IVF0002337 (gene) Melon (IVF77) v1
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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.CAAAGAGCAAATTTTTTTTTCTTCAGGTTTTCTGTTCTTCAATTATAATTTGGTATCACCCTTTTTCTCTTTAGTTTTTAACCAGAGAAAAGATATAATTTCTACATTCTCTCTTTTACATAACACTACATTTCTTCTATATTTTCCTTTTTTTTTTCCATATACGTTCTCCAAATATTTGCATGTATGAAAAAACTCCATAGCCTCACACCTGAAAATCCCACTAAATCATATCTCAGGTGAAGCCCATTCTTGTTTTTATTTTCCCTTTGATGATTTAATTTTTCCCAACAAAACAAATTTCCCCTTGCATTTTCTTTGCTTAGTAGTCCACTAGTTTTGGTTTTTTGGGTTCGTTCTTCTTCCTTTTTCCCTTTTGCCTTTTCTCCTGATTTCCCGACATAAAAACATGAGGTGGGAAAGGGTTGAGTTACTTTCAAGACAGGGCCAAGGTGGAGCTCTGGGGGAGATTCCAGGGCCCGGTAAAAGATGGGGACATACTTGTAACGCCATTAAAGATGGAAGATATCTCTATGTTTTTGGGGGCTATGGTAAAGACAACTGCCAGACTAACCAAGTGCACGTCTTCGATACTGGTAGGAGCCTTCTGCTTTTGCTTTTTTGCTTTTACAACTCTTTTTTTCCTTTACATTTCAATAAGTGGGGAAATTTTGGTTTGATATTGTCGTTCATGTCTGTAATGGTATCTTGTTTGTGATTCTTGTATACCCTTTTGAGTACTCTTTGTTTTTTTGTGGTATTCTGTTCTAAATTAGAGGTTCGTTGTTCTGTTCTTTTGCCTTTCTTGGAGACTTTTGTAATGACAAACGTCAGTTGAGATGTGTTTGTTTTTAGAACTTTTCTTTTCGTTTCTCTTACATTTCAAGAAGTGGGGAAATTTGGTTTAGCCTTGCCATTCATTTCTGTAATGGTGTCTTGTTTGAGATTTTTGTATGCCCTTTTGAGTACTCTTTGTTTTTTGTGATATTTTGTTCTTTGGAAATTTATTTATGGCTTTATTGTAAGGATATACCCTGTTGTGTTTTTTTGCCTTTTTTGGAGACTTTTCTGACGACAAATTTCAGTTGAAACGAGTTTGTTTTTAGTGACAATTTTTGGTTTTATTATTGCAATTCATGTCTACAATCGTATCTTGTTTGAGATTTTTGAATACCCTTTCGATTACTCTTTGTTTTCCACGATGTTTTGTTCTTAATCACAGATTTATTTATGGCTTCATTATATATACCAAGCAAACATGTACCCTGTCTTGCACTCGTGTGTGTGTGTTTTGTGATGACATATCTTAATTGAAATGAGTTTGTTTGTAGCAGCAAACTTCCTAGCAAGTTATTTGCTGTTGTTACCAGCATGTGTTATGGAATAATATTAGACGATATTTAATTGGAAAAAATATTAAATTTCTGGAAGGAAATTACTTGTTTTTAATTTTTTCCTTCCCTTTTTTGAACACATTAACGTTGACAAGTTTGATTATTTTCAATGTCTTGGAAGTTATGGGGTTGGTGGGTAGGGTGGAGGGGTTTAATTCTTTTATTGAGGTTAATGGTGTTTTTTTCTTACACGTGGCATTAAACATGTAAATCCTTGTATATACATGCAAATGTACTTGTAAACTATATTTGCCTCATTAGATTGGTCGTTTGCAGCAAAACAAACATGGAGTCAGCCCGTGATAAAAGGAAGTCCACCTACTCCAAGGGACAGTCACACCTGTACTACAATTGGTGACAACCTTTTTGTATTTGGGGGTACTGATGGAATGAGCCCTCTTAAGGATTTGTATATACTGGACACCTGTAAGTTAATTTTTCTCCATATCTCTATAAGTTTTGACTAATGAGAATGTTCAAGTGTCTTCAAAATTCTATGATTGTTTCATAGTCTGGCATCCTAGTTTCTGTGTGGCTGTTTTCTTGTAGAAAAAGGAGAGAGAAAAAAGATCGCGATGCCAAATAATCTGTTTTTCTTTGGTCAAAGATTCCATTTATTGTGTTGATTAGATTTGAAATGCTCTCTTGTTCAAAAAAAAAAAAAAAATTGAAAGGTTAAATATTGGAATGCGGCTATACATGTCTTTAAAAGTTTGCATAATGCTTTACTTCTAGCTATGCATACGTGGATTTGTCCAAGTTTAAGAGGTGACGGGCCAGAGGCACGAGAGGGTCATAGTGCAACCCTTGTTGGCAAACGACTCTTCATCTTTGGTGGTTGTGGCAAATCTACCAGCAATAATGATGAAGTGTACTATAATGATCTCTACATATTGAATACAGGTAATACCAATTTGGTGTTCTATTTTGATTTCAATATTTTTAACTTTTTAACTTCTGTATTTGTATTGACTGTCCATAAGCCCTTCTAAACACTCATGACTACAAAAAAAGAAAGAAAGATGGAATGTGGTTATGTGGATTTCTTAAACTTGCATAGGCTTATTTCTTTCTGGGAAACATTGTAAGAATTGTAATAATTTATGGTGCTTTTGTTTGTTTGATTGGTAAAATGTATTTGACTGTTAGCAATACTAATTTTCTCCTCTACATGAAGGCTTGAGGGAAGTATATTCCTTCGGTATATCTTCTTTCTGCCGGATCCAAAAGAATATGTTATATCATGCTCGAGCTTCTTTCTAAGCCAATTGCCTGCTGTTCCATAGTCATAATTGCATTCATGCGGTGTTGATCAGTTTAGTAGTGCCTGTTAACATATAATATTTTCCTATGTTTTTAGAGACATTTGTTTGGAAACAAGCTACAACAATGGGTACTCCGCCATCTCCACGCGATAGCCATACTTGCTCATCCTGGAAGAATAAAGTTATAGTCATCGGTGGTGAAGATGCGCATGACTATTATTTGTCAGATGTTCACATCCTTGACACAGGTACTTGTCCTTTTTCTCAAGACACCTTATTATCAATTATATGGGCACCTGTTGATGTTCATGCATTATATACTCAGCCTCTCATTTATAAACCTCCTTATATCGTTTTGGTCTTCCATTATAGATACTCTCGTGTGGACAGAGTTGAACACTTCAGGTCAATTGTTACCACCTCGTGCTGGTCATACGACCATAGCTTTTGGAAGGAGCTTGTTTGTTTTCGGGGGATTTACTGATGCCCAAAATCTATACAATGACCTTCATATGCTCGATATTGGTATGTGTTAATTCCTCATTAGCACCTATGCAATAAGAGGCAAATAAGCTGATCTGTAATGGCATGAAAAGCATTGGCTCCATTATTTGATGGGTGATCGAGTTTTCTCCAACTTTAATATGGATATTGATTGCTGAGGGGTGCAAACTGTCTTAATTTTGGGATAGTTGCTGTAAGATTCACGTGATTGTCTAAAATGCTGATCTTGATAATTTGGCTAAAGTTTAGATGTTGCTTCTCTTTAACGATCTTTCTTATGTGTAGAGAGGTTGAATTTTCCATTGTCATATCTTATTGCTGAATATTATGATTATTAATGATTGACAAACTCTTTTGATTTAGTTCGTGGGAGGGGTTCTCTCTACCTGGAACCCTTAGGCTGTTTTTGCCTTTTTGAATGAAGTTGTTGATGTTTCTTATCAATTCTTTTACCATCTTCAATACTTGATGTAGAAAATGGTGTATGGACCAAGATCACCACTATGGGCGATGGACCTTCTGCTAGATTTTCAGTTGCTGGGGACTGTTTAGATCCCTACAAAGTTGGCACACTTGCTCTTTTAGGCGGTTGCAATAAGGGTCTTGAGGCTCTTGACGACATGTATTACTTGTTCACAGGTTCATACTCTTGTTATTTTCTTGGCACACACGATTATTATCATTTTTTAAATTTGGACCTTTCTTGGATAGTAGTTTCTTCCACACGATTCATGGGTGGTAAATAATTTGTCTGTTTACTTTTCTTTTTCAGGACTTGCGAAGGAGACTGAGAGAAAACCGGAGAAGTTGTCTTTGAGAAAGCAATTGAAGCTGAAGTGTCAAGAACAGAACCTAAATGCTAATCATGGAAGAGCTATGGTACCAATTGGAGTCAATGCCGATGTGTTCCAACCAATCACTGTGCAAGGCTATGGGGCTCCATGTAAGGAAGTACCTTTCTAGTATCCCATAGAGTTTTAGATTGTTTGTATTTCTCAAAGTAATGATGGCAGGATGTCCAGTGAATTGTCTTTCCTAGTTCTGTCTTCAGTCTGCTTATTACCTAATGGCAATATAAAATTAGTTCAGTCAATGCTTTTGAGGATAGGTTTGTTGTAGAACCTACATGAAAATGAAACCATATTCTATATTGAAATAAAATATGAATCCATCATTGTTCATCAATAATTACAAGAATTTTTATCCTGATAGAAGTCTTTTTGAAGATAAGTCTTCTGTTTTTACTTTTTGTGGGAATTAACTGCTTGTTTCCTCTTGCTGGCTCATAGTTACAGTCATTTCTTTGGTAATTATCCTATTGCGTTGTCCACAAAACCATCTTTTTCATGAGGTAGACATGACTGCACCTCGCCAAAGAATTTCGGCCTTGCATAGTGAAGAGAGTGTCCAGAAAGAACCTTTTGAAGTCATTATAATGCTAATGTTGCCTGGTCTGCAAAATTGTAATAAAGAAGCATTTAATGGACACTGCAGAAGGGACAACATTTTCACTATCTTCAATTTAAAAAAATAGAGATGTGTGGAGGAATTTGCTTATTTATTTACATATATTTTTATCTCTTTTGGGTTCATGTTGTGACACCTGAACGTCAAATGAGTGGAACATCTGTTGAGAGATCGCTACTGGTTTACGATACGATTGCATAATTCTGTCTAAATTCGGCATGATGTGCTACAATGCAGACAAACAAAATTTTCCTTTGAATCAATCTCATCATCTTCAAGGAAAGAAAAGTTTTCAAGCCAAGGTTACAGAAAGCATAGCAAATGGATACACAATTGAAACTGTCATTGATGGGAAACCTTTGCGGGGAATTATACTTTCCAACAGACCAAACCCTACTCACTTTGCTCATCATAGTACTGTTAGGTCAGAATGATGCCTAATAATGTCCGTTTTATTCAAGTCATTATGCTTCATGTTTGCCAGTTGACAATCTTATCCTTTTGTGGGAGTATGATGTTTTAAACTTAATAATCTATAATCAGGAAGAGGACTTTTGGAGATATTGACCCATTATCGAATGGTGATATCAACATCAAGTTGAAGACTCCTAGACGGACCAAACAAGATGAAGTAGATAATAGACAAGAGCATGGTAGCGGTATAAATGCTCCTACTACGCATCAACAAGAAATGGTTGTCGCTTCGACGACACTCATAAAAGATCCAGTATCTTCGGATGCTTCGCTACCATCTAAGGTGACACCATCATTTTTTGTTTCCTTTCCCTTTATTCGTTGTTATTGTTAATTTATTTAAAAAAAGCTCTCTCTGTGATCCTAGCAACGTTGAACTAGAAATGGGAACAAGTTTGATCAACCTTTTTAGTATTTCCTCTCTCATGGCTTTAATTTTGGTGTTGTGACATGAGCTGGCCACTTAGTGAAAATAGAGCAAGGCTTTCTTTACCTAGCTAATAGCTTATAATTTATGTATTAGTGGACCTTTTGAGATGTGGATTATTCTTTGGATTATTGATATGTGAATATGAAGTGTAAGAAGCACCTCAATGTAACAAGTTTCTATTTGTTGGTCCCATTGATTGTTTGTCACCATGTTGTTAAGAGTGTAGAGTTTGTGCTTGTATCTCTGAAGGCAGGTGGTTGTTTTTTTGTAACCATTGATTTGGTTTGAAAGCCAATTTGTCTAAATCTTCTGTAGAATAAATAAAAAGTGAAGAATAAGAGCTCTTGTTGGTTGATCACTATATTGGATAACATTGAAGAGACTGACATTTGGTGTCTCTTGTTGTGCACTCAGGTCTCACTTTATATGATAATATGAATTCTTAAAACTTTATGGGGTCAAATTATTGTTATTGTTTCATGTTTCAGAAATTTAAGGAAGGTAATGTTTTTCCTAATGACGTGATTGTAGAACATAAAATCTTTTTTTCTTAAATGGGGATGGTGTTTGGCAGAACTTTATCTGTAGCAAGTATGGTCTTTCTCCTGTGGTTGGTCTTTGGCAAAGTGTATTGGTTCTTGTGGTCAAAGCTCTAAGGTGTATATGTATTCTGGAGTAGGTAGCCAAAGAAGATTTATTTAGTTGTTAATATTATGAGCAATTGATCTTTGGTATAGGATTCTGAACTCTTGAAATCTCCAATGCTAAAGGAACTTCGACCATGATGAAGACTGTCGGATGGCATTTGAAACTAGGAGATGGCTTTGAATTCCCTTGGATTCTCTCTCTTTTAGATTTTGTTGTGGATTATTTATAAGGGAGGATGAGGTACAACTAGATTTTTGCAGAAGTATTTTGGTATAAACCTACGTTATAAAGTTTGAGGTTCTTCTTTGACCTTTTATTTGAAGAATGAATTTCCTAGAAATCGTCTGAACCTATATCTGAACTTTCTTCTTTCCCTCTATATGGTGCAACCTTCTCAAAGAAGGTAAGGAAATTGCACATATTGCACATCAATTGATAAGGGTGAGACTCAAATGGTGAGCTCTCCTCGAGACATCCAACATGATAATATTTCTGTAGTTTTTTCCTAGCTCGAAGCACTCTTGTTTTACCATTATTCATCAACTTTAGAGCAATTCTAGAGGCGATGCTTCTAAACTCTTTGGAGGATGGACAATGATGGGGCAAGGGATTTATTTTAATTTCTTATTATTCTTTTAGTGTTTGTTTGACCCAATGTGTTAAGAAGTCGGAGCAATGAAGTCTACTTCTTGGTTGGCTTAAGGAGTTTGTGGGTCCCACGGTTAAAAATTTTCAATTTTATATCTCATCAACCTCTTCACTGTAGGCTCCAAAAGTTCACAACTCTTTGGATTTCATAACTTCTTAGACCTCACTATCCTACTCCTTACTCCAAACACCCTCTTAGGTTTGGCCTTCCCCGCCCAGTGAAGATTTTTTTTAATTATTTTTAGAAAATTTGAGCGTGACTCTGCTTGATAGTTTTCAATTCTTAAAGATGAGAATGTGTAACATACTCCTCGAATTTCCAAATTAAATAACTTCCCCTGCAAGTGTAAATTACACGTGAGATTGGGTTCATTCAACCATTTATGCACTCAAAATCAGTATTTTTCAAAGTTTAAGGCACAATAAAGTGCCATAGCGCTCTCGAGCTTAAGTGTAAGGAAAAAAAAAGTACGGGGTTTCTATTATAGGCACACAAAAAAGTGTGGCGTATATATAGGAAACTAGTATGATGATGAATTTTAAGATGGCGCAAAACTTGAGAAAATAGAGCTTTTACTTGAGATTGAAAGAATATTTACTGTGAAGAACTTTTTCAATCGCTTAAAGCGTCATTCCAAATAGGTAATTCAGTTTTGTGAAAATGGGATAAATTTATTGCCTTGTTGGGCACCTTGTAAGAGAATCTCATTTTTATTATTTATCTTGCACGATCAGAATAGTTCCTTTTCTACTTGCAGGTGAGTTCAAGTTCAGAATTGCCTCCTTTGAGTCTAAAGGATGTTTCAACTTCGACACAAGCTCCAATGGATATTGACGTTGAAATTTCTGGAGTTACAAAGACGAATGTTGCCTTGGATTCTACGACAGACATTCAAAATGAAAGTATTCCGACCCCAGCTTCAAAAGAAACTATTACCTTTTTTCCCGACCAAGGTAGGAACAAAACTATGATGAAATATGGTAATTGTAGGTTGCTAATCTTGTGTAGTCTTGAGTCAAGTTTTATTTTTGTTTTGGCCATTATGTATTATAATACCTTTTGTAAGCTTTCTTGAAATGAATGAATAGAGCCTCTTTCACCAATACACAAATAAGTGGGGTAGTGATTATTTTTTTGTTTCGTTATATCAGATATCAAAAGACCTACGACAACCGAGGAGGCGAGTCAAGTATCAAAATAGTTGTGGAAATGACAAATGAACAACATGCAATTGTGAAGATAGATGCAGAAATCCCTCAACCCGTTTGTACATTCATAGGAGAGCACAGATGCACACTAGGAAATTACTCTGATCTTACCATCTCTAACACATCTAGATCTGATCCTGTTGAATCCTTCCATTGATTTTGATTCTTCGTATTCGAGTTGTATGTAGTACCCGTATCACAATTAGAGTTTAGACGTTAGGCTGTTCATTTGAATCAGCCACCCCACTTGTTTTTTTCTTTTTGGTTGCAGCTTCTTATAGACTGCCATTTTCGTTCGGGAAGGAATCAACCATTGTTTAGAAGCAAACATTTTTTTCTTCTAATTTTATTGTCATTAGCTGCTCTTAAGGCCTGTTCACTTTTACCTTTCTAGTTGCAACCTCATGTGAACTGGGAAAAAAGAAGTTAGTGATTACATTAGAGGTTGGAAAGATTTATCAAAGAGCAAATTTTTTTTTCTTCAGGTTTTCTGTTCTTCAATTATAATTTGGTATCACCCTTTTTCTCTTTAGTTTTTAACCAGAGAAAAGATATAATTTCTACATTCTCTCTTTTACATAACACTACATTTCTTCTATATTTTCCTTTTTTTTTTCCATATACGTTCTCCAAATATTTGCATGTATGAAAAAACTCCATAGCCTCACACCTGAAAATCCCACTAAATCATATCTCAGGTGAAGCCCATTCTTGTTTTTATTTTCCCTTTGATGATTTAATTTTTCCCAACAAAACAAATTTCCCCTTGCATTTTCTTTGCTTAGTAGTCCACTAGTTTTGGTTTTTTGGGTTCGTTCTTCTTCCTTTTTCCCTTTTGCCTTTTCTCCTGATTTCCCGACATAAAAACATGAGGTGGGAAAGGGTTGAGTTACTTTCAAGACAGGGCCAAGGTGGAGCTCTGGGGGAGATTCCAGGGCCCGGTAAAAGATGGGGACATACTTGTAACGCCATTAAAGATGGAAGATATCTCTATGTTTTTGGGGGCTATGGTAAAGACAACTGCCAGACTAACCAAGTGCACGTCTTCGATACTGCAAAACAAACATGGAGTCAGCCCGTGATAAAAGGAAGTCCACCTACTCCAAGGGACAGTCACACCTGTACTACAATTGGTGACAACCTTTTTGTATTTGGGGGTACTGATGGAATGAGCCCTCTTAAGGATTTGTATATACTGGACACCTCTATGCATACGTGGATTTGTCCAAGTTTAAGAGGTGACGGGCCAGAGGCACGAGAGGGTCATAGTGCAACCCTTGTTGGCAAACGACTCTTCATCTTTGGTGGTTGTGGCAAATCTACCAGCAATAATGATGAAGTGTACTATAATGATCTCTACATATTGAATACAGAGACATTTGTTTGGAAACAAGCTACAACAATGGGTACTCCGCCATCTCCACGCGATAGCCATACTTGCTCATCCTGGAAGAATAAAGTTATAGTCATCGGTGGTGAAGATGCGCATGACTATTATTTGTCAGATGTTCACATCCTTGACACAGATACTCTCGTGTGGACAGAGTTGAACACTTCAGGTCAATTGTTACCACCTCGTGCTGGTCATACGACCATAGCTTTTGGAAGGAGCTTGTTTGTTTTCGGGGGATTTACTGATGCCCAAAATCTATACAATGACCTTCATATGCTCGATATTGAAAATGGTGTATGGACCAAGATCACCACTATGGGCGATGGACCTTCTGCTAGATTTTCAGTTGCTGGGGACTGTTTAGATCCCTACAAAGTTGGCACACTTGCTCTTTTAGGCGGTTGCAATAAGGGTCTTGAGGCTCTTGACGACATGTATTACTTGTTCACAGGACTTGCGAAGGAGACTGAGAGAAAACCGGAGAAGTTGTCTTTGAGAAAGCAATTGAAGCTGAAGTGTCAAGAACAGAACCTAAATGCTAATCATGGAAGAGCTATGGTACCAATTGGAGTCAATGCCGATGTGTTCCAACCAATCACTGTGCAAGGCTATGGGGCTCCATACAAACAAAATTTTCCTTTGAATCAATCTCATCATCTTCAAGGAAAGAAAAGTTTTCAAGCCAAGGTTACAGAAAGCATAGCAAATGGATACACAATTGAAACTGTCATTGATGGGAAACCTTTGCGGGGAATTATACTTTCCAACAGACCAAACCCTACTCACTTTGCTCATCATAGTACTGTTAGGAAGAGGACTTTTGGAGATATTGACCCATTATCGAATGGTGATATCAACATCAAGTTGAAGACTCCTAGACGGACCAAACAAGATGAAGTAGATAATAGACAAGAGCATGGTAGCGGTATAAATGCTCCTACTACGCATCAACAAGAAATGGTTGTCGCTTCGACGACACTCATAAAAGATCCAGTATCTTCGGATGCTTCGCTACCATCTAAGGTGAGTTCAAGTTCAGAATTGCCTCCTTTGAGTCTAAAGGATGTTTCAACTTCGACACAAGCTCCAATGGATATTGACGTTGAAATTTCTGGAGTTACAAAGACGAATGTTGCCTTGGATTCTACGACAGACATTCAAAATGAAAGTATTCCGACCCCAGCTTCAAAAGAAACTATTACCTTTTTTCCCGACCAAGATATCAAAAGACCTACGACAACCGAGGAGGCGAGTCAAGTATCAAAATAGTTGTGGAAATGACAAATGAACAACATGCAATTGTGAAGATAGATGCAGAAATCCCTCAACCCGTTTGTACATTCATAGGAGAGCACAGATGCACACTAGGAAATTACTCTGATCTTACCATCTCTAACACATCTAGATCTGATCCTGTTGAATCCTTCCATTGATTTTGATTCTTCGTATTCGAGTTGTATGTAGTACCCGTATCACAATTAGAGTTTAGACGTTAGGCTGTTCATTTGAATCAGCCACCCCACTTGTTTTTTTCTTTTTGGTTGCAGCTTCTTATAGACTGCCATTTTCGTTCGGGAAGGAATCAACCATTGTTTAGAAGCAAACATTTTTTTCTTCTAATTTTATTGTCATTAGCTGCTCTTAAGGCCTGTTCACTTTTACCTTTCTAGTTGCAACCTCATGTGAACTGGGAAAAAAGAAGTTAGTGATTACATTAGAGGTTGGAAAGATTTAT ATGAGGTGGGAAAGGGTTGAGTTACTTTCAAGACAGGGCCAAGGTGGAGCTCTGGGGGAGATTCCAGGGCCCGGTAAAAGATGGGGACATACTTGTAACGCCATTAAAGATGGAAGATATCTCTATGTTTTTGGGGGCTATGGTAAAGACAACTGCCAGACTAACCAAGTGCACGTCTTCGATACTGCAAAACAAACATGGAGTCAGCCCGTGATAAAAGGAAGTCCACCTACTCCAAGGGACAGTCACACCTGTACTACAATTGGTGACAACCTTTTTGTATTTGGGGGTACTGATGGAATGAGCCCTCTTAAGGATTTGTATATACTGGACACCTCTATGCATACGTGGATTTGTCCAAGTTTAAGAGGTGACGGGCCAGAGGCACGAGAGGGTCATAGTGCAACCCTTGTTGGCAAACGACTCTTCATCTTTGGTGGTTGTGGCAAATCTACCAGCAATAATGATGAAGTGTACTATAATGATCTCTACATATTGAATACAGAGACATTTGTTTGGAAACAAGCTACAACAATGGGTACTCCGCCATCTCCACGCGATAGCCATACTTGCTCATCCTGGAAGAATAAAGTTATAGTCATCGGTGGTGAAGATGCGCATGACTATTATTTGTCAGATGTTCACATCCTTGACACAGATACTCTCGTGTGGACAGAGTTGAACACTTCAGGTCAATTGTTACCACCTCGTGCTGGTCATACGACCATAGCTTTTGGAAGGAGCTTGTTTGTTTTCGGGGGATTTACTGATGCCCAAAATCTATACAATGACCTTCATATGCTCGATATTGAAAATGGTGTATGGACCAAGATCACCACTATGGGCGATGGACCTTCTGCTAGATTTTCAGTTGCTGGGGACTGTTTAGATCCCTACAAAGTTGGCACACTTGCTCTTTTAGGCGGTTGCAATAAGGGTCTTGAGGCTCTTGACGACATGTATTACTTGTTCACAGGACTTGCGAAGGAGACTGAGAGAAAACCGGAGAAGTTGTCTTTGAGAAAGCAATTGAAGCTGAAGTGTCAAGAACAGAACCTAAATGCTAATCATGGAAGAGCTATGGTACCAATTGGAGTCAATGCCGATGTGTTCCAACCAATCACTGTGCAAGGCTATGGGGCTCCATACAAACAAAATTTTCCTTTGAATCAATCTCATCATCTTCAAGGAAAGAAAAGTTTTCAAGCCAAGGTTACAGAAAGCATAGCAAATGGATACACAATTGAAACTGTCATTGATGGGAAACCTTTGCGGGGAATTATACTTTCCAACAGACCAAACCCTACTCACTTTGCTCATCATAGTACTGTTAGGAAGAGGACTTTTGGAGATATTGACCCATTATCGAATGGTGATATCAACATCAAGTTGAAGACTCCTAGACGGACCAAACAAGATGAAGTAGATAATAGACAAGAGCATGGTAGCGGTATAAATGCTCCTACTACGCATCAACAAGAAATGGTTGTCGCTTCGACGACACTCATAAAAGATCCAGTATCTTCGGATGCTTCGCTACCATCTAAGGTGAGTTCAAGTTCAGAATTGCCTCCTTTGAGTCTAAAGGATGTTTCAACTTCGACACAAGCTCCAATGGATATTGACGTTGAAATTTCTGGAGTTACAAAGACGAATGTTGCCTTGGATTCTACGACAGACATTCAAAATGAAAGTATTCCGACCCCAGCTTCAAAAGAAACTATTACCTTTTTTCCCGACCAAGATATCAAAAGACCTACGACAACCGAGGAGGCGAGTCAAGTATCAAAATAG MRWERVELLSRQGQGGALGEIPGPGKRWGHTCNAIKDGRYLYVFGGYGKDNCQTNQVHVFDTAKQTWSQPVIKGSPPTPRDSHTCTTIGDNLFVFGGTDGMSPLKDLYILDTSMHTWICPSLRGDGPEAREGHSATLVGKRLFIFGGCGKSTSNNDEVYYNDLYILNTETFVWKQATTMGTPPSPRDSHTCSSWKNKVIVIGGEDAHDYYLSDVHILDTDTLVWTELNTSGQLLPPRAGHTTIAFGRSLFVFGGFTDAQNLYNDLHMLDIENGVWTKITTMGDGPSARFSVAGDCLDPYKVGTLALLGGCNKGLEALDDMYYLFTGLAKETERKPEKLSLRKQLKLKCQEQNLNANHGRAMVPIGVNADVFQPITVQGYGAPYKQNFPLNQSHHLQGKKSFQAKVTESIANGYTIETVIDGKPLRGIILSNRPNPTHFAHHSTVRKRTFGDIDPLSNGDINIKLKTPRRTKQDEVDNRQEHGSGINAPTTHQQEMVVASTTLIKDPVSSDASLPSKVSSSSELPPLSLKDVSTSTQAPMDIDVEISGVTKTNVALDSTTDIQNESIPTPASKETITFFPDQDIKRPTTTEEASQVSK Homology
BLAST of IVF0002337 vs. ExPASy Swiss-Prot
Match: Q10AZ7 (Protein GLUTELIN PRECURSOR ACCUMULATION 3 OS=Oryza sativa subsp. japonica OX=39947 GN=GPA3 PE=1 SV=1) HSP 1 Score: 141.7 bits (356), Expect = 2.6e-32 Identity = 95/324 (29.32%), Postives = 152/324 (46.91%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy Swiss-Prot
Match: Q8VEM9 (Kelch domain-containing protein 3 OS=Mus musculus OX=10090 GN=Klhdc3 PE=2 SV=1) HSP 1 Score: 140.2 bits (352), Expect = 7.6e-32 Identity = 86/290 (29.66%), Postives = 133/290 (45.86%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy Swiss-Prot
Match: Q6AYI2 (Kelch domain-containing protein 3 OS=Rattus norvegicus OX=10116 GN=Klhdc3 PE=2 SV=1) HSP 1 Score: 140.2 bits (352), Expect = 7.6e-32 Identity = 86/290 (29.66%), Postives = 133/290 (45.86%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy Swiss-Prot
Match: Q9V4C8 (Host cell factor OS=Drosophila melanogaster OX=7227 GN=Hcf PE=1 SV=2) HSP 1 Score: 137.5 bits (345), Expect = 4.9e-31 Identity = 99/309 (32.04%), Postives = 148/309 (47.90%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy Swiss-Prot
Match: Q58CV6 (Kelch domain-containing protein 3 OS=Bos taurus OX=9913 GN=KLHDC3 PE=2 SV=2) HSP 1 Score: 137.5 bits (345), Expect = 4.9e-31 Identity = 85/290 (29.31%), Postives = 132/290 (45.52%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy TrEMBL
Match: A0A1S3BWP5 (nitrile-specifier protein 1 OS=Cucumis melo OX=3656 GN=LOC103494056 PE=4 SV=1) HSP 1 Score: 1194.1 bits (3088), Expect = 0.0e+00 Identity = 580/589 (98.47%), Postives = 584/589 (99.15%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy TrEMBL
Match: A0A0A0LPC0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G014370 PE=4 SV=1) HSP 1 Score: 1159.8 bits (2999), Expect = 0.0e+00 Identity = 566/598 (94.65%), Postives = 574/598 (95.99%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy TrEMBL
Match: A0A5A7UQ62 (Nitrile-specifier protein 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold274G003070 PE=4 SV=1) HSP 1 Score: 1080.9 bits (2794), Expect = 0.0e+00 Identity = 515/516 (99.81%), Postives = 515/516 (99.81%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy TrEMBL
Match: A0A6J1C0S1 (kelch domain-containing protein 3-like OS=Momordica charantia OX=3673 GN=LOC111007304 PE=4 SV=1) HSP 1 Score: 1031.2 bits (2665), Expect = 1.7e-297 Identity = 501/599 (83.64%), Postives = 537/599 (89.65%), Query Frame = 0
BLAST of IVF0002337 vs. ExPASy TrEMBL
Match: A0A6J1JE45 (acyl-CoA-binding domain-containing protein 5-like OS=Cucurbita maxima OX=3661 GN=LOC111484967 PE=4 SV=1) HSP 1 Score: 1027.3 bits (2655), Expect = 2.5e-296 Identity = 505/597 (84.59%), Postives = 531/597 (88.94%), Query Frame = 0
BLAST of IVF0002337 vs. NCBI nr
Match: XP_008453298.1 (PREDICTED: nitrile-specifier protein 1 [Cucumis melo]) HSP 1 Score: 1183 bits (3061), Expect = 0.0 Identity = 580/589 (98.47%), Postives = 584/589 (99.15%), Query Frame = 0
BLAST of IVF0002337 vs. NCBI nr
Match: XP_004138200.1 (uncharacterized protein LOC101209027 [Cucumis sativus] >KGN63740.1 hypothetical protein Csa_013366 [Cucumis sativus]) HSP 1 Score: 1149 bits (2971), Expect = 0.0 Identity = 566/598 (94.65%), Postives = 574/598 (95.99%), Query Frame = 0
BLAST of IVF0002337 vs. NCBI nr
Match: KAA0058003.1 (nitrile-specifier protein 1 [Cucumis melo var. makuwa]) HSP 1 Score: 1071 bits (2771), Expect = 0.0 Identity = 515/516 (99.81%), Postives = 515/516 (99.81%), Query Frame = 0
BLAST of IVF0002337 vs. NCBI nr
Match: XP_038880676.1 (host cell factor 2 isoform X3 [Benincasa hispida]) HSP 1 Score: 1055 bits (2728), Expect = 0.0 Identity = 526/603 (87.23%), Postives = 546/603 (90.55%), Query Frame = 0
BLAST of IVF0002337 vs. NCBI nr
Match: XP_038880675.1 (host cell factor 2 isoform X2 [Benincasa hispida]) HSP 1 Score: 1047 bits (2707), Expect = 0.0 Identity = 516/582 (88.66%), Postives = 535/582 (91.92%), Query Frame = 0
BLAST of IVF0002337 vs. TAIR 10
Match: AT1G18610.1 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 634.0 bits (1634), Expect = 1.2e-181 Identity = 317/549 (57.74%), Postives = 401/549 (73.04%), Query Frame = 0
BLAST of IVF0002337 vs. TAIR 10
Match: AT1G74150.1 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 562.0 bits (1447), Expect = 5.8e-160 Identity = 297/584 (50.86%), Postives = 374/584 (64.04%), Query Frame = 0
BLAST of IVF0002337 vs. TAIR 10
Match: AT2G36360.4 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 131.3 bits (329), Expect = 2.5e-30 Identity = 78/231 (33.77%), Postives = 111/231 (48.05%), Query Frame = 0
BLAST of IVF0002337 vs. TAIR 10
Match: AT2G36360.1 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 128.6 bits (322), Expect = 1.6e-29 Identity = 75/229 (32.75%), Postives = 109/229 (47.60%), Query Frame = 0
BLAST of IVF0002337 vs. TAIR 10
Match: AT2G36360.2 (Galactose oxidase/kelch repeat superfamily protein ) HSP 1 Score: 128.6 bits (322), Expect = 1.6e-29 Identity = 75/229 (32.75%), Postives = 109/229 (47.60%), 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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