IVF0009492 (gene) Melon (IVF77) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GAATTTTCCATAATTCAGAAAAAAACACAATTTCCCTCAAAATCTGAAGGGCCTTATAAATATATCCTCTTTCCTCCGGTCGACACCGTCGATTCATCTCTTCCCTTCCCGTCTGCCGCAACCCTAATCGTCGCCAGCGGCGTTTTCAGAGGCTACGTTTACGGGTATTTCGAAGCTTTCTTCCATTAGTTTCGTGTTATTTTTCTGTAGTTATATCAATTTTACCATCCGTGTCGTTCTTATAATCATGGGTAGTTAGTCTCTCTTCTGCTATTTCATTTGAATTTTCTTAATTTTCTCGAGTTTTGATCTTCGATTTTTTCTTTCTTTTGGTTCTTTTTCAAAAGAAAATTTCATTTATTGAATTGTTGTTCTTATTACTGATATGAAATGGCTGTTGGAATCTTTGTTATTTGTCTGCTGCAGCGATATGTTGTCGAGGGATGATTTAATGATGTCAAACAAATATGTTTTATCTTGATGGCTATCGTGATTTAACTTTTGGTTTTATCACGTTAAAAAGATCTATTCTCACAATGGCTACCCTCTTTCCATCTTCCTTTCATTTTCCTTGAAAGCATTTTATTCCCTTTAGCAGCGCTGCATTTGCAATAACTTCATCTGAATCCTACCCTGTACTACATGAATTGGTCCTCTGAAAGTTTCCTGGCCAGTAGTCATCTTTTAAGCGTTCTGTATACATTTATTCATCCTTTTTATTTACTGATGTGATTTCCCTTAAAATCTAGCTTGCTAAAGTAAATGTTCTTGGTGACTGAAGGCGGTTGTGGGGTTATCTTTTTTTTTTTATTCATCAAGTTTTGGGGCAGTCACTGCTCAAATATGCGAAAATACTTACTCCAAGTATGTACTTCCAATGGTGATCTTCAAAGAACTTTTAGGTGATCTTTTTGGGTGTTTACTGTTTAGTATTAAACTATTGAGTCTTTTGACTGTTTAGATAGAGGACTATATTTATATAAAATTTATGCGCTCTATAGACATATTTTGCATATATCTATCTATTTATTGCGCCTTGCTCTAGTTAGGTGACACATTTTTGTTGCCACCTGCTGAAGACGCACCTCGTGCTTTGAAACACTACTTTATGATGGTTTCCAGCAAACATCATTTCTAAAATTGTTTATCTTCATCAAGTAGGAAGAGAAGAGGCTGAAAAATAAGAATATTAGTGGCAAGCGAAGAGGAGAAGAATAAAAAGAACAAAAGACAAGAGAGTGAAGGAGAAAAGATGAGAGAAAATGATGGGTAATGGTCTACCCTCACCTAAAAAACAATCGGTAGAAGTAGAAATGAAATATCTGTGTTGTAGATCTTATGATTAATAGGGGTTGTATCACATCATTGCTTTTGTTATTTATTCTAACTTTTTCATGAAAAGGATGTAAGATATGAATGAATGGTGGGCAGGCGTTGTTTGTATTTTAAACTAAGGAGTCTAATTAAAAATCTAAATAAGGTCTACTTGTGAAGAAAAGTTCAAATACTTGGCTCTTTTTATTTGGGTGAAATACACTTTTAGTTCTTTAGTTTGAGGATAAGTTTCTACTAGTGCTTAAGTTTCGAGACGAATTGTTTAGTCCTTAATTCTCTCCTTTTCAAAGGACCAGTGGTTGACTAATCAAAGGAATGATTTGGCAGTTAAGTTGATTTTTTATATATGAAATAGAAAATAGAACACACCAAAAGGAAAGGGAATTAAAGAAAAAGATGGTCCCTAACTCCTTTCATGGTCAAAGGAGGTAAGAATGTTCATTTATCTTCTTCCTCAGATCGGAGTTGGATTTTCTGTTTTTGCAAGGGTATGCATCACCAAATTACATTTTCTACCAATATGCTTGAAGGTGATATCCATGAAATTTGTTGCAAGCCTTGACTCACACCTATTGCTCAAACAAATGGATTTCTTTGAAGTCTCCATCTCTCCATTAACGTCGCACCAATGAAGACTACCGACTCGACCCAAATGGGTTGGTTAATAACATCATTGTTGGTAAAACTTTCAAGCCTTCAATAACAACTTTAATTTCCAAAAGGTCATTAACTTTCCATTAATATTCATTCATTAATCTCCCCTTTGTTCAACTTGGGAGCTTTTACAAAGTACTCCACTTTCTATCCAATGTGCGTTTCAAATCATTAAGTAGTTCAATTTAGTTATGAGCTTCTATTAGAAAGTGATAATTGCTGTCATTAGTAGATAACCAAATTTCTTCATCACTAGATAAAAGCATAAATGTGAATTTACTACGTAAATCGTGAATGTAGAGAATAAATTATTTCTACTCAATCTATTTTGGTTTCCTTCACGAGTTCAAGAATATCAATCTATTGTGAATTTGTACATGTTACAAGATCTGGGTTTCCAAGTCTTGAAACAAAATGTTTCAATTCAACATTCAAACAAGGAAAAAACCAAATGAATTAGGTCATAGAAATTGAGTACTTGATGGATTAACGAAAGGTGATATTCAAAAGTACAAGAAATTTGAGCTATGCGAGACACGCCTAAATGTCAAGTACTTAAAGAAAATAATTGGAAGGATTGACTAACCAATGGAACGAGAGGAGAGTGAAAAGTACCTTGAGGTGCAAGGAGAAGGAGGCAACAGAGATGTCATGGCTCGTTTTGGAGGTGGCGGCGGCTTCAATGTTAAAAGTGTTCAACCCAACATTGATGCCCTCTAATGGCATAATCATTTCCACGGAAAAAGAAAGGGAAAAGCAAGGTAGTCTACACATAACATAGAATAAGATCTGATTAGCGCAAGTTGATTGCCAGCTCATGGGACCTTTCAGAACCATATTACAGTGGTTAGGGAGTAAGTTGTCAAATGTTGGAAGTTGGGGACTACATAGATATCTATCTTGAGGGACTAATAGAAACTTATCCTCCAACTTACAAGACAAAAAATGTATTTTACTTATTATCTTAGGATCTAACATTGGTTTAGCTTCACGTTTTGACTATAAGACTTCTGTAATATAGCTTAGAGTAATGTGATCCATGTTTAGAGATTAATCATGTGTCGATGTTCCCCTCGATTGAATATCTTGTTGCATGATGGAGGGGCTAAAACAATGCATGATGTCCTTTTTGGCATTGTTTTGGTGTGACATGAGGTGTTTGAAATATCTATTCTAGGGTAGAGAACATATCAAGCTTGATGTGTTTCGCTCCTGGCGATCTTTTGGTGTGAATTGGCGATGCTTAATATATATCTAAGATAATTTAGATCTTTTAAATACTTAGAGGTTTCACACCATGGTCTTCAAAATGCTTTGGAGTTGCTTTTGCCATTAGCTTTCCATTTGCTAAGTTGAAAAAAAAGATGATGCAACCTTTTTTAAAATTGATTTTATACTACTTCAAAGTTCGATTGCCAAGGCCCAAAAGCTTAATGTTACTTTTTAAGGTGGAGCAAAGCTAATTAAAATAACATGTGTACACTCTCCCCTTTCTTTTTTGCTCTCTCCTACTTCCATGCCTAGCTACTCTACCTCATCCCTTTAGTTGACCTTCCCTTTTCTTGCTTCTTCTAAACTTGAAACGACTGAGCACAGGAAGTTGTTATCTAGCATTTGCTGGTCGTACTGGTTTGAGGTTGTTGCTTGGTCTTTGCTTCTAATTTGGTTCATCACTCTTCTAATTGTCTCGTTTTTGGCTACTGGATTTAGTTTTTCATGCTTGAGCGGTGATAGAATGTGGAGACATAGAACAATATGGGAGGAAGGGAAGATATGAACAAGGTGGCTACTAAAAAGCTCTTAGTGTTGCTATTTGTCATTGTTCGTGCTCTAGCTTTTCTAAGTTGCTATTCAATCTTGCTTTTGCTTGATTGTTTGCTAAATGCTCATTCGTTGCTCATGTTGCTTGTTGTTCTCCAATATTTCTTCAATATGTTTGAAAAGGGGATGAGAGGTCTAGTTTGTTGTCCTTTAGAGGTAGGAAGAGTAGAGAATGATTAGTAAGCTGAAGGGATGAGGAGCGACGAGGAAGGTTATCCAATGGAAATCTAACAATAATTATCTTTAGCACATAAATTTTATTGTGATCTACAATCGTCTTAAAATGCCTTGTCACCTTTTCGTTAAATTAGCTAGCACAAAAAAGTTATCATCACATTAATTTGAAGCATTTTAGAAATCTCACGGGTTTTGCTATAATTTTTGAAGATCTAGAACAAGTTCATCATAAATAAATTTGAATCAAGTTCATTTGTGAAACCTCATGGGTTAATAATGTATCCCCAAGCTCTTTTTCTAAAGATTTTTTCTTGTAAATATGCAACCGTTTTGATTGTTTAAGCTATGGCAGTCATCAATGACGAAGAGGAGAGGGAAAGCGTTGAAGGGTAAAGAACGCTTGAATCATTCAAAAACGGTGCTAATAACCTTATTAATAAGAAGAAGGCAAGGAAGATGAGCAGAGCTTCCACTCTAAAAGTTGCCCATACTGCTTCAAGAGAAGATCTTGTTAATGGTCCAACTTGTGCTTCAGTTTCAACTTCAATCCCTCCTGTTGATGATCGGGAGAAGCACGAGAAAGTAGAGGGGAACGAAGGCACCTCTGGATTCATTTTTATGTGCAATGGAAAAACGAAGCCGGAATGTTATCAATATCGTGTTTTTGGCTTACCAAAAGGGAAAATTGAAGTTGTAGAGAATATTAATCCTGACACGAAGCTATTTTTGTTTGACACTGACTTAAAGCTTCTTTATGGAATCTACCAAGCTACCGACAATGGTGCATTGGATTTGGAACCAACGGCTTTCAATGGGCAATTTCAAGCGCAGGTAAGAAAGACTACCCTTATTTAGATTTAAAATAAGATGGGTAGTTTTTTATAAAACTGAGATTTATGCAACCATTCATGCTTCTTTTCTTTATTGAATATCGAAAAACTTGAGTGTATAACTCGATGTGTGCAAAATATGCTAACTTTTGTCTTCAGCAAGGATGGGGAGGTTTGAAAACTCAAGTTTACAACTTGATATGTTATGTTATGGTGGAAACCCTCGTTGTTTAGTGGCAAGGGTTCCTTGACTAGTTCAAACATCTCACTTGAGAGTTTCGAACCAAGCATATCATTGGAACTATTTAGTTATCATGTTAGGCAATACTTTTTTGCCTTATGAATTAAGCATGTAGTGTATGTTTTGCAAACATTTGTGTTTCATTATGCATTGGAGACACATCAATTGGTTGGGAGCTCTCCTAGATCTACAACCTTGATCAAAATATCCCATAGGGTTTTTTCTCATGTTATCTTGGGCTTCCTTTAGGAGGTCATCTAAGGGCTATGACGTTTTGGGACGTTGTTTATGAGAAAATCCGTAGGTGGCTTGCTACGTGGAAGAAAAGCTTTTTCTTTAAAGCAGAAGGTTGACTCTGATCAGATTCTCGTGTTAAACGACATTCATGTGTACTACTCTTTTCTTTTTTGGGATTCCTAGCTTGGTTTATAAGAGTTCAGAAAAACGTATGAGGAACTTCCTCTGGGAGGGTATTAACGGAGGGAAGGGGTCTTACTTGGTTTACGAGGTGGCGGTGGGAAGGCTTGTGCGTCAGGGTAACAGAGCATTGTTGGCTAATTGGTCGTGGTGCTTTACCCTTGAGCTTGAGGCTTTGTGGTGTAAGATCATTGTGAACAAGCATGGTAACCTTCCTTTTGAATGAGTAGAGAAAGGGGTTAAAGACATACATCGAATTATGTGGAAAGATATTTTGTTGGAGTGTCCTACTTGTTCTCGTTATGGGAGATGGTAAGGACAATTTTGTTGGAAGGATCATTGGGTGGGGGATAGAGCTTTTTCTTTTGTCTTTCCTCATTTGTACTACTTATTTTCTTTGAAAAACCGCATGATCTCTGATTTTCGGGGTTTTGAGAATTTTGTGTCTATCTCCTTTGGGTTCTGTCGTCATCTTTCCAGTAGGGAAACGACGGAGGTTGCTCTCTTCTTCCTTTATTAGATTATTAGATGCGTGCACTTTTAGGGCGGGGTGGAGGGATGCTCATATTTGGGAGTTTGAATCCTAGCGAAGAGTTTTCTTGTAAATCCTTCTTCAGGTTGTTGGATCCCTTTCTTATAGGGGAATCTGTATTTGATGTGATATGGAAAGTTATATTTTTTATTTGGCAAGTCTTGCTTGGTCGTGTGAATACTTTTGATCGGCTTGTTAGGAGAACTTCAATTGTGGGGCCTTTCTTCTGTATTCTCCGTCGGAAGGCTGAGGAAGACCGAATCATCTTCTCTAGGATTGCCAATATTCAAAGACTTTATGGAGCTTCCTCTTGCATGAGTTCGATGTTAGATTTGTTGGGAAGAGAGATGTTTGTGTGATGATTGAGGAGTTCCTCCTCCATTTGCCTTTCGAAGAGAAAGGCCACTTTCTTCGGTGGGTTGAGGTGTGTGCGATTGGTAGGGATATTTTGGGGGAGGATTGATAAGAGTTTTAGAGGTAGGGGCAAGGATTCTGGTGATGTTTAATTTTTTGTGAGATTTCATGTGTCCCTTTGAGCTTTTGTTTTGAAGCTTTTTTTATAACTATTTTCTAGGAAGCATATTACTTAGTTGGCTCCCTTCCTTTAGTTGGGGTATTTTGTTGGGTTTGCTTTTTGTATGTCCTTGTATTTTTTTTTCTTTTTTTTCTTACTTATTTTGTTCCTATAAAAAAAGAATGATTTCTAAAATCAATATACTATAAAATTAAACAAGGCCAAACATGCTTTTTATGAATTAAAAATAGAGATTGAATACACTAGTGTAGGTGACAGGCAAGTGGGGGTTTTATATGAGTTTGCATAAGACCAGATCATGAAATAATAATCACTAGATATAACTCTGTTGACTAGTTAAGTTTCTATTTCATTACACACACAATTAAGAAAAAAAAATGTGTGCGATGTGTCCGTTTCTTACATTTTCTGAAATAACTGTCTCATGTTTTGTTGTGTCATGCGTGTCCATGTCCATACAGCATGTCCGCGAAGTGTGTTTCTTACATTTCCAGAAATTACCATGTCATGTCGTGCTTCCTAGATGAAAGTTATGATGGGGGAAGGTAACCCTATCCAAAGGAAATTACAAAATATTTTCAATGGCCCATAGGAGAAAATAGGCTGTAGTTGTAAAATAAAGGTGACGATTTGCATGAATTTTTTGTGATAGATTCAAAAGGTAGTCTGGAGCATGAATGGATATGTTTTGAGGCATTAATAATGAAAATGAGTGAAAGACAATTCTATCTGGTACTTTCGAAATAATTCCAACTTTATTAACTGGAAACTTGGTGTTTGGATATCCTTTATCTCATACACCTTATTTCTTGTTGATGGAGGATTGAGTAGGCTAATTTAGCCTGTCTAGGCCAGAAGGTCTATGACTTTCTTCCTTCACTAGGGTGCAAAAAATTGAAGTGTGTCTGACTATTGATCCGGGTGGATGTGATTTCCATTGTTTTGTTTGTTGCTATTGGTGGGCAGTGCCTTGAAGAATTGTTAATTTAGTGCTTCAAGTCTTATTCTGGGTTTGTATCACGTGTCTGTTTATGTTCCTTTTGACTTTTAATGGATGGGACGTATGCATCAAAATATCAAATTGATTATCTATCGTCTTGATGTTCTCATTGACTTGTTTTTTTTATTCCTTTGGTTTTTCTTATGTAGGTGAAGTTTAAGATATTCAAGGATTGCTTGCCTCTTCACGAGAGTGCTTTCAAACATGCTATTAAAGACAATTACGAGGGTCATCGAAAATTTAAACAGGAGCTCAATAGTACACAGGTTATGATATCCAAAAACTCTATGTTTTATTGCTTTCGGATCTAGGATTCATATAATTGTCAAGCAAATGTTTATTTTTATGAAGGAGAATGCTTATTATAATTTGCTGAGGCTTTTTCTTATAATGAAGGTGAAAAGCCTAATTTCCTTGTTCCGCCCAATCCCCAAGAAATCGTTTGCTAAGAGATCATATATTCGTCCAAATGTGGGGATCCAGTCATCATTTAAGTCTGCACGATCCAAAGAAGTGGCTAAATCATATCCTCTTGAGAAACCACCGTTTGGAGTGCATTACCTGCCGATCCTTGAGACAGGACCTCAACATGATGTCCGTGGGCATGACGTCCATCTGGGGAAGTACAATCCATTTGAACCAGGATTGCATGTCTCTCAGTCTCATTCACAACTGCAGCCTAGACTTCTAAGAACAGAAGCCCCTACCCGTCATGTAGAACCGTATCATCCCCGTTCAATTGAACCTTATCATCCTGAGCAGGCACATGAAGCATATTTTCCTGAAGGATCTTTTAGACACCCTCCAGAATCGTATGCAAGGTAATCATTTTTATTGTCTCAAATATTTTCTTTGCTTTGCTTTGCTCTGGGTCACTCTGCGCATTTCTTGCTGCAAGTTGTCCAATTGATTCAGAATTCCTGCAGATGACAATAATTAGTGTGTGTATGAAGGTGCGAGACTGAGGGGCAATGATACTATTTCGAGTTTCTCGTCCACTTAATTGTTATCAACCTAAAACCTTGAGTGTTTCAAGTCGTATCATTTACATGCTGTCTGATGGTGTAGTATTTTTGGTTTTGTTAGATAATGTTTTGGTTTCTAATTTCGTTGGGGTACTAAATGTTTAGCAAGTTTAATGATGGTTTTTATTATATTATTTTTTTTAAAACATATTTTAACTTCAGCAAAATATCAATAAATAAATCAAATGAGTCAAAATATTTATAAAGTCTCTCAAAATTTGAGATTCTATCGATGATGGACATCGTTTATAAGTGAATTGTTATATACCAATGGAAGTTTATCCATGTATATCATTGATAGAATCTGAAATTGTGTTATATATTGAATATTTTCTAACAGTTTTTTCATTTACCATAATTTTCTTTAAAAATATATGAGATGTTCTGCAGATTATATAGAAATCGTTTTCTCATAAAATCAGAAAAACATACCAAATGGGTCTTTAAGATGTTTGATTTGGTGGGGTAATATTGAATTCTTTTCTTTTTTATTTAGAACTTTTTAGTGGAGTTTCTTGAGGCGGTCTAGATTTTTATTTAATTAATTATAGTGCACAATGATTATTTATTATTTATGTCGTTGATTACTTTGATCGTGAAACTCCTGTTACTGAATGCTGAATCATGTGGGGTTTGGGAAGACACTTTGCATCTTGTATATGAAAGATGGAATTTGAGATAACTTTGAGCAAGGTGTTTGTGGTCATGCTGCTATATGCAAGTGGGCAACTTTTCTAGCATTTTCTTCCTACCTTAGTTACCATCTATATAAATTGATATGTTTTTCTTTTTTAACTTCAACAGTATTCGCAATACAATTGAGACAAATAATGCAGACCATCCATTTGTGTATGGCCACCAGTATCATATATCACAGTTCATGTTGGATCGAGATGCTGCTCGCACAGATTACATTCCTGGTTACTATAGCCAAAGGCCGTCTTCTACAACTTTGCATACTGCTCCATTGTCACAATCACAGAGCGATGCACCATCTCCATATCGTCTACAGGACAGGTTGACATCTCCACATCTTTCTTATTATCCGACGGTGAGAGGCGGCTTGTTATATGCTAGTGTGCCACAAACGACAGCTTATAGTGATCTTAGATATGGTGAATCAAATTTGCCATCTTATTATTACTCTTCAGCTGCTACGAGGCTAAGCTATAGATGAGTAAGCCAGCCAATGTCAGTGCTTAAATTTAGTTGAAACCAAAAATACGTATGTTCATATTAATTCCATGTAATGAGAAGACTTGTTAAGTATACTCGATATTTTAACATACGTATTTGTGATAACGTGATTGGTTGTCAATTCTGTGTA GAATTTTCCATAATTCAGAAAAAAACACAATTTCCCTCAAAATCTGAAGGGCCTTATAAATATATCCTCTTTCCTCCGGTCGACACCGTCGATTCATCTCTTCCCTTCCCGTCTGCCGCAACCCTAATCGTCGCCAGCGGCGTTTTCAGAGGCTACGTTTACGGTCATCAATGACGAAGAGGAGAGGGAAAGCGTTGAAGGGTAAAGAACGCTTGAATCATTCAAAAACGGTGCTAATAACCTTATTAATAAGAAGAAGGCAAGGAAGATGAGCAGAGCTTCCACTCTAAAAGTTGCCCATACTGCTTCAAGAGAAGATCTTGTTAATGGTCCAACTTGTGCTTCAGTTTCAACTTCAATCCCTCCTGTTGATGATCGGGAGAAGCACGAGAAAGTAGAGGGGAACGAAGGCACCTCTGGATTCATTTTTATGTGCAATGGAAAAACGAAGCCGGAATGTTATCAATATCGTGTTTTTGGCTTACCAAAAGGGAAAATTGAAGTTGTAGAGAATATTAATCCTGACACGAAGCTATTTTTGTTTGACACTGACTTAAAGCTTCTTTATGGAATCTACCAAGCTACCGACAATGGTGCATTGGATTTGGAACCAACGGCTTTCAATGGGCAATTTCAAGCGCAGGTGAAGTTTAAGATATTCAAGGATTGCTTGCCTCTTCACGAGAGTGCTTTCAAACATGCTATTAAAGACAATTACGAGGGTCATCGAAAATTTAAACAGGAGCTCAATAGTACACAGGTGAAAAGCCTAATTTCCTTGTTCCGCCCAATCCCCAAGAAATCGTTTGCTAAGAGATCATATATTCGTCCAAATGTGGGGATCCAGTCATCATTTAAGTCTGCACGATCCAAAGAAGTGGCTAAATCATATCCTCTTGAGAAACCACCGTTTGGAGTGCATTACCTGCCGATCCTTGAGACAGGACCTCAACATGATGTCCGTGGGCATGACGTCCATCTGGGGAAGTACAATCCATTTGAACCAGGATTGCATGTCTCTCAGTCTCATTCACAACTGCAGCCTAGACTTCTAAGAACAGAAGCCCCTACCCGTCATGTAGAACCGTATCATCCCCGTTCAATTGAACCTTATCATCCTGAGCAGGCACATGAAGCATATTTTCCTGAAGGATCTTTTAGACACCCTCCAGAATCGTATGCAAGTATTCGCAATACAATTGAGACAAATAATGCAGACCATCCATTTGTGTATGGCCACCAGTATCATATATCACAGTTCATGTTGGATCGAGATGCTGCTCGCACAGATTACATTCCTGGTTACTATAGCCAAAGGCCGTCTTCTACAACTTTGCATACTGCTCCATTGTCACAATCACAGAGCGATGCACCATCTCCATATCGTCTACAGGACAGGTTGACATCTCCACATCTTTCTTATTATCCGACGGTGAGAGGCGGCTTGTTATATGCTAGTGTGCCACAAACGACAGCTTATAGTGATCTTAGATATGGTGAATCAAATTTGCCATCTTATTATTACTCTTCAGCTGCTACGAGGCTAAGCTATAGATGAGTAAGCCAGCCAATGTCAGTGCTTAAATTTAGTTGAAACCAAAAATACGTATGTTCATATTAATTCCATGTAATGAGAAGACTTGTTAAGTATACTCGATATTTTAACATACGTATTTGTGATAACGTGATTGGTTGTCAATTCTGTGTA ATGAGCAGAGCTTCCACTCTAAAAGTTGCCCATACTGCTTCAAGAGAAGATCTTGTTAATGGTCCAACTTGTGCTTCAGTTTCAACTTCAATCCCTCCTGTTGATGATCGGGAGAAGCACGAGAAAGTAGAGGGGAACGAAGGCACCTCTGGATTCATTTTTATGTGCAATGGAAAAACGAAGCCGGAATGTTATCAATATCGTGTTTTTGGCTTACCAAAAGGGAAAATTGAAGTTGTAGAGAATATTAATCCTGACACGAAGCTATTTTTGTTTGACACTGACTTAAAGCTTCTTTATGGAATCTACCAAGCTACCGACAATGGTGCATTGGATTTGGAACCAACGGCTTTCAATGGGCAATTTCAAGCGCAGGTGAAGTTTAAGATATTCAAGGATTGCTTGCCTCTTCACGAGAGTGCTTTCAAACATGCTATTAAAGACAATTACGAGGGTCATCGAAAATTTAAACAGGAGCTCAATAGTACACAGGTGAAAAGCCTAATTTCCTTGTTCCGCCCAATCCCCAAGAAATCGTTTGCTAAGAGATCATATATTCGTCCAAATGTGGGGATCCAGTCATCATTTAAGTCTGCACGATCCAAAGAAGTGGCTAAATCATATCCTCTTGAGAAACCACCGTTTGGAGTGCATTACCTGCCGATCCTTGAGACAGGACCTCAACATGATGTCCGTGGGCATGACGTCCATCTGGGGAAGTACAATCCATTTGAACCAGGATTGCATGTCTCTCAGTCTCATTCACAACTGCAGCCTAGACTTCTAAGAACAGAAGCCCCTACCCGTCATGTAGAACCGTATCATCCCCGTTCAATTGAACCTTATCATCCTGAGCAGGCACATGAAGCATATTTTCCTGAAGGATCTTTTAGACACCCTCCAGAATCGTATGCAAGTATTCGCAATACAATTGAGACAAATAATGCAGACCATCCATTTGTGTATGGCCACCAGTATCATATATCACAGTTCATGTTGGATCGAGATGCTGCTCGCACAGATTACATTCCTGGTTACTATAGCCAAAGGCCGTCTTCTACAACTTTGCATACTGCTCCATTGTCACAATCACAGAGCGATGCACCATCTCCATATCGTCTACAGGACAGGTTGACATCTCCACATCTTTCTTATTATCCGACGGTGAGAGGCGGCTTGTTATATGCTAGTGTGCCACAAACGACAGCTTATAGTGATCTTAGATATGGTGAATCAAATTTGCCATCTTATTATTACTCTTCAGCTGCTACGAGGCTAAGCTATAGATGA MSRASTLKVAHTASREDLVNGPTCASVSTSIPPVDDREKHEKVEGNEGTSGFIFMCNGKTKPECYQYRVFGLPKGKIEVVENINPDTKLFLFDTDLKLLYGIYQATDNGALDLEPTAFNGQFQAQVKFKIFKDCLPLHESAFKHAIKDNYEGHRKFKQELNSTQVKSLISLFRPIPKKSFAKRSYIRPNVGIQSSFKSARSKEVAKSYPLEKPPFGVHYLPILETGPQHDVRGHDVHLGKYNPFEPGLHVSQSHSQLQPRLLRTEAPTRHVEPYHPRSIEPYHPEQAHEAYFPEGSFRHPPESYASIRNTIETNNADHPFVYGHQYHISQFMLDRDAARTDYIPGYYSQRPSSTTLHTAPLSQSQSDAPSPYRLQDRLTSPHLSYYPTVRGGLLYASVPQTTAYSDLRYGESNLPSYYYSSAATRLSYR Homology
BLAST of IVF0009492 vs. ExPASy Swiss-Prot
Match: P37707 (B2 protein OS=Daucus carota OX=4039 PE=2 SV=1) HSP 1 Score: 84.3 bits (207), Expect = 3.6e-15 Identity = 48/139 (34.53%), Postives = 75/139 (53.96%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy Swiss-Prot
Match: Q5JZR1 (DCD domain-containing protein NRP-A OS=Glycine max OX=3847 GN=NRP-A PE=2 SV=1) HSP 1 Score: 82.8 bits (203), Expect = 1.0e-14 Identity = 48/139 (34.53%), Postives = 75/139 (53.96%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy Swiss-Prot
Match: C6TAQ0 (DCD domain-containing protein NRP-B OS=Glycine max OX=3847 GN=NRP-B PE=2 SV=1) HSP 1 Score: 81.3 bits (199), Expect = 3.0e-14 Identity = 47/139 (33.81%), Postives = 75/139 (53.96%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy TrEMBL
Match: A0A1S4E024 (uncharacterized protein LOC103494640 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103494640 PE=4 SV=1) HSP 1 Score: 880.9 bits (2275), Expect = 2.1e-252 Identity = 429/429 (100.00%), Postives = 429/429 (100.00%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy TrEMBL
Match: A0A1S3BY22 (uncharacterized protein LOC103494640 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103494640 PE=4 SV=1) HSP 1 Score: 880.9 bits (2275), Expect = 2.1e-252 Identity = 429/429 (100.00%), Postives = 429/429 (100.00%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy TrEMBL
Match: A0A1S4E001 (uncharacterized protein LOC103494640 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103494640 PE=4 SV=1) HSP 1 Score: 880.9 bits (2275), Expect = 2.1e-252 Identity = 429/429 (100.00%), Postives = 429/429 (100.00%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy TrEMBL
Match: A0A5A7TQV5 (DCD domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold46G002350 PE=4 SV=1) HSP 1 Score: 875.2 bits (2260), Expect = 1.1e-250 Identity = 427/429 (99.53%), Postives = 427/429 (99.53%), Query Frame = 0
BLAST of IVF0009492 vs. ExPASy TrEMBL
Match: A0A5D3E1A9 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold655G002360 PE=4 SV=1) HSP 1 Score: 814.7 bits (2103), Expect = 1.8e-232 Identity = 429/590 (72.71%), Postives = 429/590 (72.71%), Query Frame = 0
BLAST of IVF0009492 vs. NCBI nr
Match: XP_008454152.1 (PREDICTED: uncharacterized protein LOC103494640 isoform X3 [Cucumis melo] >XP_016901559.1 PREDICTED: uncharacterized protein LOC103494640 isoform X3 [Cucumis melo]) HSP 1 Score: 875 bits (2260), Expect = 0.0 Identity = 429/429 (100.00%), Postives = 429/429 (100.00%), Query Frame = 0
BLAST of IVF0009492 vs. NCBI nr
Match: XP_016901558.1 (PREDICTED: uncharacterized protein LOC103494640 isoform X2 [Cucumis melo]) HSP 1 Score: 875 bits (2260), Expect = 0.0 Identity = 429/429 (100.00%), Postives = 429/429 (100.00%), Query Frame = 0
BLAST of IVF0009492 vs. NCBI nr
Match: XP_008454151.1 (PREDICTED: uncharacterized protein LOC103494640 isoform X1 [Cucumis melo]) HSP 1 Score: 875 bits (2260), Expect = 0.0 Identity = 429/429 (100.00%), Postives = 429/429 (100.00%), Query Frame = 0
BLAST of IVF0009492 vs. NCBI nr
Match: KAA0044496.1 (uncharacterized protein E6C27_scaffold46G002350 [Cucumis melo var. makuwa]) HSP 1 Score: 869 bits (2245), Expect = 0.0 Identity = 427/429 (99.53%), Postives = 427/429 (99.53%), Query Frame = 0
BLAST of IVF0009492 vs. NCBI nr
Match: TYK29624.1 (uncharacterized protein E5676_scaffold655G002360 [Cucumis melo var. makuwa]) HSP 1 Score: 808 bits (2088), Expect = 3.63e-290 Identity = 429/590 (72.71%), Postives = 429/590 (72.71%), Query Frame = 0
BLAST of IVF0009492 vs. TAIR 10
Match: AT5G61910.1 (DCD (Development and Cell Death) domain protein ) HSP 1 Score: 162.2 bits (409), Expect = 9.5e-40 Identity = 75/132 (56.82%), Postives = 102/132 (77.27%), Query Frame = 0
BLAST of IVF0009492 vs. TAIR 10
Match: AT5G61910.2 (DCD (Development and Cell Death) domain protein ) HSP 1 Score: 162.2 bits (409), Expect = 9.5e-40 Identity = 75/132 (56.82%), Postives = 102/132 (77.27%), Query Frame = 0
BLAST of IVF0009492 vs. TAIR 10
Match: AT5G61910.3 (DCD (Development and Cell Death) domain protein ) HSP 1 Score: 162.2 bits (409), Expect = 9.5e-40 Identity = 75/132 (56.82%), Postives = 102/132 (77.27%), Query Frame = 0
BLAST of IVF0009492 vs. TAIR 10
Match: AT5G61910.4 (DCD (Development and Cell Death) domain protein ) HSP 1 Score: 162.2 bits (409), Expect = 9.5e-40 Identity = 75/132 (56.82%), Postives = 102/132 (77.27%), Query Frame = 0
BLAST of IVF0009492 vs. TAIR 10
Match: AT2G32910.1 (DCD (Development and Cell Death) domain protein ) HSP 1 Score: 148.7 bits (374), Expect = 1.1e-35 Identity = 70/142 (49.30%), Postives = 91/142 (64.08%), 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 Position : 0 Zoom : x 1
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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