IVF0007945 (gene) Melon (IVF77) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATTGTGAGAGTAAGTTGAAAACTAATGGATATGAAATATAAATAAATGAGGCCGCATCGTGATACACGTCGTTTATAAGCCCATAACTTCCTAACCCAAGCGCCGGGAGGTGAAGCCGGAAAAAAAAAATTCCGCCACCTCCGCCATCACCGAGATCGGTTGCGTATTACAATCTCTCTGAATCAAAGCCGAAGTTTCATGGCTGGCCAGTCGCGTAAGTGGCTGGTTCTAGTGGCGACGATATGGATTCAGGCATTCACCGGCACGAACTTCGATTTCTCGGCCTACTCTTCCAAACTGAAATCGGTATTAGGCATTTCTCAGGTTCAGCTTAATTACCTCGCCACCGCTTCCGATCTCGGCAAAGTCTTCGGCTGGTCCTCTGGATTAGCTCTGCTTCATCTCCCGTTGCCGGTGGTAATGTTCATCGCCGCTTTTTTAGGATTCATCGGCTACGGCTTCCAATGGCTCCTAATCGCTGATTTCATCTCCTTGCCCTATTTCCTGGTAATCTCTGTTTTCTTGTCTTCTTTCAATTAGTTAAATCTTTAACTGATTTTCTTTCTATTCTGTTTGTTTCTCACAAAACAATTGGAATTCCGTTCATTGATTGGCGATGAACGATATGAATTTATTTTAATTTATTATTCTTAATTAAATATATTATATTAATTCAAGAATGACGCATGAAATACAAACATTGTCCTTCGATTCCTTTCTTCCAGAAAATATGCTTTTGGGGATTATAAAAACCTCCTCCGTCTTAGAAAATTCTAGAACTTCTTTGAATCTTTTTTTCCTGTTCAAATTTATTTAGTACTTTATCAACTATTCTTTTTTAGAAAAAAGAAAAAAAAAATAGTCAATTCTTACGACTAGAAATATCTTTATACTGTTCAAAATATTTTTATAGTGTTTTTTCCCTTCAAATTAAGTTTGAATCTTATAGAAAACGAAAATCCAGGCCTTAATTTTATCAAGAAAAAAGAATTTTGCTTCTAATATACAATTAAAACGAACTCTCTTATTTGTATTTCAAGAAAAATCAAATATCTACTTATTATTATTCTTAAGAATTTTTGTAGCCTCCTTTTAATCTAATTTAGAATAAAAATATATAGACTATTATTATTTAGTTAAAATAATATTGAGTTCTACATACTTTTGAAATTTATTTAATTTCAATCCTTATGCTTTTTAATATTCCATTTTAGTTCTTATATCTTTAATTTTTATTAAAATATTATTTTTCACAATATGTGAATATATTTTCTAAATTTATAGTAAAAATGTTAATAAGATATAAAAATATCGAAAAATCTATTTTAAACTACTCCATTTAAAATTTATTAAAAGTTATATAACTGAAAATTGAATAAATCCTAAAATAGAGGCATAAAATGATATTTTAACATCACTTTTTGTGAAAAATATTTGGAGGTTTTGTAACATTGATATTCGTTTGGCTACATGGAACACATGAGCCCATGTGGGGTTCTATGTGATTTAGGTAAAAAGTTCTGAAATAGCATAATTATACCAATATTATAATATCAATCAATTAATCTTCTTAGCTAATATAGATTCTTTGTTTCCAAATAAGTACAAACTTTTAATATAAAATTCACGTGGGTCACTTGTTGTTTAATTTTAGATTAAATATTATTTTTGTCATGACATTTTTCGATTTTGTCGGCTGTATTTCTTTAAATAATTAATTTTTAATCTTGTTATTAATTTCTCTAAATAATAAATTAACTCTAAATATGATAGTTTTGAAAATTAAATCAAGAAAGTGAGACTATAACGAAAAAGATTAAAGAAAAAAAAGAGAGTTGGATGAATTTTATTATATTTTATAAATAATTTTAATATTTTATTATTTTTATCCAACGTCTTTAAATAAAATTAGAATAAAAATTAATTGACATAGAGTACCTTAGAAAAATCCTTGAGAAATCTATCAATAACTAAACATTTTGTCAATTTTTAATTTTCGATCATTTCTCACAAATCTATCCAATCCTATATAGTATATTTAAGTTTTTCTTGGTTACAAAATACTTTCAATCTTTTTTTCTATTCAGGACCATTTCTCTGTTCGTACGTTAAATATTGTTAAGCATTTATTTTTAGCTCATTTGTCTTTTCCTTCCCTTTCTTAAAATTGAATATGAAACTGTGGAAGGGACAAATTATATGAATGTAAATGCGTCTACAAGTTGTATTATCTTGAAAATAAAGGGTTTTCCAATAATTTTTTTTAAAATAAAGATATTTTGTTATACATTGTGATAGATATAGTTTTCATTTCCCAAGTTTATGAACAAAATGTAAAAATAATTATGAGGAAAAAACACTAGAAATTATGGAATTTTGACCTATCTCTTTGTGGTGCCAATGTGATTAAAATGAAGAAGACAAACCCTTTTATTTTTTTTAAATAAAAAAAAAACGTAAGATTTATTTAATATTATTTAATGTGGACAATGACAATTACCTTTTACTTTTATTATTTCTTTTCGTTGTCAACCTCTTTAAAGTCTAAATCTAACACAAAAATAACTAAACATAACCAAAATTAACCTTTCCTATTACAAAAAAAGAACCCACCAAAACGGAATAAATATATAACACCTTGTGAAACCATCGTGAATGGCTTCAAATTCAATATTATGACCTAACTTAAAAGACATTTTACATTTAAATTAGAGGAATAAAAAAGTTGAAATATGAAAATCTTCCTCCTTCAAAATTTTCTATTATTAAATTCTCATATTTTTCTATGTTTAAGTTATTATTATTATTATTATTGATGTGTAGGACCACCCGAATAATAATAATATATTTCTTTAAGAGTACCTAGATTATAAGTTTGATAGTTCAAGTTTCATGTTTATGCCTTAGCGAAATAGATCAATCCATATTAGTGTGTTATTGATCACATTGATAGTGGTTCAAATCCTCCAAATTTCAATTATACTAAAAAATACTTTTACGTTTATGCGTCTAAAAGAGACGTAAACGTTCAAAAATTAAATTTATTGAGTTTATTGAGTTTAAATAATGCTTTAGGCTTGACTCGAGTATGATGTATATTAAACAAAGTTCTATTAATTTTCATTTAGAGTTAATTATTGGTAAGAACAATATATTTTTTTTCTCTAAAGTTTAACAAATTTGATGTTATTAAATATTTAAAAGTTTAAGGTATTTATTGGGGAGAGTTTGAAACTTCAATTTAATAAAAAGAAAAAAAAACTCGATTAAAATATATGAAGTGTGAACTGATTTGGGACTTTTGGGATTTGGTTTCAATTGATTAGGTAACAGAGTGAATAAGATGACCCACCTTGATGCAATTTGCTGAACTATATACATAAATAAATAAAATTCATTTTGTACCTAACCTTTTTATTTATTTATTTTTGTTTGAAAAGGAAATCTGTTTTTTTTTTTTTTTTTTTAATTTTTTAATAGTAATGAAAGCTATGAGAATCAGAGATATTACTTTTCATTTAGGAAGGAACTAACCATAGCCATAACCAACCACGTCACAAATTAAAATAAATTTAAAAATCCACGTGGCAGTCATCACGAATTTCAAAAAGCCACGTGGCAGTATGCCGATTAGACTACTTCGTTATTATTTTTTGTCCGTGTAAACCATTTTCAACTGCTATCTTGTATTTTCTTTTATATATAACTTTTTTTTCCCTTTCTTTTGGGATGTAATTGTTCAAATTTAGTCAATTTAATACCAGTTTCTATTGCTAGTTTGAAATAAATTTTCTTAATAACTTTTAATTTTGGGTTGCTTTGGTTTTTTTTTTTTAATGCTTTTTCCAGTTTGGTTCAATTTGGATTGGTCCAACTCAACCCAAAAAAACAATAGATATTAGTAGGGGTGAGCATCGTAAGTCGAAAAATCGAAATGAACCATCGAAATCGACCAAATTGAGGTCGGTTGGGCGGGGGAATGATGTAAACGATCAGGTTTCGATTTTAGTAAATAACAAATCGAATTGAGTTCGATCGGTGGAATGATGAAGGGCGGTCAGTTTTGTAAGCCGGCTGAATTGACCCACAATATTTTAAAAAATAATAAATATAACCTTACATTTTAGGGTTTGTTTTGTTTCCTTCGACCCTTGCTATTGCTGTCTAACTCTTATCTCTCGAGTCTTACTCTTTCGCGCACCTCCCTACGGTAAGCCTTAGTTGTAACAACCTAACTCTTTATACTAAGTCGAAGTCATTACTAATTAAAAATGGTAAATAAATTTGTAAAGTTTTTTTAAAAAAATAGAATAAGACAAAAACCTCAAATTTAAAAAAATAATAATAAATAAACAAGGAAAATGTGAAATAAGTATAAAATAAAGTCCTAACTCGGACCCTATCTAGTTTTAAAGAAATAAAATAACCAATAAAGAATTAACTGAAAATGCAATACTAAAATTTGAATTTTGACATAAGCGGAAGCAAGCGTATCCCTATGGCCCGCCACGATCACTTCTGGTCACTCGCCAACTTGTCCTTGTTCTTACCTCTACCTCTGCCTGAAAAAATGGAAATGGAAAGAGTCAGCATAAAATACTAGCAAGGGACCAACTACTAGTCCCACTAGATACCTGTTAACTTTCTATTAGAGTCCTGAAAAGTGGTACCCCTGAACTGGCACGTCCCCGAACACGTGCAATCTGTGCCCCCGTAGGAACAAACTGGTCTTTGGTGATTTCCAAGGGAATACCTAAGACGATCGGGCTGTGAATGGTCCCGTCGGATCACTCATGTCATGTCTATGTTAATGTCAATGTCAGACTGGTAATCCCGTCAGACAACGCAGTCATAAGTGTGAGCGACCCCGTCGGGTTTCTCCATCATGTTTGTGTCATAATAGTGGTGATCCCGAAGGACACCCATGTGGGTACGACTCTAATAAGAAGCTAACATACATCCTACCCATAGCATGTACACAACATCTCATCAATCACATCCTAACTTATCATATATGTCATAATTACGTCAAATCATGCTATAACATATCAAACCATAACATATTATATCACGTCATTCTCAACCACAAAAACTATGTCATTAGGGAAAAGGCGATAACGTCGACGTACTAATCACACTAACCATAGAGTCAACCGGTAAGCACAATATCAATATTCGTCTCTCTCTCAAAACCTCAAGTTATATACTTAGCTATTAATCGTACGTAACCATATATTCATACATGCGGTCTCTGTAATGTAATTCGGAGGTCTAGTAGGAGAATCTCTTACGTGGAGATTGATCAAGAAGTTCTAGCAATAAAATCACGCTCCCCAAGTAGCGAAAGTCCTAAATGGTTAAGAAATCACAATTTAATAATTTAACCCTCAAAGAATTTAGGTCCACAAATCCACTTGAAGTGACTTACCCAAGATCAAGGCCGACTCGATTTGGACTTAGTTGGATAAATTTCCAGCTCGGCTTCCAATTAACTAGTCAATTTAATCCAACAATTACTTAGTTAGGGTCAAAATAACCTTAGCTGGGTAGATTAAAACCAAAATCAAACCTACCGAGACTTACCGAAAAATATGGGTCAAAATGGGGTTAAAAGAAGCTTGGCAACTCCACTGGCTCGGCTGGCGAGAGGAACTGGCTAGTCGGCTCGGGACTGGTGAAGCGGCTTGGCTGAGACGCGGTGCAACTCGACAGGGGCGCGCGTGGCTTACGCGGGCGTGTGGCTCGGGTACGGTGCAGGCGCGACGCGCATGCGGCTCGACGCGGATGGGTGCGGCGCGGCTCGGGTCGCGGAGAAGAGATGCGGGTCGGGTTGGCTTCACGCAGTATTAGGGTCGCGGGCACGCGGGTCGAGCTTTCGGATTCGAGCGATGGTGGAGACGAAATGCACGGGTCGGGGCAGCGACGCGGAGCGGCTAGACGTGCGATCGACGGCCGTGACAGTGAGGCAACGACCGACGGCTGGCGACGAGGTGCTGACGGAGACGCGGCGGCTCGGCGACGGCTTTCAGGCGGAGGAGACGTGGGTCGGGCTTTGATCTGCAGTGGACGGATGGCTGGAAGCGCGGGTCGACGGGTGTTTCGCTTGGCTGCGCGATCGGCTGGGTAGGCGGCGATTAGGGCTGTGCGATCGGTTGACGGCGGCGACGGAGTGACGGCTAGGGTTTTTTTTTCTTTCCTTTCTCAATGAAAAAGATGGTGGTTTGCACGGGTCTCAATGATCCTTTTAAAGAGAATAATAATAATAATAATAATAATAATAATAATAATAATAATAATAGGCTTATTATTATTCTTCTTTTCTCTTTCTCTAATTTAATCAATTAAATCCACTTAATCTCTTTCTTATTTAAAACCAACAATCTCCATTATAAAAAAATCAAAATCAACCAATCACCTCAATCTTTTTCCCAAATAAATATCACCATTAGATAATGTCTAATCAAATGTTCATAAATCACTTAATTCAAAAACATCCAAAATTAAAATAACTACACTTAAGATAATAAATTAAATTCTAAATCTTGGGGCGTTACATGAGTCTTCCTTTATCATCTGGTATCCTTCCGCCAAGCTTGTCGTTGTTAAAAGTCTGATCACCTTCCCGTTTGCCATCCCTCTTATCTCTTCTTCCCTTGCCGTCTATCGTCGTCAAAAGCTTACCGTCTTCCTTTCGTGTCTGTCATCCCTCCCATCTCTTCTCTTTGTTCACATCTACTGTTTGGTCACCCTCTACCCAGATCTTCCCTTCTTTTGCGTTTCCGCCGGTGTAAGTTATAAAGAAAAGGAAAGGGGAGAGAGAGAGGAAAGGGGAAGAAGAAGGAAAGAAAAAGTATTTAAAAAAAAAATGCAAGCCGGCCAAAACCGACCAATCGACCGAAATTCGGTTCGGCTGGTTTTTTTGGTTCCTTTTGTCACATCATGAAAATATATTCCCGGTATAGATTAAAATTCGCATAATATATACTTTGCTTCAAATCCTAGAATTTACTAGTTAAAGAAGCATTATAACTAGAGTTTGAAGCACGAGCATTTACGTTTCTTCCTAATGAATATTAAGAACAATATTTTTTCCCCCTAGTTTAGAGCACAAACAACTAAAGTAGAAAGTTTTAAATGGAGAAATTGAAAATTTTGGTGAAAATAATGGGTATAAAAATTTAGGTAGGTTCAGTAATCCATTTACATTTTTTGTTTTATGTTTATGAAAATTAGGTTTTGAAAAACAAACGTATTTGATCTTGTTAGTTTTTAAAAGAAAAACTAAAAAAGAAAAAAGGAAAAAGGAAAAGAATGATTTTAAAAAATACATTTTTTTTTCTAAAACAAGAAAACAACATCCATTATCAAACTTACATGATTTTTGTTTTTAATAACAAAACCCTAAACAAAAATAAAATAGAAAATGATAACAAAACTTAAATGATTATCATTCAATTATTTCATTTTTTTTTTTTTGTGATAAAATAATCATTCTGTATTTTGAAATTAGTTATCCTTTAGTTTTTATATTTTCAAATTGTCCAAATTTATTCTCTTATACTTTCAATTAAGATATATATTTTTAATTGTCTAAGGACGAATCAAGCAGATTTCCGTTAAATAACCTGGCATTGACAATTTCAACTATTTATTATGTTATTAATTTAGTTGATTTGAGAAATTAAAAGTGTAACTTGAGAATGGTTGAGTTCTTTAATAAATATTTTATTTTGTTTTCAAAATTCAAATATTACCTTAAGTATTTCATATATGAATGTGGTAGTAGGTTGGTTGTTTGATTATGTTATTTATCAGATAATTTGAAATTGTCACACATTTCAAGTCTTAATTGATTTTGGAGTTTTTGCTCATATTTATAATATAGTGAAATTTAATCGTGGTCAGGTGTTCTTCTTGTGCTTGCTTGCCGGTTGTAGCATTTGTTGGTTCAACACAGTTTGTTTCGTTCTTTGCATTCGAAACTTCTCAGCAAATCGCCCGTTGGCATTATCTCTCACTGTCAGCTTCAATGGCGTCAGTGCCGCTTTCTACACTCTCGCCGCCAACGCCATTAATCCCTCTTCACCTCCCATTTACCTTCTCCTCAACTCTCTCATTCCCCTTCTCACCTCCATCGCCGTCTTCCTCCCCGTCCTCCACCAACCCCCACTTCATTCTCTTTCCCTCTCCTCCGACGCCGTCCACCGAGACTCCCTCATTTTCCTCATCTTGAACTTCCTTGCCATCGTCGTCGGAATCTACCTTCTCCTCTTCGGCTCTGTCACTTCCGCTGATCCCATGATCGCACGCCTCCTCTTCATCGGAGCCATTGTTCTTCTTATCTTGCCTCTTTGTATTCCTGGTATTGTCTATGCTAATGATTGGTTCCATCGAACCGTTAATTCCAGCTTCCATCTCGATGGATCTAACTTCATTCTCGTCCACGACGAAGATCTCGAGTTTCACAAAGAGTTGTTGCTTAGTCTTGAAGCGAATGGAAGCTTCGGCAATGGCGAAACTTCGTTGTTGTCTGAATCTGCTTCGTTAATTGACGGTGAGATTGAATCATCGAAAGGCTGCTTGAGGAAATTGATTGAGTTAGATCAATTAGCGATGCTTGGGGAAGAACATTCGTCGAGTCGATTGGTGCAACGCCTGGATTTTTGGCTGTATTTCATTGCTTACATTTGTGGAGGCACAATCGGACTCGTTTACAGCAACAACATAGGTCAGATTGCGCAATCTCTCGGGTTAAATTCAAGAACCAAAGCGATCGTAACACTCTACTCCTCTTTCTCCTTCTTCGGCCGATTGCTCTCCGCCGTACCGGACTACATTCGAGCGTAAGTAACAATCTAGATTCAACTCAAATTCTCCTATGTATTTCCTCTGCTAATTTGGTATTCTCACACCTCCAGTTTCTATTTTCTCCGCAGGAAATTGTATTTTGCAAGAACAGGATGGCTTTCGATTGCTCTAATTCCAACTCCTATAGCATTCTTCCTGCTATCGGCATCATCGACCGAAATGTCAGTGTACATAGGCACGGCGCTGATCGGTTTAAGCTCCGGATTCATATTCGCAGCGGCTGTTTCCATTACGGCGGAGCTGTTTGGACCAAATAGCTTAGGCGTTAACCACAACATTCTGATCACAAACATCCCGATCGGATCTCTGCTATACGGCATGCTTGCTGCGGTGGTGTACGATTCACAGGGAAGAAGCTCCGACAACGGGGAGGCGATTGTATGCATGGGAAGAAGGTGCTATTTCTTAACATTTGTGTTTTGTGGATGCATTTCTGTTGTGGGATTGGTTTCGAGTGTGTTGTTGTTCTTGAGAACAAGACATGCTTATGATCGCTTTGAAAGTAGTAGGATTTCTAGTAGTACAAATCGATTGTATTGATTTGTGTCTCGCACTCATTCATTTCATACATCATTTTTGTTTTGCTTTCTTTAAATTACATTATGTGGTATCCAACATTAAATCTGGTACCAATACCTTAGTATTAGATGCAGATTAGTTAAGTTATACGAAACTAAAATAAGTTATTTTGCTAACATGAAATAGTCAATGAGTTAGCTATACATACTCAAGGTGGTTCAATTGTAAAAGTTAATATATATACCCA ATTGTGAGAGTAAGTTGAAAACTAATGGATATGAAATATAAATAAATGAGGCCGCATCGTGATACACGTCGTTTATAAGCCCATAACTTCCTAACCCAAGCGCCGGGAGGTGAAGCCGGAAAAAAAAAATTCCGCCACCTCCGCCATCACCGAGATCGGTTGCGTATTACAATCTCTCTGAATCAAAGCCGAAGTTTCATGGCTGGCCAGTCGCGTAAGTGGCTGGTTCTAGTGGCGACGATATGGATTCAGGCATTCACCGGCACGAACTTCGATTTCTCGGCCTACTCTTCCAAACTGAAATCGGTATTAGGCATTTCTCAGGTTCAGCTTAATTACCTCGCCACCGCTTCCGATCTCGGCAAAGTCTTCGGCTGGTCCTCTGGATTAGCTCTGCTTCATCTCCCGTTGCCGGTGGTAATGTTCATCGCCGCTTTTTTAGGATTCATCGGCTACGGCTTCCAATGGCTCCTAATCGCTGATTTCATCTCCTTGCCCTATTTCCTGGTGTTCTTCTTGTGCTTGCTTGCCGGTTGTAGCATTTGTTGGTTCAACACAGTTTGTTTCGTTCTTTGCATTCGAAACTTCTCAGCAAATCGCCCGTTGGCATTATCTCTCACTGTCAGCTTCAATGGCGTCAGTGCCGCTTTCTACACTCTCGCCGCCAACGCCATTAATCCCTCTTCACCTCCCATTTACCTTCTCCTCAACTCTCTCATTCCCCTTCTCACCTCCATCGCCGTCTTCCTCCCCGTCCTCCACCAACCCCCACTTCATTCTCTTTCCCTCTCCTCCGACGCCGTCCACCGAGACTCCCTCATTTTCCTCATCTTGAACTTCCTTGCCATCGTCGTCGGAATCTACCTTCTCCTCTTCGGCTCTGTCACTTCCGCTGATCCCATGATCGCACGCCTCCTCTTCATCGGAGCCATTGTTCTTCTTATCTTGCCTCTTTGTATTCCTGGTATTGTCTATGCTAATGATTGGTTCCATCGAACCGTTAATTCCAGCTTCCATCTCGATGGATCTAACTTCATTCTCGTCCACGACGAAGATCTCGAGTTTCACAAAGAGTTGTTGCTTAGTCTTGAAGCGAATGGAAGCTTCGGCAATGGCGAAACTTCGTTGTTGTCTGAATCTGCTTCGTTAATTGACGGTGAGATTGAATCATCGAAAGGCTGCTTGAGGAAATTGATTGAGTTAGATCAATTAGCGATGCTTGGGGAAGAACATTCGTCGAGTCGATTGGTGCAACGCCTGGATTTTTGGCTGTATTTCATTGCTTACATTTGTGGAGGCACAATCGGACTCGTTTACAGCAACAACATAGGTCAGATTGCGCAATCTCTCGGGTTAAATTCAAGAACCAAAGCGATCGTAACACTCTACTCCTCTTTCTCCTTCTTCGGCCGATTGCTCTCCGCCGTACCGGACTACATTCGAGCGAAATTGTATTTTGCAAGAACAGGATGGCTTTCGATTGCTCTAATTCCAACTCCTATAGCATTCTTCCTGCTATCGGCATCATCGACCGAAATGTCAGTGTACATAGGCACGGCGCTGATCGGTTTAAGCTCCGGATTCATATTCGCAGCGGCTGTTTCCATTACGGCGGAGCTGTTTGGACCAAATAGCTTAGGCGTTAACCACAACATTCTGATCACAAACATCCCGATCGGATCTCTGCTATACGGCATGCTTGCTGCGGTGGTGTACGATTCACAGGGAAGAAGCTCCGACAACGGGGAGGCGATTGTATGCATGGGAAGAAGGTGCTATTTCTTAACATTTGTGTTTTGTGGATGCATTTCTGTTGTGGGATTGGTTTCGAGTGTGTTGTTGTTCTTGAGAACAAGACATGCTTATGATCGCTTTGAAAGTAGTAGGATTTCTAGTAGTACAAATCGATTGTATTGATTTGTGTCTCGCACTCATTCATTTCATACATCATTTTTGTTTTGCTTTCTTTAAATTACATTATGTGGTATCCAACATTAAATCTGGTACCAATACCTTAGTATTAGATGCAGATTAGTTAAGTTATACGAAACTAAAATAAGTTATTTTGCTAACATGAAATAGTCAATGAGTTAGCTATACATACTCAAGGTGGTTCAATTGTAAAAGTTAATATATATACCCA ATGGCTGGCCAGTCGCGTAAGTGGCTGGTTCTAGTGGCGACGATATGGATTCAGGCATTCACCGGCACGAACTTCGATTTCTCGGCCTACTCTTCCAAACTGAAATCGGTATTAGGCATTTCTCAGGTTCAGCTTAATTACCTCGCCACCGCTTCCGATCTCGGCAAAGTCTTCGGCTGGTCCTCTGGATTAGCTCTGCTTCATCTCCCGTTGCCGGTGGTAATGTTCATCGCCGCTTTTTTAGGATTCATCGGCTACGGCTTCCAATGGCTCCTAATCGCTGATTTCATCTCCTTGCCCTATTTCCTGGTGTTCTTCTTGTGCTTGCTTGCCGGTTGTAGCATTTGTTGGTTCAACACAGTTTGTTTCGTTCTTTGCATTCGAAACTTCTCAGCAAATCGCCCGTTGGCATTATCTCTCACTGTCAGCTTCAATGGCGTCAGTGCCGCTTTCTACACTCTCGCCGCCAACGCCATTAATCCCTCTTCACCTCCCATTTACCTTCTCCTCAACTCTCTCATTCCCCTTCTCACCTCCATCGCCGTCTTCCTCCCCGTCCTCCACCAACCCCCACTTCATTCTCTTTCCCTCTCCTCCGACGCCGTCCACCGAGACTCCCTCATTTTCCTCATCTTGAACTTCCTTGCCATCGTCGTCGGAATCTACCTTCTCCTCTTCGGCTCTGTCACTTCCGCTGATCCCATGATCGCACGCCTCCTCTTCATCGGAGCCATTGTTCTTCTTATCTTGCCTCTTTGTATTCCTGGTATTGTCTATGCTAATGATTGGTTCCATCGAACCGTTAATTCCAGCTTCCATCTCGATGGATCTAACTTCATTCTCGTCCACGACGAAGATCTCGAGTTTCACAAAGAGTTGTTGCTTAGTCTTGAAGCGAATGGAAGCTTCGGCAATGGCGAAACTTCGTTGTTGTCTGAATCTGCTTCGTTAATTGACGGTGAGATTGAATCATCGAAAGGCTGCTTGAGGAAATTGATTGAGTTAGATCAATTAGCGATGCTTGGGGAAGAACATTCGTCGAGTCGATTGGTGCAACGCCTGGATTTTTGGCTGTATTTCATTGCTTACATTTGTGGAGGCACAATCGGACTCGTTTACAGCAACAACATAGGTCAGATTGCGCAATCTCTCGGGTTAAATTCAAGAACCAAAGCGATCGTAACACTCTACTCCTCTTTCTCCTTCTTCGGCCGATTGCTCTCCGCCGTACCGGACTACATTCGAGCGAAATTGTATTTTGCAAGAACAGGATGGCTTTCGATTGCTCTAATTCCAACTCCTATAGCATTCTTCCTGCTATCGGCATCATCGACCGAAATGTCAGTGTACATAGGCACGGCGCTGATCGGTTTAAGCTCCGGATTCATATTCGCAGCGGCTGTTTCCATTACGGCGGAGCTGTTTGGACCAAATAGCTTAGGCGTTAACCACAACATTCTGATCACAAACATCCCGATCGGATCTCTGCTATACGGCATGCTTGCTGCGGTGGTGTACGATTCACAGGGAAGAAGCTCCGACAACGGGGAGGCGATTGTATGCATGGGAAGAAGGTGCTATTTCTTAACATTTGTGTTTTGTGGATGCATTTCTGTTGTGGGATTGGTTTCGAGTGTGTTGTTGTTCTTGAGAACAAGACATGCTTATGATCGCTTTGAAAGTAGTAGGATTTCTAGTAGTACAAATCGATTGTATTGA MAGQSRKWLVLVATIWIQAFTGTNFDFSAYSSKLKSVLGISQVQLNYLATASDLGKVFGWSSGLALLHLPLPVVMFIAAFLGFIGYGFQWLLIADFISLPYFLVFFLCLLAGCSICWFNTVCFVLCIRNFSANRPLALSLTVSFNGVSAAFYTLAANAINPSSPPIYLLLNSLIPLLTSIAVFLPVLHQPPLHSLSLSSDAVHRDSLIFLILNFLAIVVGIYLLLFGSVTSADPMIARLLFIGAIVLLILPLCIPGIVYANDWFHRTVNSSFHLDGSNFILVHDEDLEFHKELLLSLEANGSFGNGETSLLSESASLIDGEIESSKGCLRKLIELDQLAMLGEEHSSSRLVQRLDFWLYFIAYICGGTIGLVYSNNIGQIAQSLGLNSRTKAIVTLYSSFSFFGRLLSAVPDYIRAKLYFARTGWLSIALIPTPIAFFLLSASSTEMSVYIGTALIGLSSGFIFAAAVSITAELFGPNSLGVNHNILITNIPIGSLLYGMLAAVVYDSQGRSSDNGEAIVCMGRRCYFLTFVFCGCISVVGLVSSVLLFLRTRHAYDRFESSRISSSTNRLY Homology
BLAST of IVF0007945 vs. ExPASy Swiss-Prot
Match: F4I9E1 (Protein NUCLEAR FUSION DEFECTIVE 4 OS=Arabidopsis thaliana OX=3702 GN=NFD4 PE=3 SV=1) HSP 1 Score: 591.3 bits (1523), Expect = 1.2e-167 Identity = 327/573 (57.07%), Postives = 414/573 (72.25%), Query Frame = 0
BLAST of IVF0007945 vs. ExPASy Swiss-Prot
Match: Q6CGU8 (Probable transporter MCH1 OS=Yarrowia lipolytica (strain CLIB 122 / E 150) OX=284591 GN=MCH1 PE=3 SV=1) HSP 1 Score: 56.6 bits (135), Expect = 1.1e-06 Identity = 48/189 (25.40%), Postives = 87/189 (46.03%), Query Frame = 0
BLAST of IVF0007945 vs. ExPASy TrEMBL
Match: A0A1S3BTD8 (protein NUCLEAR FUSION DEFECTIVE 4 OS=Cucumis melo OX=3656 GN=LOC103493060 PE=4 SV=1) HSP 1 Score: 1091.3 bits (2821), Expect = 0.0e+00 Identity = 572/572 (100.00%), Postives = 572/572 (100.00%), Query Frame = 0
BLAST of IVF0007945 vs. ExPASy TrEMBL
Match: A0A0A0L001 (Nodulin-like domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G055450 PE=4 SV=1) HSP 1 Score: 1057.7 bits (2734), Expect = 1.7e-305 Identity = 551/572 (96.33%), Postives = 561/572 (98.08%), Query Frame = 0
BLAST of IVF0007945 vs. ExPASy TrEMBL
Match: A0A6J1ETH8 (protein NUCLEAR FUSION DEFECTIVE 4-like OS=Cucurbita moschata OX=3662 GN=LOC111437588 PE=4 SV=1) HSP 1 Score: 1009.2 bits (2608), Expect = 6.8e-291 Identity = 529/572 (92.48%), Postives = 549/572 (95.98%), Query Frame = 0
BLAST of IVF0007945 vs. ExPASy TrEMBL
Match: A0A6J1JBB1 (protein NUCLEAR FUSION DEFECTIVE 4-like OS=Cucurbita maxima OX=3661 GN=LOC111483444 PE=4 SV=1) HSP 1 Score: 1007.7 bits (2604), Expect = 2.0e-290 Identity = 529/572 (92.48%), Postives = 549/572 (95.98%), Query Frame = 0
BLAST of IVF0007945 vs. ExPASy TrEMBL
Match: A0A6J1C4X1 (protein NUCLEAR FUSION DEFECTIVE 4 OS=Momordica charantia OX=3673 GN=LOC111008508 PE=4 SV=1) HSP 1 Score: 967.2 bits (2499), Expect = 3.0e-278 Identity = 501/572 (87.59%), Postives = 538/572 (94.06%), Query Frame = 0
BLAST of IVF0007945 vs. NCBI nr
Match: XP_008451908.1 (PREDICTED: protein NUCLEAR FUSION DEFECTIVE 4 [Cucumis melo]) HSP 1 Score: 1095 bits (2832), Expect = 0.0 Identity = 572/572 (100.00%), Postives = 572/572 (100.00%), Query Frame = 0
BLAST of IVF0007945 vs. NCBI nr
Match: XP_011653229.1 (protein NUCLEAR FUSION DEFECTIVE 4 isoform X1 [Cucumis sativus]) HSP 1 Score: 1062 bits (2746), Expect = 0.0 Identity = 552/572 (96.50%), Postives = 561/572 (98.08%), Query Frame = 0
BLAST of IVF0007945 vs. NCBI nr
Match: XP_004149001.1 (protein NUCLEAR FUSION DEFECTIVE 4 isoform X2 [Cucumis sativus] >KGN53451.1 hypothetical protein Csa_014771 [Cucumis sativus]) HSP 1 Score: 1061 bits (2745), Expect = 0.0 Identity = 551/572 (96.33%), Postives = 561/572 (98.08%), Query Frame = 0
BLAST of IVF0007945 vs. NCBI nr
Match: XP_038897746.1 (protein NUCLEAR FUSION DEFECTIVE 4 [Benincasa hispida]) HSP 1 Score: 1040 bits (2688), Expect = 0.0 Identity = 541/573 (94.42%), Postives = 557/573 (97.21%), Query Frame = 0
BLAST of IVF0007945 vs. NCBI nr
Match: XP_023552459.1 (protein NUCLEAR FUSION DEFECTIVE 4-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1016 bits (2628), Expect = 0.0 Identity = 532/572 (93.01%), Postives = 550/572 (96.15%), Query Frame = 0
BLAST of IVF0007945 vs. TAIR 10
Match: AT4G19450.1 (Major facilitator superfamily protein ) HSP 1 Score: 727.6 bits (1877), Expect = 7.6e-210 Identity = 389/574 (67.77%), Postives = 460/574 (80.14%), Query Frame = 0
BLAST of IVF0007945 vs. TAIR 10
Match: AT5G45275.1 (Major facilitator superfamily protein ) HSP 1 Score: 710.7 bits (1833), Expect = 9.6e-205 Identity = 382/572 (66.78%), Postives = 450/572 (78.67%), Query Frame = 0
BLAST of IVF0007945 vs. TAIR 10
Match: AT1G31470.1 (Major facilitator superfamily protein ) HSP 1 Score: 591.3 bits (1523), Expect = 8.5e-169 Identity = 327/573 (57.07%), Postives = 414/573 (72.25%), Query Frame = 0
BLAST of IVF0007945 vs. TAIR 10
Match: AT3G01630.1 (Major facilitator superfamily protein ) HSP 1 Score: 523.5 bits (1347), Expect = 2.2e-148 Identity = 302/572 (52.80%), Postives = 384/572 (67.13%), Query Frame = 0
BLAST of IVF0007945 vs. TAIR 10
Match: AT2G30300.1 (Major facilitator superfamily protein ) HSP 1 Score: 279.6 bits (714), Expect = 5.5e-75 Identity = 196/558 (35.13%), Postives = 302/558 (54.12%), 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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