATTTCTTTCTAAGCTAGGTGACCTTAACCAAACTCAAATATTTGCAAAGATTGAAAGTGTAGAGGTGTTTTTGTTTCAGAAAACTGCCCTTTATAGATGTAATATGGCTGGAAAGCCTGCTGTTTTAACTCGTGTGGTAGACAGCATGACTAACAACTTGAGACCTACACGTGCAGTAGCTACTGATGTTGCCAATGCTGTACTTGATGGAAGTGATGCAATTCTTCTTGGGGCTGAGACATTGTGTGGATTACATCCAGTAGAAACCGTTTCAACCGTTAGTAGAATATGTGCTGAGATAATACATAATGTCATAACCATGCTTATTCTTAATACTAGTTTATTCTTTCGTCTTTTATGTTACGATTCAGTTAGTAAAAAGGTGAGAAATGGCTTAAAAATACCAGAAAAGCTTCGCTTGTACCTGCCTAGCCTTAGAGTCCAGCCGGTTAGGTCGAGTAAAATGCGTTGGGCTCCCTCAGTATCAGAACTTGTGGCAACAAACAACAAAATTTCAAGGGGCCTCAAATACAAGAAAAAAATAAATACAGAACTTGAATTCCAAAGGGAAACTTACCTCCGTACTTCCATGGATAGGGGTGCACTTAGGTGCGCATATTAG ATGGAGACCGTTCTTGAGAATTCCATCCCTGGCTTCTTTCCTACAATGACTAAGATTGTTGGTACTCTGGGTCCTAACTCTCGATCTGTACAAGTTATTTCTGCTTGTTTGACGGCTGGAATGTCTGTTGCTCGGTTCGACATTTCATGGGGCAGTCCAGATTACCATCAAGAGACTTTGGAAAATTTGAAGATTGCTGTTAAAAGCACCAAGAAACTTTGTGCTAAATCTATCTCTCTTCAGGAAGATGGGTTTGTTGTTCTAACACCCAATCAAGAACTAGAGGCATCTTCGGAGCTGCTACCTACAAATTATGGTGGACTTTCAAAGGTCGTTAAGAAAGGAGACACCCTTTTTCTTGGTCAGTACCTCTTTACTGGAAGTGAAACATCTGTCTGGTTGGAGGTTTTCGAAGTGAAAGGAGATGATGTTGGTTGTGTGGTAAAGAACTCTGCCACGTTGGTTGGTACAATGTACACTTTGCATGCTGCTGAAATTCACATTGATCTTCCAACACTTACTGAGAAAGCTACGTGGGGAGTAAAAAACAAGATTGACTTCCTCTCTCTGTCACATGCTAGACATGTGGAAGATGCTCGACAATTTCTTTCTAAGCTAGGTGACCTTAACCAAACTCAAATATTTGCAAAGATTGAAAGTGTAGAGGTGTTTTTGTTTCAGAAAACTGCCCTTTATAGATGTAATATGGCTGGAAAGCCTGCTGTTTTAACTCGTGTGGTAGACAGCATGACTAACAACTTGAGACCTACACGTGCAGTAGCTACTGATGTTGCCAATGCTGTACTTGATGGAAGTGATGCAATTCTTCTTGGGGCTGAGACATTGTGTGGATTACATCCAGTAGAAACCGTTTCAACCGTTAGTAGAATATGTGCTGAGATAATACATAATGTCATAACCATGCTTATTCTTAATACTAGTTTATTCTTTCGTCTTTTATGTTACGATTCAGTTAGTAAAAAGGTGAGAAATGGCTTAAAAATACCAGAAAAGCTTCGCTTGTACCTGCCTAGCCTTAGAGTCCAGCCGGTTAGGTCGAGTAAAATGCGTTGGGCTCCCTCAGTATCAGAACTTGTGGCAACAAACAACAAAATTTCAAGGGGCCTCAAATACAAGAAAAAAATAAATACAGAACTTGAATTCCAAAGGGAAACTTACCTCCGTACTTCCATGGATAGGGGTGCACTTAGGTGCGCATATTAG METVLENSIPGFFPTMTKIVGTLGPNSRSVQVISACLTAGMSVARFDISWGSPDYHQETLENLKIAVKSTKKLCAKSISLQEDGFVVLTPNQELEASSELLPTNYGGLSKVVKKGDTLFLGQYLFTGSETSVWLEVFEVKGDDVGCVVKNSATLVGTMYTLHAAEIHIDLPTLTEKATWGVKNKIDFLSLSHARHVEDARQFLSKLGDLNQTQIFAKIESVEVFLFQKTALYRCNMAGKPAVLTRVVDSMTNNLRPTRAVATDVANAVLDGSDAILLGAETLCGLHPVETVSTVSRICAEIIHNVITMLILNTSLFFRLLCYDSVSKKVRNGLKIPEKLRLYLPSLRVQPVRSSKMRWAPSVSELVATNNKISRGLKYKKKINTELEFQRETYLRTSMDRGALRCAY Homology
BLAST of IVF0009135 vs. ExPASy Swiss-Prot
Match: B8BM17 (Pyruvate kinase 2, cytosolic OS=Oryza sativa subsp. indica OX=39946 GN=OsI_37456 PE=3 SV=1) HSP 1 Score: 424.9 bits (1091), Expect = 1.1e-117 Identity = 230/374 (61.50%), Postives = 273/374 (72.99%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy Swiss-Prot
Match: Q2QXR8 (Pyruvate kinase 2, cytosolic OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g0145700 PE=2 SV=1) HSP 1 Score: 424.9 bits (1091), Expect = 1.1e-117 Identity = 230/374 (61.50%), Postives = 273/374 (72.99%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy Swiss-Prot
Match: B8BJ39 (Pyruvate kinase 1, cytosolic OS=Oryza sativa subsp. indica OX=39946 GN=OsI_35105 PE=3 SV=1) HSP 1 Score: 419.5 bits (1077), Expect = 4.4e-116 Identity = 230/374 (61.50%), Postives = 270/374 (72.19%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy Swiss-Prot
Match: Q2RAK2 (Pyruvate kinase 1, cytosolic OS=Oryza sativa subsp. japonica OX=39947 GN=Os11g0148500 PE=1 SV=1) HSP 1 Score: 419.5 bits (1077), Expect = 4.4e-116 Identity = 230/374 (61.50%), Postives = 270/374 (72.19%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy Swiss-Prot
Match: Q42806 (Pyruvate kinase, cytosolic isozyme OS=Glycine max OX=3847 PE=2 SV=1) HSP 1 Score: 181.8 bits (460), Expect = 1.6e-44 Identity = 125/341 (36.66%), Postives = 175/341 (51.32%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy TrEMBL
Match: A0A5D3C7Q7 (Pyruvate kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold202G00900 PE=3 SV=1) HSP 1 Score: 511.1 bits (1315), Expect = 4.1e-141 Identity = 287/374 (76.74%), Postives = 294/374 (78.61%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy TrEMBL
Match: A0A1S3CH64 (Pyruvate kinase OS=Cucumis melo OX=3656 GN=LOC103500862 PE=3 SV=1) HSP 1 Score: 510.8 bits (1314), Expect = 5.4e-141 Identity = 286/374 (76.47%), Postives = 294/374 (78.61%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy TrEMBL
Match: A0A5A7SGM8 (Pyruvate kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold541G001520 PE=3 SV=1) HSP 1 Score: 509.6 bits (1311), Expect = 1.2e-140 Identity = 286/374 (76.47%), Postives = 293/374 (78.34%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy TrEMBL
Match: A0A0A0KKD4 (Pyruvate kinase OS=Cucumis sativus OX=3659 GN=Csa_6G449820 PE=3 SV=1) HSP 1 Score: 509.6 bits (1311), Expect = 1.2e-140 Identity = 285/374 (76.20%), Postives = 294/374 (78.61%), Query Frame = 0
BLAST of IVF0009135 vs. ExPASy TrEMBL
Match: A0A6J1CQ44 (Pyruvate kinase OS=Momordica charantia OX=3673 GN=LOC111013706 PE=3 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 5.6e-130 Identity = 264/374 (70.59%), Postives = 283/374 (75.67%), Query Frame = 0
BLAST of IVF0009135 vs. NCBI nr
Match: TYK07370.1 (pyruvate kinase 2, cytosolic-like [Cucumis melo var. makuwa]) HSP 1 Score: 511 bits (1316), Expect = 6.81e-176 Identity = 284/356 (79.78%), Postives = 287/356 (80.62%), Query Frame = 0
BLAST of IVF0009135 vs. NCBI nr
Match: XP_008462524.1 (PREDICTED: pyruvate kinase 2, cytosolic-like [Cucumis melo]) HSP 1 Score: 511 bits (1315), Expect = 9.66e-176 Identity = 283/356 (79.49%), Postives = 287/356 (80.62%), Query Frame = 0
BLAST of IVF0009135 vs. NCBI nr
Match: KAA0025298.1 (pyruvate kinase 2, cytosolic-like [Cucumis melo var. makuwa]) HSP 1 Score: 509 bits (1312), Expect = 2.75e-175 Identity = 283/356 (79.49%), Postives = 286/356 (80.34%), Query Frame = 0
BLAST of IVF0009135 vs. NCBI nr
Match: XP_011657683.1 (pyruvate kinase 2, cytosolic [Cucumis sativus] >KGN48226.1 hypothetical protein Csa_003160 [Cucumis sativus]) HSP 1 Score: 509 bits (1312), Expect = 2.75e-175 Identity = 282/356 (79.21%), Postives = 287/356 (80.62%), Query Frame = 0
BLAST of IVF0009135 vs. NCBI nr
Match: XP_038883564.1 (pyruvate kinase 2, cytosolic-like [Benincasa hispida]) HSP 1 Score: 496 bits (1276), Expect = 7.89e-170 Identity = 274/356 (76.97%), Postives = 283/356 (79.49%), Query Frame = 0
BLAST of IVF0009135 vs. TAIR 10
Match: AT3G52990.1 (Pyruvate kinase family protein ) HSP 1 Score: 432.2 bits (1110), Expect = 4.7e-121 Identity = 234/374 (62.57%), Postives = 273/374 (72.99%), Query Frame = 0
BLAST of IVF0009135 vs. TAIR 10
Match: AT2G36580.1 (Pyruvate kinase family protein ) HSP 1 Score: 423.3 bits (1087), Expect = 2.2e-118 Identity = 233/374 (62.30%), Postives = 269/374 (71.93%), Query Frame = 0
BLAST of IVF0009135 vs. TAIR 10
Match: AT3G52990.2 (Pyruvate kinase family protein ) HSP 1 Score: 382.5 bits (981), Expect = 4.3e-106 Identity = 209/334 (62.57%), Postives = 243/334 (72.75%), Query Frame = 0
BLAST of IVF0009135 vs. TAIR 10
Match: AT3G25960.1 (Pyruvate kinase family protein ) HSP 1 Score: 179.5 bits (454), Expect = 5.5e-45 Identity = 127/347 (36.60%), Postives = 181/347 (52.16%), Query Frame = 0
BLAST of IVF0009135 vs. TAIR 10
Match: AT3G55650.1 (Pyruvate kinase family protein ) HSP 1 Score: 174.1 bits (440), Expect = 2.3e-43 Identity = 124/345 (35.94%), Postives = 177/345 (51.30%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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