IVF0013259 (gene) Melon (IVF77) v1
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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.ATGTCAACTGAACCAGTGAATGTGGATGAGTTCGAAGAATTGGCTAGGCAGGCACTTCCAAGAATGTATTACGATTACTATGCAGGAGGAGCAGAGGACCAGCACACACTTAGGCAGAACATACAAGCTTTCTGTAGAATCACGTAATCTTTATTTAAAGTAAGTTTGTGAATCTCTATGACAAGTGATACTATACGTTGTTAATAATTTTCAATTGTTTCCAGGATACAACCTCGAATTCTTGTTGACGTGAGTAAAATTGATATGTCAACAACGATCTTGGGCTATCGTATCTCTGCACCTATTATGGTTGCTCCAACCGGTTCTCATAAGTTGGCATACCATGAAGGTTAAACTATGGTGGATTATTTCGTTGAGATATGGTTTTCTTTTTATTTCTTTTTCTTTGAAAAGGTCTTATTAAGTACAACTTGGGGTGGGGGAATTTGAACTCAAAACCTCTTATCATCGGGAACATATAGATGTCAGTTGAGGTAAGCTCATGTTGGTAAAATAAATATGATTTTCATTCTACTCTTTCTTGTGTTCTTTCAGGAGAGTTAGCCACAGCCAGAGCGGCTGCGGCTGCAAAAACTATAATGGTACCAATGTGACTACAAACTAGACTGGAAGGTTTTTTTCTTTTTCTTTCTGTCATTCAATTTAGTGTTTGAATTTAAATGGTTTTGTTTGTAGGTTCTATCCCTTGCTTCCTCCTACTCAATGGAGGAAGTTGCCTCTAGCTGCAATGCTATCCGTTTCTTTCAATTATATGTAAATGGCTCTTCTTTATCCCTTACATTTGACTTTTTCAATCTTTTCTTGTAGCAGGAATCCAATTGTTTGCAAGTTACTGAATTTTTTTCTTTCTGTAATTAGGTTTTCAAACAGCGTGATGTCTCGACTCTGCTAGTACAAAGAGCTGAGAGATTTGGATATAAGGCCATTGTTCTGACTGCTGATACGCCTCGACTTGGTAGAAGGGAGGCTGATATAAAGAACAAGTAGCAATGCTTCACATCTTAGGGCATGTTTCGGAAGTTATTTAAGGAATAGTAATTTTAGTGGAAATAATTTGTTTTCAAGTGATTTATAATCATTTCGTGTTTGATTTTACACTTTCAAACACATTTTTTATTCTTTCAAAATTCATTTTGAATGGCTAAATACATGTTTGAGAACCTCTAAGCAAGAGTAATTGATCAATGTCAAAGTCACTTCTAAACATGTCATAGTTTCTTTTCTATCTAATGCGTTTCATTCCTTTTACTGAGTTTAAAGTTTGTCATCGTATGGAAAAACTTCATATTCCTGTATGAGACTGTTAAGTCCTGAGATAGGATCTATTCTTCCTTTATCTCACATCAAACTTGTAAACTGTACCCTGATTTTATCTCATCTAGAATAGTACTTGGATGAATTTGCAGGATGATTGCACCACCACAGAAGAATCTTGAAGGCTTGTTGTCTGTTAAAGTTGAAGTTGAGTCTGTGAGTAATATTTAAATTTTCTATTTAGAATCTTGTAAGTACTAGTTTAATCTAACAAATTTTCAAACTCACTTATATTCATGGCATGGTGTACAACTTGGTTGTATTTCCTGCTGTATAGTTTAGTTATACTGTCAATTGTATGCTTGTACGGTTATCTCGACCAATAATTTTGGTTATTCATACATCTGGCTTCAAGTATAATTTGGTTATTTTTCTTCGATTACATTGTGCTGTTTTTGGGTTTATTTTATAGTAAACTTAACTCGTGATCTTATGCAGGATCAAGGTTCGTTATTAGAGTCTTTTGTTAATGAGGCCTTTGACCCATCCCTTTGTTGGAAAGTAAGTCCAATAAACTGTTATGATGTATATTGCTAACTTGTCTGCTTATGAAAAATTTATTAAATTTTGGTGGCTATTCTTCAAGTAACTCAATAACTTAACTACTTCTATTTTATATAAGGAGCTATAGCAATATGATCTCTTTAAGAAACTTTTACTACTAAAAGGTATTGTTTGCATGATTTTTTATGTGCATGATTTTACTGACTCAGTTATGTTATTGTACCATCCACATACCATCCACAGGATGTAGCATGGTTGAAATCAATCACTAGCTTGCCAATTCTGATCAAGGGAATTCTCACACATGAAGATGGTAATATTAAAATTGTGTCTTAAAGACATAAAAATCAGAAAATGAGCTTTTTCTTTTCCCTATCTGATGAAATGTTCTGCAATAACATATCTTGACATCAAATACAAATGCTGCAAGCTAGACCTCGATTAATCTTGCAATTAAGTTTCGATATGATGACCGAAAGAAAATGCATGATTATGTAAATGTACCCTCTTTCGTCTTTTCTCTTAATCAGTCTCTATCAGGTTTGTGTGTCGTGCCATTGTCCGTGGATAGCCCTTTTTTTAAATTTGTTAACGCAGTTCATAATTGTAGCAATTAAGGCTGTGGAAGTAGGTGTTGATGGAATTATTGTCTCCAATCATGGAGCTCGCCAACTAGATTTTTCTCCTGCCACCGTTTCTGCTCTTGAAGAGGTAAATGTCTTTTCTTACTAATTTATGATTAGCTAAAGATGTTGATACAAACTGGTACCTTGATTTCAGAATAAAATTATTGCACAGTACCTATGTTCCCTCAAGGATGAACCGAGTAATGTTAAACAAGCATCACTACATCCAAATATTCTTTCTCAACTTTCTTTGCTCTGGCTTGCTATCTCTTTTAGTTTATTTGCACATTCTTTCAAATTGGTGAACACAAGTGTGTCTTGTATGATGCATTTCTCATAGTAAGTGATATATGATAGCAAAATATTATCTTCTTTCCTTCATTTGCACATTCTTTCAAAATTTAGCCTACTTTTCCATTTACTATAATCTCTTAACTCGTTTTTTAAGCAATAAGAATGAGTATGGGAAGGTTTTTTAACGTAGAAATCAAATTGCAGATAGTTCATGCTGTGAAGGGTAAAGTTCCTGTGCTGTTAGATGGAGGTGTGAGGCGAGGAACAGATATTTTTAAGGCATTAGCCCTTGGTGCACAGGCAGTTCTTGTAAGCTCTCCAACTTTCAATTAACCTTCTAGGCTATGTATGATAGAATTCATGTTTCTTACTTTCACTTTGTACTTCTATAGAAAATTGTCTAGTTTTGTTTTAATGGTCAACTTGTTCATCTAACCAAGATAGAGATGATACAAACAACGGAACTTATACTTGCTGTCTACTTTTGGCATAAACTCACATGGCTTTGCATCTAGAACCACCTAAAGAGTCTATACTTGCGATCTCATTTCCTTTCTCTATGACTAGTTTGGGACTTTGTTTGCACATAACAAGGGACTACTGTTGAGATTGAGATAACTAAACTTGTTGTAACTCATAAACTTAACATAGTAAATCAAGAGGTCTTGTTCATACTCCTATAATGTCATTTATTTTTTTATTTTGAAAATTAACCGACTCTCTACTCGATTTTCTTATAACGGATTGCATCTTTCTTAAGTACATAGTAAATATGGTCTTGTTCATACTCCTAAAATGTCATTTATTTTTTTATCTTTGAAAATTAACCAACTCTTTGCTCGATTTTCTTATAACGGATTGCATCTTTCTTAAGTACAAGTGTTGAATTTTTAGCCAAATCCGAAAACAAAAGCGATTTGTGTTTTCAAGAAAACTCAAAAAATTAATTCATAAGTAGGTAGCCACCATAGATTGAACCCATAACATTATTGGGACTATGTCTCCCATTTTATCACTAGATCAATTCATGATAGTTTTTTTTCCCTTATTCGAGAGAATAGAGAATCGGGGAAGTTTATATTTTTATTCAATCACTTCTTACTATACCTATTGAAAGCAATTAACACCAACACGAGGTTTACATGGAAACCTGAAAATCAGTAGAAAAACCACGATACTTTAGTTTTTATTATTTTTCTTATGAATGAATACAATAGGTATAAAGGATGGAATAAATAGAATACAATAGGAGTAAGAAAGGAAAAGATATAGGAAATAAAATATTCCATATTATTCTTTCCAAAAATACTCTAAGGGCAAAGCCTTACTAATTCTAACACTCCCCCTCAAGTTGGAACGTAAATATCAATGAGTCCCAACTTGCTAACACAAAGGTCAAAGTGTGGTCTGAGAAGCCCCTTGGTGAGAACATTTGCAACCTGTTGGCTCAAAGGAATGTACGGAATGCATATGCGTCCACTATCAAGAAATGTCGATCAATCTCAACATGTTTAGTTCTATCATGTTGAACTGAGTTGTTAGCAATACTAATAGCGGCTTAATTATCACAAAAAAGTTTCAACGGTGTCTCACATTCCTAATGAAGATCTGACAAGACTTTTTGGAGCCAAATTCCCTCACATATTCCCAAACTCATAGCTCTGTATTCGGCCTCTGGCCACAACACTTTGCTTCTTACTCCTCCAAGTTACAAGATTGCCCCAAACAAGGGTACAATAACCGAAGGTAGACTTTCTGTCAACAACAGATCCTGTCCAATCTGAGTTACTATATGCCTCAATGGTCTTTCTATTTGTTTTTCTAAACATCAACCCTTTACCAGGTGTATTTTTCAAGTATCTCAGAATTTTGTTAACAGCTTCCATGTGTGTTCTCTGAGACACGGAGATCAGGCCACCTCCATTCCAAGGAAATAGTTCAGATTTTTCAAATCCTTGATTTCAAATTCATCACCCATTCCCAGTTTTAGTTGACTAATTTCTATTTGATCATCTCCAGTCAAAACAAGGTCATCCACATAAACTATTAGAACAGCAATCTTCCCTGTCTTGGAAACATTTGTAAATAAAGTATGGTTAGAGTGCCCATGTCTGTATCCTTGGGACTTGACAAAGGTAGTGAATCTGTCAAACCATGCTCTGGGAGATTGTTTCAGAAAATATAGGGATTTCTGGAGTTTACACAACTGCTGACCAAATTGGGCTTCAAATCCTGGTGGGGGGCTCAAGTAGACTTCCTCCACATGGTCTCCATTCAAAAAAGCATTCTTAACATCCAGTTGGTATAGAGGCCAATCTTTGTTCACAGCAACAGATAGCAGGACTCTAATAGGATTCAACTTAGCAACTAGGGAAAAAGTTTCTAAATAATCAATACCATAGGTCTGAGTAAATCCCTTTGCAACTAACCTTGCCTTGTGTCTATCAAGAGTACCATATGCTTTTTATTTGAGAGACAATACTCATTTGCATCCTACAGTTTTGTGCCCTTTGGATAGAGCATAGATCTCCCAAGTTCTATTTTTTTTCAAGAGCTTTCATCTCTTCCATACAGCATTCTTCCATTCAGGACACTCTATAGTAGTGTAAATATTTTTCTGTATTATGGTAGAGTCAAGGCTTGCTATAAAAGCTCTAAACTGTGGAGAGATTATCATAGGAAACATAATTGCAAATGAGATGTTTAGTACAAGACCTGGTACCTTTTCTCAGAGCAATGGGAATGTCAAGAGAGGGATTATACTCATCAAGTTTCTCTGTATGACCCTGTTCGGCTTCATTGTTACTGTTTTGACCTCAGTCTCATCACCACGGTTCTTTTCTTCCACATTTTCAAGAACAGCAACATCAGACCTGTTATTCTCACTCATCGTATTATTAGTACAAGGTTCTATAGGGTTTTCCATACCTTGATCTCGAGGAGGTTCGAAGTCTTGGACTGGAGGCGACGGCTGACGAGTAGGGGATCCAACTTCCTTTCTGAGATTCCTCTTGTAATACGTTTTCTAGGAAACTTGGTTTGTGGGTAGGATTATGGGATGAGGATCAATGTCAAACACGGTACTAGGAGTAGGTTCGATAAGTTCAAAGGTGTTGTTAGACTCTTCACTCACACTCTCCCCCTAAAGATGGCTAACAGGAAAGTAACATCCATAGTGACAGTATTTCCTGGACGGCGGGTGAAAACATTTATAACTGCGCTAGTGAAGAGGACATCCAACAAACACACAGACTTAAGCCCAAGGGGTAAATTTGGTCTGATTAGGGCCAAAATTATGGACATTGGCGGTGCACCCAAACACACGAAGAGGAACCTCAGAAACAAGACGAGTAAAGGGGTAAGACTCCTTAAGACAATCTAAGGGAGTCTGAAGGTGGAGGATACGAGAAAAATTCTATTGATTAAATGAGCTGCTGTAAGAATAGCATCTCCCCAAAGGTATGAAGGAAGGAAAGTGGAAAGCATAAGGGAACGGGCTACTTCTAGAAGGTGACGGTTTTTTCACTCATCCACTCCATTTTGTTGAGGAGTGTAGGCGCACGAGGTTTGATGAACAATTTCCTTAGAGGTTAGAAATTCACTAAGGTTATGGTTTTGGAATTCCCGACCATTATCACTCCGAAGAATTGCAATTTTTGTATGGAATTATGTTTCAATAGTATGATAGAAGTTTTGGAAAATGGATGAAACCTCAGATTTATCTGTGATAAGGTAGACCCAGGTAAGACGGGTATGGTCATCAATGAAAGTTACAAACCACTGCTTCCCCGATGAGGTGGTGACCTTGGAAGGACCCCAAACGTCATTATGGATGAGGGTAAACGATTGTGTAGGTTTATATGAATGTGAGGGAAAATAGACCCGATGTTGTTTAACCCGGATCACACATCACAAGATAGAGAAGAGATATCAAGTTTAGAAAAAAGATGGGGAACTAAATATTGCATATGTGTAAAGTTTGGGTGGCCCAACCGAAAATGCCACAGCATACAATCTTGTTTAGAAGTGCTAAAGTAGGAAGACAGTAAACTAGCCCTAGATAAACTACTACAGGAGGTATCATCATCAAGAATGTAAAGTCCCCTGTTATGCCGGACAATGTCAATCGTCCTCCCCGAGCTTATGTCCTGAAAATAAATAGATTCAGGTAAGAAGATAGCTTTACAATGCAACTCACGAGTGATCTTGCTTATAGGTAACAAATTGTAAGACAGTTTAGGAACATGCAAAACATTCTGGAGAGCAAAGCCGCCAAAGGGAACTATTTGTCCTTTACCAGCGATCGGGGCTAGAGAGTCGTCGGCTATCTAGATTTTTTCATTACCGGCACACGGGGCATAAGAGATAAATTGTTCCAAAGAATCTGTCAAGTGATCTGTAGCTCCCGAGTCTAAAATTCAGGGAATTTCCCTTTATCCCTTTACTCGAAATGACAGAATGACCGTGGAGTTTCCAACATTGATCCTTGGTGTGCCATTGTTTCTTGCAATGCTCACACACAAGGATTGGTTTATTCTTGTCACTATCATGATTCAATGACCGAGCACTAAAGGCAGCGAAGTCAATGGTAGGAGTAGTCAGTACACTCATGGCATTAGTGCGATCCTCTTCAAGGCAGACTTCAAAACACACTTCCATTGGGGAGGGAAGAGGTCATTGTTCGAGTATACGACCACAAACAGTATCAAATTTGGGATTAAGTTCTGCAAGGAAGTCATAAATACGGTCAGCCTTTTCAAGTTTAGCATATTGTGTATCGTCATTTGGTGTGTCCCAAACTGTCTCTCTTCACAAATCCATCTCTTGCCAGAGGAGAGAGAGCTTGTTAAAACAGGTAGTCACGTCCAGGGCCCTTTGTTTGCAATTATGGATTTGTTTTCGCAGTGTAAACAACCGAGAGGCATTCTGTCATTTCGAGTAAAGGGTCTAAGTTGTATCCCACAAATCTTTTGTTATGGCTGCATATAGTAGAGGCTTGCAGATCTGAGGTTCCATACTATTAATCAACATGGACTAAATAAGTGAGTTTTCTTCTTTCCAGAGTCGTACAGTCTCTCCAGTTAAGAAGTCGAACTGGTGGTGACCTTCAAGAAACATCTTTACTGATTGGGACCAAGAGAAATAATTTTGCTCATTTAATTTTTCACCTGAAAAGTTTCCTATATACGAACCCAAAGAGCCAGTTATATAATTTGACAGTAAATTAGGGAATGAAGTTATCGAGTTCTTGGAATACATTGGTAACTTGGTTGGTTTGGAATGCGTCGAAGACTTGCCCGCTTCAATGTCCGATCTGTTTTGGGGTTGATCAATCTCGGTACCAGAAAACAACGGTTGCTGTAAAGGGTCAACATACAGTGGATGCTTACTGTACAGATTTGACAGATTTATAGTTGACAGTTGTTGTCCGGAGAACATAGGCGGCGCGTGGGAATGCGGATGGCCGAAAGGGTATAACAGTTGAACATCCAATGGCGCATAGAGTGGAATGGGCTGGGCAATGAGATGAAACGACGTCGGCGCGTGAGTCACTTTTTGGTTAGACAGCGGCAGTATGGCTGCGAGACTACTCCTGTTGGGTAGATTGGCGGTTTCTATAGGTTTTTGAGCAATTTCTCCATGGCGGCGCCGATTCCCATGACGGTAGCGACGGTGACGGGTTCAGTTTCGATCTAGGTTTCCCCTAGGTTAGTTTCTAGGATTTCGTTATTGCTTTGCTTTGATACCATATTGAAAGCAATTAACACCAACATGAGGCTTACGTGGAAATCCGAGAACCGGGAGAAAAACCACGATACTTTAGTTTTTATTGTTTTTCTTATGAATGAATATAAAAGGTACTAAGGGAGGGAATAAATAGAATATAATAGGAGTAAGAAAGGAAAAGATATAGAAAATAAAATCTTCCATATTATTCTTTTAAAAAATACTCTGAGGGTAAAACCTTACTAATTCTAACAATAACAATGTTATATGCTAAAAATAGCTTAGTTAACTGCATAAAACCATCAACAAACTCCACAAATCTAACCCCACAAAAATAGCCACTAGCTTCAAATATATAATTGACTGACTTTCCTACAAATTAGAACTTTGTACTAATCTAAAACAAGTTCTAATCCAAAACAGATTGAGTTAACTACCAAGTTTAAAGGTGAATGAAGTGTTTATAGGCTTAATTTTCAAAAACTAAAAATCAAAAACCAAATAATTAGTAAATGGAGGCTAAACTTATGTTTCGAGTAGTCCTTTAACAAGTAAAATAGTCACACAACTGTATTGAGTATCTTATTATCGAGATTGATTACATTTTGAACCGTGTTAATTCAGGTAGGGAGACCAATTATATATGGGCTAGCTGCAATGTAACGCCCCAAAAATTAAGATAATTTATTGGGCGTTATTTTGAATCCATTTAATGAGAATTAATTGATTTAGGTGGGAATTGAAATTAATTAAATATTTCTTGGATGAATATTTAATTAATTAGAGGTTTTGGCACGTGGTGTTTGTTAAGTTTTTGTTTAAATGGTAGGTTAAGAGAATTAAGTAAAGTTGTGGATTTTTAGTGTTGTTGAAGTTGAATTTAATTAAATAATTATGGATGTTATTTAATTAAATTGTGGGGTGGAAAGTTTGTTGGAGATTGAATAATTATATGTATATGTGGAAATATATATATATAATTATTATGTTAAAGGAAACGATAATTATATTTGTTGAAATATAATTATTTAAGGAAAACATAGTTGTATTTTTGGGAAAGGATATTTATTAAAGGAGAAAAAGTAAAATAATTATATTTTGGGAAAATATAATTATTTGTAAAAGGATAATTACTTTGGAGAAAGATAAACAATAATTAATTATTGTGGAAGATAATTAATTATTTTGGAGGAAGATAAATAATAATTAATTTTTTTTTGTGGAAGATAATTAATTATTTTGGAGAAAGATAAATAATAATTAATTATTGTGGAAGGTAATTAATTATTTTGGAGAAAGATAAATAATAATTAATTATTGTGGAAAATAATTAATTATTCTGTAGAAAGATAAATATTAATTCTGGAGTGAAGTTGTTATGGTTGGGTTAAGATAATTCATGTTGGAAGTTATAAGTGATTTATTGGAAAAGATTTGATTGATTAAATTAATTGAGGACTTAAGTTAATTTGAGATTTTGGAGGGAAAAGTTAGTTTTGGTGGAATTGTAATTAATTGAGTATATATATATGGATATATATATTTAATTAATAATATGGAAAAGTGAAGTTAATTATATGATGGAATATAATTATATTTGTTTGGAAAAGAAGATAATCCATAAGGAGAGAGATGGTTGATTTGATTGGACAAAAAAGATATATATTTATTTGCAAGAGAGAATAATGGTTTAAATAAATATATATTTATTGTAGATTTTGGTGAGAGAAAAATAATAATAATAAAGAAGTATTATTATTATTACTAATAGTTATAAATGCCTAAGATTAAGGCATTGATTTAGGAAAGATAATGGGAATAAAGATATATGTATATTTTTGGTATTATATATATATCCTAAAAGGAAAAGGAAAAGAAAAAATAATAATAAATATTATTGTTATTATATATATCCTAAAGGGAAAAGGAAAAGGAAATAATAATTATTATTATTATTGTTATTATTTGGGTCTATAAATAGATTGGAATGCTTAAGTTGGAAAATAAAGGAAAAAGAAAAAGGTTCTTCATCTTCTTCTCTAAGATAACCCTCTGCTGTCGCCGCCTCAGTTGAAGTTAAGATTGGTCTCTTTGGAAGCTTGAGGATTTAAAGTGATGAATTTTTTCCATCAAGGATAAGAGAATTTTTCAACCTTCATTTGAGTAACCTTGGTAAGCAAATAAAATTAAATTAATATTTTGGATCTATTTGAGGTTTCTTTAAAGGTTCAATTGGCTAAACTTTTTAAGATTTAAATCTTGGATTTTTCCCAATCAAGGTTGAATTGGTTTCAACCTCCTCTTTTTAGAAAGTTAATTAATTTGGGAGAATTTTTGGATGTTAGCCAATTGCTAATTTCATTAATTAAGATACTAAGTGTTCCTTTTATGATTAGGATCAAGTTAATTGGAGAATTTTACTGTCAACTAGGGAGTACCTTTGTTTGGCTAAAATCTCCAGGTAAGAGATTCTTCTACTAGACCTTCGAACTGAATTCAAGAGACCGCATGTAATTATGATTATGCATTGATGGTAGCTAAAATGCATAACTTGATGCTACTGATAATGACTGTCATTGTATTGATGTTGATGATGATGACTGAGATTATTATGTTGATGATTGATGATGATAGTTGATGTTGATGATGATGACTGAGATTATTATGTTGATGATTGATGATGATGACTGATGTTATGTTAAGGACTGATAGATTGATGTTGATGATTGTTAATGCATGATATATTAGTCACATGATTAAGGACGTTAAGATTAATACTCATGCCATGTTATGATGTTATGTTATGCTACATGCTATGGATAGGGTGTTCTGTTAACTTTGTCTATTAGAGTCGTACCTGCATGGGTGTCCTTCGGGATCACCACCTATTTAGGACTGTGTGGTCCGACGGGACGCCAGTCTAGCATGTATATAGATATGATTCGAGTGATTCGACGGGGTCCTCGCATCCCGATTGTCTTAGTGTTACCCCCGGTTCACTACAGACCAGCATGTCCTAGGTGCTCCCCCGGGACACCGAAGACCAGATTTTCGTTCCTACGGGAGCGCATGTTGCACGTGTTCGGGAACGTGCCAGAGATTGGGTACCATTTTCAGGACTCTAATGGGAAGTTAACAGACACCTAGCGGGACTAGTAGTAGGTCCCTTACTGAGTATATGTTTATACTCACTCTTTCTATGTTTAACATTTCAGGCGAAGGTAAAGGTAGAGGAAAGCTGGCGAGCGACAGAGAAGGATTCGTGGCATGCCATATGGGGACTCAGTTTTGCTTCCGCGTTTATGTTTCAGTGTTTTAATATTCCGTTTTTAATGAAAATTTATTCTTCCCTCGTTTCAAAAAAGGTGTCTCTTGTCATTGTTTCTTTTTAGTAACGACCTCAGCTTAGTATAAAAAGTTGGGTCGTTACATGCAAAGGGAGAAAGGGGGGTAAGAACAGTGTTGGAAATGCTGAAGAATGAGTTAGAGATTAGTATGACACTTTCTGGTTGCCCATGTATCAAAGACATTACTAGAAGCCATGTGAGGACAAACACACACTATGATAAGCTTCATTCTATGCTTTGAATGTCAACTGAACCAGTGAATGTGGATGAGTTCGAAGAATTGGCTAGGCAGGCACTTCCAAGAATGTATTACGATTACTATGCAGGAGGAGCAGAGGACCAGCACACACTTAGGCAGAACATACAAGCTTTCTGTAGAATCACGATACAACCTCGAATTCTTGTTGACGTGAGTAAAATTGATATGTCAACAACGATCTTGGGCTATCGTATCTCTGCACCTATTATGGTTGCTCCAACCGGTTCTCATAAGTTGGCATACCATGAAGGAGAGTTAGCCACAGCCAGAGCGGCTGCGGCTGCAAAAACTATAATGGTTCTATCCCTTGCTTCCTCCTACTCAATGGAGGAAGTTGCCTCTAGCTGCAATGCTATCCGTTTCTTTCAATTATATGTTTTCAAACAGCGTGATGTCTCGACTCTGCTAGTACAAAGAGCTGAGAGATTTGGATATAAGGCCATTGTTCTGACTGCTGATACGCCTCGACTTGGTAGAAGGGAGGCTGATATAAAGAACAAGATGATTGCACCACCACAGAAGAATCTTGAAGGCTTGTTGTCTGTTAAAGTTGAAGTTGAGTCTGATCAAGGTTCGTTATTAGAGTCTTTTGTTAATGAGGCCTTTGACCCATCCCTTTGTTGGAAAGATGTAGCATGGTTGAAATCAATCACTAGCTTGCCAATTCTGATCAAGGGAATTCTCACACATGAAGATGCAATTAAGGCTGTGGAAGTAGGTGTTGATGGAATTATTGTCTCCAATCATGGAGCTCGCCAACTAGATTTTTCTCCTGCCACCGTTTCTGCTCTTGAAGAGATAGTTCATGCTGTGAAGGGTAAAGTTCCTGTGCTGTTAGATGGAGGTGTGAGGCGAGGAACAGATATTTTTAAGGCATTAGCCCTTGGTGCACAGGCAGTTCTTGGAGAAAGGGGGGTAAGAACAGTGTTGGAAATGCTGAAGAATGAGTTAGAGATTAGTATGACACTTTCTGGTTGCCCATGTATCAAAGACATTACTAGAAGCCATGTGAGGACAAACACACACTATGATAAGCTTCATTCTATGCTTTGA ATGTCAACTGAACCAGTGAATGTGGATGAGTTCGAAGAATTGGCTAGGCAGGCACTTCCAAGAATGTATTACGATTACTATGCAGGAGGAGCAGAGGACCAGCACACACTTAGGCAGAACATACAAGCTTTCTGTAGAATCACGATACAACCTCGAATTCTTGTTGACGTGAGTAAAATTGATATGTCAACAACGATCTTGGGCTATCGTATCTCTGCACCTATTATGGTTGCTCCAACCGGTTCTCATAAGTTGGCATACCATGAAGGAGAGTTAGCCACAGCCAGAGCGGCTGCGGCTGCAAAAACTATAATGGTTCTATCCCTTGCTTCCTCCTACTCAATGGAGGAAGTTGCCTCTAGCTGCAATGCTATCCGTTTCTTTCAATTATATGTTTTCAAACAGCGTGATGTCTCGACTCTGCTAGTACAAAGAGCTGAGAGATTTGGATATAAGGCCATTGTTCTGACTGCTGATACGCCTCGACTTGGTAGAAGGGAGGCTGATATAAAGAACAAGATGATTGCACCACCACAGAAGAATCTTGAAGGCTTGTTGTCTGTTAAAGTTGAAGTTGAGTCTGATCAAGGTTCGTTATTAGAGTCTTTTGTTAATGAGGCCTTTGACCCATCCCTTTGTTGGAAAGATGTAGCATGGTTGAAATCAATCACTAGCTTGCCAATTCTGATCAAGGGAATTCTCACACATGAAGATGCAATTAAGGCTGTGGAAGTAGGTGTTGATGGAATTATTGTCTCCAATCATGGAGCTCGCCAACTAGATTTTTCTCCTGCCACCGTTTCTGCTCTTGAAGAGATAGTTCATGCTGTGAAGGGTAAAGTTCCTGTGCTGTTAGATGGAGGTGTGAGGCGAGGAACAGATATTTTTAAGGCATTAGCCCTTGGTGCACAGGCAGTTCTTGGAGAAAGGGGGGTAAGAACAGTGTTGGAAATGCTGAAGAATGAGTTAGAGATTAGTATGACACTTTCTGGTTGCCCATGTATCAAAGACATTACTAGAAGCCATGTGAGGACAAACACACACTATGATAAGCTTCATTCTATGCTTTGA MSTEPVNVDEFEELARQALPRMYYDYYAGGAEDQHTLRQNIQAFCRITIQPRILVDVSKIDMSTTILGYRISAPIMVAPTGSHKLAYHEGELATARAAAAAKTIMVLSLASSYSMEEVASSCNAIRFFQLYVFKQRDVSTLLVQRAERFGYKAIVLTADTPRLGRREADIKNKMIAPPQKNLEGLLSVKVEVESDQGSLLESFVNEAFDPSLCWKDVAWLKSITSLPILIKGILTHEDAIKAVEVGVDGIIVSNHGARQLDFSPATVSALEEIVHAVKGKVPVLLDGGVRRGTDIFKALALGAQAVLGERGVRTVLEMLKNELEISMTLSGCPCIKDITRSHVRTNTHYDKLHSML Homology
BLAST of IVF0013259 vs. ExPASy Swiss-Prot
Match: Q9LJH5 (Peroxisomal (S)-2-hydroxy-acid oxidase GLO4 OS=Arabidopsis thaliana OX=3702 GN=GLO4 PE=2 SV=1) HSP 1 Score: 485.0 bits (1247), Expect = 7.5e-136 Identity = 243/363 (66.94%), Postives = 301/363 (82.92%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy Swiss-Prot
Match: Q24JJ8 (Peroxisomal (S)-2-hydroxy-acid oxidase GLO3 OS=Arabidopsis thaliana OX=3702 GN=GLO3 PE=2 SV=1) HSP 1 Score: 484.6 bits (1246), Expect = 9.8e-136 Identity = 245/363 (67.49%), Postives = 296/363 (81.54%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy Swiss-Prot
Match: B8B8K5 (Peroxisomal (S)-2-hydroxy-acid oxidase GLO4 OS=Oryza sativa subsp. indica OX=39946 GN=GLO4 PE=3 SV=2) HSP 1 Score: 441.4 bits (1134), Expect = 9.5e-123 Identity = 226/364 (62.09%), Postives = 285/364 (78.30%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy Swiss-Prot
Match: Q8H3I4 (Peroxisomal (S)-2-hydroxy-acid oxidase GLO4 OS=Oryza sativa subsp. japonica OX=39947 GN=GLO4 PE=1 SV=2) HSP 1 Score: 440.3 bits (1131), Expect = 2.1e-122 Identity = 226/364 (62.09%), Postives = 284/364 (78.02%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy Swiss-Prot
Match: B8B7C5 (Peroxisomal (S)-2-hydroxy-acid oxidase GLO5 OS=Oryza sativa subsp. indica OX=39946 GN=GLO5 PE=3 SV=1) HSP 1 Score: 397.9 bits (1021), Expect = 1.2e-109 Identity = 216/367 (58.86%), Postives = 270/367 (73.57%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy TrEMBL
Match: A0A0A0LBZ1 ((S)-2-hydroxy-acid oxidase OS=Cucumis sativus OX=3659 GN=Csa_3G645970 PE=3 SV=1) HSP 1 Score: 657.5 bits (1695), Expect = 3.1e-185 Identity = 337/368 (91.58%), Postives = 348/368 (94.57%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy TrEMBL
Match: A0A5D3D6K0 ((S)-2-hydroxy-acid oxidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold522G00310 PE=3 SV=1) HSP 1 Score: 591.3 bits (1523), Expect = 2.7e-165 Identity = 307/307 (100.00%), Postives = 307/307 (100.00%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy TrEMBL
Match: A0A1S3CCY6 ((S)-2-hydroxy-acid oxidase OS=Cucumis melo OX=3656 GN=LOC103499256 PE=3 SV=1) HSP 1 Score: 591.3 bits (1523), Expect = 2.7e-165 Identity = 307/307 (100.00%), Postives = 307/307 (100.00%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy TrEMBL
Match: A0A6J1D2A9 ((S)-2-hydroxy-acid oxidase OS=Momordica charantia OX=3673 GN=LOC111016934 PE=3 SV=1) HSP 1 Score: 575.1 bits (1481), Expect = 2.0e-160 Identity = 307/369 (83.20%), Postives = 330/369 (89.43%), Query Frame = 0
BLAST of IVF0013259 vs. ExPASy TrEMBL
Match: A0A6J1D4P5 ((S)-2-hydroxy-acid oxidase OS=Momordica charantia OX=3673 GN=LOC111016934 PE=3 SV=1) HSP 1 Score: 575.1 bits (1481), Expect = 2.0e-160 Identity = 307/369 (83.20%), Postives = 330/369 (89.43%), Query Frame = 0
BLAST of IVF0013259 vs. NCBI nr
Match: XP_004144436.1 (peroxisomal (S)-2-hydroxy-acid oxidase GLO4 isoform X1 [Cucumis sativus] >XP_011651715.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO4 isoform X1 [Cucumis sativus]) HSP 1 Score: 659 bits (1701), Expect = 8.82e-238 Identity = 337/368 (91.58%), Postives = 348/368 (94.57%), Query Frame = 0
BLAST of IVF0013259 vs. NCBI nr
Match: XP_038894778.1 (peroxisomal (S)-2-hydroxy-acid oxidase GLO3-like isoform X1 [Benincasa hispida] >XP_038894784.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO3-like isoform X1 [Benincasa hispida] >XP_038894792.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO3-like isoform X1 [Benincasa hispida] >XP_038894801.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO3-like isoform X1 [Benincasa hispida]) HSP 1 Score: 631 bits (1628), Expect = 1.09e-226 Identity = 324/368 (88.04%), Postives = 344/368 (93.48%), Query Frame = 0
BLAST of IVF0013259 vs. NCBI nr
Match: XP_008460443.1 (PREDICTED: peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Cucumis melo] >KAA0053518.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Cucumis melo var. makuwa] >TYK19113.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Cucumis melo var. makuwa]) HSP 1 Score: 594 bits (1531), Expect = 9.46e-213 Identity = 307/307 (100.00%), Postives = 307/307 (100.00%), Query Frame = 0
BLAST of IVF0013259 vs. NCBI nr
Match: KAE8650883.1 (hypothetical protein Csa_002366 [Cucumis sativus]) HSP 1 Score: 603 bits (1554), Expect = 4.14e-211 Identity = 311/343 (90.67%), Postives = 322/343 (93.88%), Query Frame = 0
BLAST of IVF0013259 vs. NCBI nr
Match: XP_022148212.1 (peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Momordica charantia] >XP_022148213.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Momordica charantia] >XP_022148214.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Momordica charantia] >XP_022148215.1 peroxisomal (S)-2-hydroxy-acid oxidase GLO4-like isoform X2 [Momordica charantia]) HSP 1 Score: 577 bits (1486), Expect = 4.44e-205 Identity = 307/369 (83.20%), Postives = 330/369 (89.43%), Query Frame = 0
BLAST of IVF0013259 vs. TAIR 10
Match: AT3G14130.1 (Aldolase-type TIM barrel family protein ) HSP 1 Score: 485.0 bits (1247), Expect = 5.3e-137 Identity = 243/363 (66.94%), Postives = 301/363 (82.92%), Query Frame = 0
BLAST of IVF0013259 vs. TAIR 10
Match: AT3G14150.1 (Aldolase-type TIM barrel family protein ) HSP 1 Score: 484.6 bits (1246), Expect = 7.0e-137 Identity = 245/363 (67.49%), Postives = 296/363 (81.54%), Query Frame = 0
BLAST of IVF0013259 vs. TAIR 10
Match: AT3G14150.2 (Aldolase-type TIM barrel family protein ) HSP 1 Score: 484.6 bits (1246), Expect = 7.0e-137 Identity = 245/363 (67.49%), Postives = 296/363 (81.54%), Query Frame = 0
BLAST of IVF0013259 vs. TAIR 10
Match: AT3G14420.1 (Aldolase-type TIM barrel family protein ) HSP 1 Score: 397.5 bits (1020), Expect = 1.1e-110 Identity = 210/357 (58.82%), Postives = 266/357 (74.51%), Query Frame = 0
BLAST of IVF0013259 vs. TAIR 10
Match: AT3G14420.2 (Aldolase-type TIM barrel family protein ) HSP 1 Score: 397.5 bits (1020), Expect = 1.1e-110 Identity = 210/357 (58.82%), Postives = 266/357 (74.51%), 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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