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PI0027882 (gene) Melon (PI 482460) 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.CGTTAAGATGCCATGAACTAGTAAGTATTGAAAACTCTTTCGTTCTAACGATCCTCGAAAAACTCTTTTTGATTGGTTTGTCCAAGCTGATCCATCCACGTCGCCTTACAAGCATGCGTAAACATTTGGCTTTCCGTTTTAGATTTCGATTACCTTCGTTGAAACGTAACTACAAGATTTTAAATTATTTCAACTCACATTTGTAATTCCATAATATCATTTTCCGAAATTAAAATCAGTTTAGAAAGAAACTTTGGAAGATGATGATGATGACTACGATGAGGAAGAAATCTGCCGGTTTTCTCTTCGTATACTCTCGATTTTTTCATTCAGATCAGCCTTTGAATATTCATCACAACAACTCGCTTCTCCGTTCAGGTTTCTTTCACCTCTCGCTGATTTCACTGCAATCTGACTGATTGATATGCATTACTAGTTTGTTTACCTGGTTTTCTTTCATTCTCCGTCATATTTAGGAACTTCCTTCTACACGCCAATTTCACGATATTTTGGTTCTGTTCGGGAATGCAGAAAAGCTTTTCAGGCTTCTGCGATCAATCATTTTAGAATGCCTTCTGGATTTCAGTTCAGACGCATTACTTCATTATCGTCAGTGGTTCAGAGAAATCCTTCATTTTCGACGCTAAATTCTGAAGATATCGAGTTTTTCCGGAGTATTTTGGGGGAGAAAAATGTAGTTCAGGATGAGGATAGGCTTTTGGATGCGAATACTGATTGGTTGCGGAAGTACAAAGGGTCGAGTAAGCTTTTACTACAACCTAGGAGCACAGAAGAGGTTTAATTCTTCTTCATTGAGTTGAGGCTATTTTGTTTTTTTGTTTTTGTTTTTATAGTCAATGCCTTGTTGAAGTCAAAGTTCTGAAGCTAATGGTTAATGGTTTGAATTATAGAATGTTGAAATATAGTGAAAAATGAGGCCATGGTCTAATTAATCTTGTAGAAGATATACATTTTTTTTTTTAGGTAGCTCATGTTCTGCCTGACTCTGGATCTTGAGGAATCTCAATTAGTTCAGCAACTTCTCTAAGTAGTTCTGAACTCGATAGATTCTTTACTTCAATAGCATTCATCTCTTCTGTGATGGATTCTGTTTTTTCCTAACCTCTTTTTCCGCAATAGCATTTATTTCTTCAATAGCATTCAATCTATGTTAAATGACTCTTTTTCCGCATCCTCGACTGAGATAAATGTAGGCCAACATGTCTCTAATTGTAAAAGACATGGAACTATTTCGTAACAATTTCACCCTTACAATATTCCAACTGTGCTACTTCAGGTTCAGTCTCATCACTTGAAATACTCATCTATTGGTTACCTGAGAAAAAATGGTATTCAAACCAAGAAATGATGCTTGTAAGGGATGCGGTGAATGTGGAACCTAGCTCAGTTATATCTTTCTTACAATGTGAAAGTTGAAGAAGGCTATGAAAAGGATTGGATTCTGGCATTGATAAATAACCAAGCATGGAGCTTGGTTATGAAACTCCTTAAGAAAATATATGGGTGAACTTGCAAGTGGGAACTCAAATCAAAAGGCTTTTTGTAGCGACTATCCCATGGTTCAAGTAGGGCTTATTGCCAATAGATATCACTAACATGCTAACTTGGCATTTGCTTCTGCTGATAACTTCAATCTTATACAAGTAGACATATTGTGCACATGGAAACATTTATGAACTTACTGCAACTTTCAAATAAGGATCCTGCTCTTAAGTATCTTAGACCTCTGAATTATTTTCTTGGCATGGAAGTGCTCCATCCTGCTTAAGATGGTCTACTCTTGTCTGAATCCAAATACTTTCTGATATTACAACTTTGAAATAAGGATTCTGTGAGATTGAAAGTGTCATCATGGTGTTTGCTTTCTATGGCCTTTGCTATTTTCTCTTAACAAGAGATTTATCTGAATTGAGATGGTTTTATTCTTCCCTTGTAATTGTATTTAGATGTGTTACTTTTTCCTGTTTTAATTCTCTACTTTATGGAGTCTGTAATGAGGGAGGGAGGGACATATCCGCTGCATTGTTGGTAAAGCTGTTTTCTACATTTAAGTAATCTTGGGTGTTCTTTTCCCTTTTGAGCGATAACATTCATCAACTTATTTTTTGGGTGTTTCTTGGCTTCCAAACCTCATATATTATGGCTCTACACATGATTAAAGCTCTTCTCTCGGAATTGTGGATGGAAAGAAATTTGAGAACTTTTTAAAACAAACATCTCCCATGGCTTGACCATAAGACTCTGCCAGATTGTAAGTGTCATCACAGTGTTCTCTTTCTATGGCTTTCGCTACAAGATATTTATCTGAATTGGAATGTTCTTATATTGCCTTAGTAATTGTATTTGGATAATTAGATGTGTTATTTTTGTTTTATTTTCTGTCTCAATTTACTCCCTTTTGGGGTTGGTAATTTTTTATAACAGTCTTTTATTCATTTCTTCAACTTTCATCTTCTTGTTCAAAACAGAAGTTATTATAATTAATTGGTAACTAGTATTTTATAATTAGCTAACTATTTCCATTCCCGTGAGGGGCCATAAATAACAATGTTGACTTGTATCACGGAGTTTTTTTCTTAATCATAGATTGAAATGGAATGAATTTAGAGATTTTTCTCTCATCTTTTGGAGATTTTTGTTGTTTAGCCTTAGATTGGGTTAAACTGAAAATCGAGCGTGTGTGTTAAGGAAGCTCACTATAAAAGCTGGAAGTTAGTCTGTTTAAGTTTTCTGTTGATCTGTACTGTTGGTTTTTCTGCTGGAGGACAAAGCTGTAAAATGGAATCAAATTGGAAAAAAAATTGCTTACATTTTAATTTTCCATTTTTTCTCTTCTAATGAGATGCCTTTGGACAGATATTTTTAGTTAACTAAGGAATGATATGTTTGTTTGACTACTTTTCTCAGGTCTCTCAGATACTTAAATATTGCAACTCCAGAGACTTGCCTATTGTACCCCAAGGTGGAAATACTGGTCTTGTTGGCGGAAGTGTTCCAGTTTTTGATGAAGTAATATAGTTGTTTAGTTTTTTATTTGGTTTCTATACGACATCTGATTAGTGAAACACATATCTCCCTTTACATGCTTACGATCTGGATAATTATTTTGGTTTTGGGGTTGGGGATATCCTGTTGGCTATTAGGTAAATGTCTGGTTATTAAGCTGTAGCCCGTCTACCAATATGTGCACATACAAATTGCTTGTTATTTATATGAATAAATTTTGTGGGGACGCACAATTATGATATTATGTGAGTAATATCATTAAGTGCAGAAAACCCATCCATTGAGTAACATCATCTCTGAATAGCTTTCTTTTTAAATTTTAACAAAAAGGAATGGGATTCTTTTGTACCTTTTGCAGGTAATAATTAACCTTGGATTGATGAATGATATCGTATCTTTTGACAAGGTAAACACCATTTTTCATTTGTTTCCAAGTTTCTCTTTCTATCTACTCTCCCTATTTACTTTAAGTTTTGACTACAAGTTGGAAGCACCATTTTTCACCTTTTTTTAGGAAAGATCTTGTAACTTGTTGGTTCTCAAGGAAGTGGCACTCGTTGGTTGGCCAATTGTATCCTCTACCGGAAGGTGGAGGAAGCCGTAAATCATATCTTATGGAGTTGTGATTATGCATGTTTTTTTTGGAGTCTATGGATGCGTTTGGTCTTCAGCTTGTTAGTCTTGGAGGTTTGTGGGGATGATCAAGGAGTTCCTCCTCCATTTACCTTTCAAGGATAAAGGGTCGGTTCTTGTGGCTTGCTCGGGTGTGAGGTGTGTTTTATTGTGGGGTTTCTGGGGAGAGTGGAACAATGGAATGTTTTGAGGGATGGAAAAAAATCCTCGAGTGGATTGGTCTCTTATTCATTTCCATGTTTTCTTCTGGGCTTCAATAACAAAGGTTGTTTGTACTCATTAGGTCTTATTTTACAGGACTGAAGGTCTTTTCTTTGATGGCTTTTCTTTTTGGGATAAGAACCCTAAATCCTTTTCTTTGGTGGCTTCTTATTTATGGGTTTATCTTTTGATGCCCGTGTATTCTTTCCTTTTTTCTCAATGAAAAGACGTTTCTTCATAAAAGAAATCAAATTCCTTACCAATTTGGGTCGACAAATCAAGACGACAGTTTTGTGAAAGAAGTTGGAAATTATTTTAGTGAAGATTTATGTGCATTTGGAGGGATTTTTGAGGTTAGACCAGTTGACTCAAGTGCATTTCATAAATTTTTTTAGCAATGATTTGCAATCAACAGTCATGTGCCGGACAGAGGTATTGGGTCCTAATTTCCTGGCACAAAAAGTAAAAGATTTGTGAAATTTGAATGCTTTATCGGTGTTTTGATCAATTCAAGGCATTTCAGTTGGAGCATGTCATAAACATAGAAAGAAGGCGAGGGAAGGAGGGGGGGAGGGAATTGATATAGTGAGTTAGTTTACTAGTTTTGGTTAAATTCTTTTTAGTTTTTAAAACACATAATTTGCCACTAAATCCACCATAAATCCTTTGGGTTAGATTTCTCTCCTTTGTCTTCATGGCTACACCATAACATAACTATTCTTCTTTAATAATTATTTCATCAATACTTATTTGGTATTTATTCTGTTACGTTCTTCAGGTTAGCGGCATACTTGTTTGTGAAGCCGGTGGAATCTTAGAAAACTTGTCCTCTTTTCTGGATAACCAAGGGTAACACTCTTGCCAACATACACTTCTTGAAAATTTCCTTTTGGTAATTAAAAAATAACATATAAACGTTGATCTTCCTTATATATATATATATATTAACAAAGATTCAAATGCAAACAATTCTGTTATAAACGCATGACACTCCTAGAAAATAAACTATATAATTGACGAGTCAAATGAAAAATGTACATCAATTTCATTATTGGCATTGGCAATTGGAATGATTGCAAAAGTGTTTACAAACGACTCTCCAATTTTCTACCTGATACCTATTAGTACTGTAATGACAATGATAATGGTAACACTTGATGCAACGACCTTAGTTAAATAGGACTGGTCTGTTCTAGGCTCTACAACTGTGTAATACACTTGGTGCATGGGCCAATGAGTATAACATGATGTCAACTTTACTAGTTTCTTTCACTTTCCTGCACCTTTTCCCTGCCCAGCTGAAGAATTCTTTTTCCTGCTCAGCATCAAATTATTTTCATATATTTTATGCTTCATTCAGATTCATAATGCCACTGGACTTAGGTGCTAAAGGAAGCTGCCAGATTGGTGGAAATGTTTCTACTAATGCAGGTGGTTTGCGCCTTGTTCGTTATGGATCTCTTCATGGCAGTGTACTTGGTAAGGACTGTATATGGTCATTCTGATTCATGATATACATACATAATTACGTCTCTTTTTTTAATTGATACTCCAAAGAAAGTAGCATTTGATCGTATACCTGTTCTTGTTAAAGAAGTGAATTATAAAGGAGCTAAAGCTTTGATGGGGGTCTGATAAGTGGCTGTGACTCAGTTGCAATTGCAAATATGGGAATTTGAATTTGGTGCTTGCAAAATCTTCTCTGAAAGCTTATATCCTCAGTATGTTTTTGTACCTTTCAGGACTTGAAGTTGTTTTAGCAGATGGTAGTGTGCTCGACATGCTGGGAACTTTAAGAAAAGATAATACTGGATATGATTTAAAGCATTTGTTTATAGGTGTGTAATTATTTTACCTATAAATCTACGATCTCTATAAGAAGTTGCATCAGCACCGATTATGCTTTATCTTGTAGGCAGTGAAGGTACCTTGGGAATTATAACCAAGATTTCAATTCTTACCCCACCTAAATTACCTGCTACTAATGTTGCATTTCTTGGCTGTAAAGATTACTCAAGCTGCCAGGTATCCCACCTTTGGTTTTTATGTTCGCCATAAATGTACTTTTTCTGAATAATTCTTTTTGATCCAGTCAAATTATGAACCAATAGTAGCACAACTTTTAAAATCTTTAATGTGTATGGCTAGATGGAAGTTAATTGAAAATTGTAAATCTTCAATCTGCATGAGTACTCAAAACAAATTAGTAAAACCATTAAAGGAGTGTTTGGGCCACCAACTTCACTCCATATTTAGGGCTCCAATTATATAGTTGTTGTTTTCAACTATTCTAACATACAATTAACCATAATATTACTATTTCAAATCCCTCTTTGGTACAATGTTTACTAATTTCCTACCCAAACTAAAATAATATGTACCCCAAACACAAATTATTACAACCTAGACCAACATAGTCTACACCTTTGAATACATTCTATTACAACTTACCTGCTATTATCCACATACTAAAAAAATTTTCGAGTATAATAACTAATTCAGTGCCCCAAACGCCACTTAAAAAATCTCCAATTATCAAGTCTAAATTGTTATTGTAAACTAATCCTTCAGCCTTAACGAATTCTTTTTGCTTCTCCTTTCTCTTATTGGGAAAAAAAATTCCCGTTTGCTCCTTTTTTTGCAAAAGCACTTATATTTTTTTTCCTGACATTTATGTACTCATCTATGAAATAGAAACTTCTAGTGGATGCAAAGAGGAAACTTGGGGAGATTCTTTCAGCATTTGAGTTCCTGGATAACTTGTCGATGGATTTGGTGAGGTCTCTTCATCCTTATTTTCTTCTTCAAATCGTGGATAACTTAATAGTTTATTTTTTCTAGAAAAACCTTTATAGATTGAGAAATCTTTGGGGATAGTTTTCTTATTTGGATGTGATACTACCAGTTGAAAGTCAAGAGCCTTTACGATGCATGATCCGATGAACAATTTATTTTAATTTTTAGAGACAATAAAAACATTGAACACAAGTAATATGCATTTGACAAAATTTGTTTTAAATTGTTTCTAAAACAACTATAGATTGCTGAAGGATTTTAATGATAGAAGGTTGTTTTATTTGTTCTTCGAATGTTGCAAGAATTCAATTCAATAAATATTAATCATTAACCACTCGTAGCTGTATAAAAATGTTATCCTTTGACTTAATTGATTTAAGAATTTATTATAAGCCTGTATAATTATTTTCCTGAATTTATTAATGCGGTTAACTCTTCCGGATCCAACAAGCACCATGGTAAGCTGGTCTTGTCTTGCATTGTGATTCATAGTGATGGAACAGCCTAAAACTTGATAGAATGAGATTCCTAAGCAAATATTGAGAATGTTCTATGATTTTTTTCAAAAGTGAATTAATGCTAGCCTCAATGACGTATGTTTGCTAGCCTCAACTACTTATGTTTGCCTTGTCCCAAAGAAATAAAATGTAAAGTTGTTGACAATTTCAAACCTATCAGCCTGTGTCCTTGTAGACACAAAATCATGGTAAAAGTTCTCTCCAGATGGTTCTGTCTTCTACTCTAACCAAGTTTCAATCTGCTTTTGTTTCTGATAGGCAAATAAATTGTGCATGCTTTCTTATTGCAAACGAGCTCGTTGATGGAAAAGAAAATGTTGTTTTGTTTGATCCTGAACCATCTTTTACCAGAATAATTTGGGAATTACTGGGGGTTATTCTACTTGCTTAGGCTTTGGTACTTTGTGGAGAAATTGGATTTACGCTTGCATCCCCACCACAAATCATTATATTATTTTAAGTCAAAACCCAAGCTACAAGGTCATTCGCCCGTTGGATCGCTCTCTTATTTTCTCATCAATATTGTTGTGAAATATCTATGCTGGCTCCTGGACTTGTTGAAATACTTTCCCGTTGGAAATAAATCCCTTGCTATTACACCATTCTTTTGTTGAGGAAAATCTTGACAATCTCCATAATATTGTAAAGACATTTGAAGAGCTATGTAGCCTTAATTTTAGTTATGGTACATTGGAGGTCGTTAGCTTTAGTTGTGAGGCATCCCTCCTGGAAGAGATCGCTCTTGGCTTTGGTTGCAAATTTGGCTTGTTTCTTATTTAGACTTCCCCTGAATGAGTAGCCTAGGTCTTTCTCCTTTTAGGGTTTCATTATTGAAAGAATTGACAAAAACCTCCAAGAGTGAAAGAATACCTTTATTTCTAAAGGAGGCGACCCTTTTCCTTAGCTTGCCTCTAGTGTTTTAATTTACTGATTTACATATTTTCACCTTTTTATACTCATTCTCAGGGAACTATTTTTGTGCTTATTATCTATGAAAGAGATATGTTTCTATTTTCTTCTTTTGTACTTTCAAAGTGATACTCACTTCACTCTATGTGTATAGGTTCTCAATCATTTAGAAGGTATTCGGAATCCATTGCCTCCGACAATGCACAACTTTTATGTTTTGATCGAAACGACAGGCACTGATGAATCATATGACAAGTAACCCATTTACAAGCTTGTAATTCATTTATCTGCTTGGACAGTTCTTTACTGGTGTCATAAAAGATATCCTTGATAATTCGTCATATTTTTATGTATTTGGAATCACCTGTAAGTTCAAAAAGAGAGGAAAATGCACAAAATAAAAATTTTTAGTTGTGAAATCTAGATATCCATAATCCACCAAGATTAAAATGGAAATACATAAGCTGTTGTTCGTAGCTGGGGTTGCTAATACATCTCTGTTTGCTTGCTCATGTCTTTAACATAACACTATGAAAGGCGTTTGAAGTTTATTACTGATAAAAAAATGGCATAGAAAGTCAAGGACGTACTGAGATATTATTGTTTGCCTTAAAAACCTTAAATAGCAAGTAAAACTTATCATTTCGATGCCCTGAATATTGTTCTGAAATCAAACAAAAACTCAAGTAGAAATGCGTTGTCTATAACAGGCGACTACAATTTCTTTTCTTCTACATAATTCACAAATTAACAGAACCTTCATCATTATGTTAGAGCCTGTCATGCTGGAAACTTAAAGATGTTGCTGCTTTGACATGTTATGGTAATTTTATTTGGTTCTATCTTTTACTTGGATTACCAGGGAAAAGCTTGAAGCATTTCTTCTTCGTTCGATGGAAGGTGGTTTAATCTCTGATGGTGTTCTTGCACAAGACATCAACCAAATATCCTCTTTTTGGCAGATCCGTGAGGTATTTATCCCTGCTGTACAGTGGTCTTCAATCAATATTGCTCACATCCCTGCTGTACAGTGGTCTTCAATCAATATTGGTGTCAGTTTTAGGGAACGAATGCTATATGGCACTCAAATATCTTACAGCACCTCTATTCTCACTTATTGATTATTTTCAAGATACTGAAGCATTGAACGTCAATATAAAACTTAAGGGCCCCTGCGTTCTATTTTCAATTGATCGTATCTTTTATCTTCTCTAGTTTGATTTTTGTCTTGACTGTAGGGCATTCCAGAGGCATTGATGAAAGCAGGGGCTGTTTACAAGTATGATTTGTCGTTACCTGTTGAGAAGATGTACGATCTTGTTGAAGAAATGCGAACAAGACTTGGTAAGAGGTATTCCTTGCAGGAACTTGTGATTTTTGAAGACCACGACTTATAAGCACTTCAAAATCTGCTCTCTTTAGGCAACTCCGCTAAAGTAATTGGTTACGGCCACCTTGGAGACGGTAATTTGCATCTGAATATTTCAACTCCACAATACGATGATGCGGTAATTCCATCTGTTCACCCTGTCCAGCTGAAATCTTTTAGGTATTTTGTATCAATTTTTAATCATGTCTGATAACTTCTCAGGTTTTTGCACAAATTGAACCCTTTGTCTATGAGTGGACTTCTAACCATCGTGGAAGCATCAGTGCAGAGCATGGCTTGGGATTGATGAAAGCCAACAAGATTACTTACAGCAAGTCACCTGAAATTGTTCGTATTTTAAAACTTCATGATTTTTTCTATACGTTTTCTTTATTATTTTATTGAAGTATGTCTTAGTTTTATAACATTCTAAACGCACACTAATTCTGATAGGTACAAATCATGGGTTCTATTAAGAAATTGCTGGATCCTCGTGGCATACTCAACCCCTATAAAGTTCTGCCGCACTCCATTCATTCCTAACCTGATCAGGTTCATGACTCGATTCTTCTTATCATGAATAAATACTCGAGTGATTGAGTTTAGCAAAGCATTAGATAGGTGCTTGTGAAATAAAGAACCAACAACAAACAGGTTTGTATGTCGACGCCTAAATCAAATCCAAAAAATGCACATATCTAACAAATATTGCTTCAGAATTCTGAAGGGATGTTGTAGGCAGTCAATCATAAAAGTAAGATGTCAATTCTGTTATATAGAGCTTCCGTTGATATATTAGACATTATATGCTTGCATTATAGTAAAGTACCTGTCATGTTTGAAAAATCCTGCCTCTCATTTGACTTTCGTATATGTAAAACTAACTTGAAATGTGTAGTTGAAATATTGATTTGAGAAAAATCATACTTGACTAGTATTCTTTCTTTTTTGTTTTCTAGTGTAACATTAATAACATATTTTTGAAAATTTAATAAAAAATTTGAGAACTAAGAAAACGTAGCTTTCAAAACCCTGTTTCTTTTACAAGGACCTTACCTTTGATATCTGATTTGTTTTCTTGTACGTTTGAAAATTATCTTATTGGAATGATGTTCACCAAATCCTCCTTGTGGAAGCCTGTAGGATTTTATTCTATCTTTTTCCATTACAAATAGTCTAGAGGGAATCAGAGCACCAATTTCAAGTTGTGTATAGCTTTGGATAGACGCATGTTTGCATGTGTGTAAATTGGTTTTCC CGTTAAGATGCCATGAACTAGTAAGTATTGAAAACTCTTTCGTTCTAACGATCCTCGAAAAACTCTTTTTGATTGGTTTGTCCAAGCTGATCCATCCACGTCGCCTTACAAGCATGCGTAAACATTTGGCTTTCCGTTTTAGATTTCGATTACCTTCGTTGAAACGTAACTACAAGATTTTAAATTATTTCAACTCACATTTGTAATTCCATAATATCATTTTCCGAAATTAAAATCAGTTTAGAAAGAAACTTTGGAAGATGATGATGATGACTACGATGAGGAAGAAATCTGCCGGTTTTCTCTTCGTATACTCTCGATTTTTTCATTCAGATCAGCCTTTGAATATTCATCACAACAACTCGCTTCTCCGTTCAGGAACTTCCTTCTACACGCCAATTTCACGATATTTTGGTTCTGTTCGGGAATGCAGAAAAGCTTTTCAGGCTTCTGCGATCAATCATTTTAGAATGCCTTCTGGATTTCAGTTCAGACGCATTACTTCATTATCGTCAGTGGTTCAGAGAAATCCTTCATTTTCGACGCTAAATTCTGAAGATATCGAGTTTTTCCGGAGTATTTTGGGGGAGAAAAATGTAGTTCAGGATGAGGATAGGCTTTTGGATGCGAATACTGATTGGTTGCGGAAGTACAAAGGGTCGAGTAAGCTTTTACTACAACCTAGGAGCACAGAAGAGGTCTCTCAGATACTTAAATATTGCAACTCCAGAGACTTGCCTATTGTACCCCAAGGTGGAAATACTGGTCTTGTTGGCGGAAGTGTTCCAGTTTTTGATGAAGTAATAATTAACCTTGGATTGATGAATGATATCGTATCTTTTGACAAGGTTAGCGGCATACTTGTTTGTGAAGCCGGTGGAATCTTAGAAAACTTGTCCTCTTTTCTGGATAACCAAGGATTCATAATGCCACTGGACTTAGGTGCTAAAGGAAGCTGCCAGATTGGTGGAAATGTTTCTACTAATGCAGGTGGTTTGCGCCTTGTTCGTTATGGATCTCTTCATGGCAGTGTACTTGGACTTGAAGTTGTTTTAGCAGATGGTAGTGTGCTCGACATGCTGGGAACTTTAAGAAAAGATAATACTGGATATGATTTAAAGCATTTGTTTATAGGCAGTGAAGGTACCTTGGGAATTATAACCAAGATTTCAATTCTTACCCCACCTAAATTACCTGCTACTAATGTTGCATTTCTTGGCTGTAAAGATTACTCAAGCTGCCAGAAACTTCTAGTGGATGCAAAGAGGAAACTTGGGGAGATTCTTTCAGCATTTGAGTTCCTGGATAACTTGTCGATGGATTTGGTTCTCAATCATTTAGAAGGTATTCGGAATCCATTGCCTCCGACAATGCACAACTTTTATGTTTTGATCGAAACGACAGGCACTGATGAATCATATGACAAGGAAAAGCTTGAAGCATTTCTTCTTCGTTCGATGGAAGGTGGTTTAATCTCTGATGGTGTTCTTGCACAAGACATCAACCAAATATCCTCTTTTTGGCAGATCCGTGAGGGCATTCCAGAGGCATTGATGAAAGCAGGGGCTGTTTACAAGTATGATTTGTCGTTACCTGTTGAGAAGATGTACGATCTTGTTGAAGAAATGCGAACAAGACTTGGTAAGAGGTATTCCTTGCAGGAACTTGTGATTTTTGAAGACCACGACTTATAAGCACTTCAAAATCTGCTCTCTTTAGGCAACTCCGCTAAAGTAATTGGTTACGGCCACCTTGGAGACGGTAATTTGCATCTGAATATTTCAACTCCACAATACGATGATGCGGTTTTTGCACAAATTGAACCCTTTGTCTATGAGTGGACTTCTAACCATCGTGGAAGCATCAGTGCAGAGCATGGCTTGGGATTGATGAAAGCCAACAAGATTACTTACAGCAAGTCACCTGAAATTGTACAAATCATGGGTTCTATTAAGAAATTGCTGGATCCTCGTGGCATACTCAACCCCTATAAAGTTCTGCCGCACTCCATTCATTCCTAACCTGATCAGGTTCATGACTCGATTCTTCTTATCATGAATAAATACTCGAGTGATTGAGTTTAGCAAAGCATTAGATAGGTGCTTGTGAAATAAAGAACCAACAACAAACAGGTTTGTATGTCGACGCCTAAATCAAATCCAAAAAATGCACATATCTAACAAATATTGCTTCAGAATTCTGAAGGGATGTTGTAGGCAGTCAATCATAAAAGTAAGATGTCAATTCTGTTATATAGAGCTTCCGTTGATATATTAGACATTATATGCTTGCATTATAGTAAAGTACCTGTCATGTTTGAAAAATCCTGCCTCTCATTTGACTTTCGTATATGTAAAACTAACTTGAAATGTGTAGTTGAAATATTGATTTGAGAAAAATCATACTTGACTAGTATTCTTTCTTTTTTGTTTTCTAGTGTAACATTAATAACATATTTTTGAAAATTTAATAAAAAATTTGAGAACTAAGAAAACGTAGCTTTCAAAACCCTGTTTCTTTTACAAGGACCTTACCTTTGATATCTGATTTGTTTTCTTGTACGTTTGAAAATTATCTTATTGGAATGATGTTCACCAAATCCTCCTTGTGGAAGCCTGTAGGATTTTATTCTATCTTTTTCCATTACAAATAGTCTAGAGGGAATCAGAGCACCAATTTCAAGTTGTGTATAGCTTTGGATAGACGCATGTTTGCATGTGTGTAAATTGGTTTTCC ATGATGATGATGACTACGATGAGGAAGAAATCTGCCGGTTTTCTCTTCGTATACTCTCGATTTTTTCATTCAGATCAGCCTTTGAATATTCATCACAACAACTCGCTTCTCCGTTCAGGAACTTCCTTCTACACGCCAATTTCACGATATTTTGGTTCTGTTCGGGAATGCAGAAAAGCTTTTCAGGCTTCTGCGATCAATCATTTTAGAATGCCTTCTGGATTTCAGTTCAGACGCATTACTTCATTATCGTCAGTGGTTCAGAGAAATCCTTCATTTTCGACGCTAAATTCTGAAGATATCGAGTTTTTCCGGAGTATTTTGGGGGAGAAAAATGTAGTTCAGGATGAGGATAGGCTTTTGGATGCGAATACTGATTGGTTGCGGAAGTACAAAGGGTCGAGTAAGCTTTTACTACAACCTAGGAGCACAGAAGAGGTCTCTCAGATACTTAAATATTGCAACTCCAGAGACTTGCCTATTGTACCCCAAGGTGGAAATACTGGTCTTGTTGGCGGAAGTGTTCCAGTTTTTGATGAAGTAATAATTAACCTTGGATTGATGAATGATATCGTATCTTTTGACAAGGTTAGCGGCATACTTGTTTGTGAAGCCGGTGGAATCTTAGAAAACTTGTCCTCTTTTCTGGATAACCAAGGATTCATAATGCCACTGGACTTAGGTGCTAAAGGAAGCTGCCAGATTGGTGGAAATGTTTCTACTAATGCAGGTGGTTTGCGCCTTGTTCGTTATGGATCTCTTCATGGCAGTGTACTTGGACTTGAAGTTGTTTTAGCAGATGGTAGTGTGCTCGACATGCTGGGAACTTTAAGAAAAGATAATACTGGATATGATTTAAAGCATTTGTTTATAGGCAGTGAAGGTACCTTGGGAATTATAACCAAGATTTCAATTCTTACCCCACCTAAATTACCTGCTACTAATGTTGCATTTCTTGGCTGTAAAGATTACTCAAGCTGCCAGAAACTTCTAGTGGATGCAAAGAGGAAACTTGGGGAGATTCTTTCAGCATTTGAGTTCCTGGATAACTTGTCGATGGATTTGGTTCTCAATCATTTAGAAGGTATTCGGAATCCATTGCCTCCGACAATGCACAACTTTTATGTTTTGATCGAAACGACAGGCACTGATGAATCATATGACAAGGAAAAGCTTGAAGCATTTCTTCTTCGTTCGATGGAAGGTGGTTTAATCTCTGATGGTGTTCTTGCACAAGACATCAACCAAATATCCTCTTTTTGGCAGATCCGTGAGGGCATTCCAGAGGCATTGATGAAAGCAGGGGCTGTTTACAAGTATGATTTGTCGTTACCTGTTGAGAAGATGTACGATCTTGTTGAAGAAATGCGAACAAGACTTGGTAAGAGGTATTCCTTGCAGGAACTTGTGATTTTTGAAGACCACGACTTATAA MMMMTTMRKKSAGFLFVYSRFFHSDQPLNIHHNNSLLRSGTSFYTPISRYFGSVRECRKAFQASAINHFRMPSGFQFRRITSLSSVVQRNPSFSTLNSEDIEFFRSILGEKNVVQDEDRLLDANTDWLRKYKGSSKLLLQPRSTEEVSQILKYCNSRDLPIVPQGGNTGLVGGSVPVFDEVIINLGLMNDIVSFDKVSGILVCEAGGILENLSSFLDNQGFIMPLDLGAKGSCQIGGNVSTNAGGLRLVRYGSLHGSVLGLEVVLADGSVLDMLGTLRKDNTGYDLKHLFIGSEGTLGIITKISILTPPKLPATNVAFLGCKDYSSCQKLLVDAKRKLGEILSAFEFLDNLSMDLVLNHLEGIRNPLPPTMHNFYVLIETTGTDESYDKEKLEAFLLRSMEGGLISDGVLAQDINQISSFWQIREGIPEALMKAGAVYKYDLSLPVEKMYDLVEEMRTRLGKRYSLQELVIFEDHDL Homology
BLAST of PI0027882 vs. ExPASy Swiss-Prot
Match: O23240 (D-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=D2HGDH PE=1 SV=3) HSP 1 Score: 599.7 bits (1545), Expect = 2.8e-170 Identity = 288/381 (75.59%), Postives = 347/381 (91.08%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy Swiss-Prot
Match: B8B7X6 (Probable D-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Oryza sativa subsp. indica OX=39946 GN=D2HGDH PE=3 SV=1) HSP 1 Score: 588.6 bits (1516), Expect = 6.5e-167 Identity = 285/392 (72.70%), Postives = 342/392 (87.24%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy Swiss-Prot
Match: Q7XI14 (Probable D-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=D2HGDH PE=3 SV=1) HSP 1 Score: 587.4 bits (1513), Expect = 1.4e-166 Identity = 285/392 (72.70%), Postives = 341/392 (86.99%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy Swiss-Prot
Match: A1L258 (D-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Danio rerio OX=7955 GN=d2hgdh PE=2 SV=1) HSP 1 Score: 433.3 bits (1113), Expect = 3.5e-120 Identity = 216/369 (58.54%), Postives = 275/369 (74.53%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy Swiss-Prot
Match: Q8N465 (D-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Homo sapiens OX=9606 GN=D2HGDH PE=1 SV=3) HSP 1 Score: 426.0 bits (1094), Expect = 5.5e-118 Identity = 218/375 (58.13%), Postives = 280/375 (74.67%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy TrEMBL
Match: A0A1S3BTX7 (D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X1 OS=Cucumis melo OX=3656 GN=LOC103493219 PE=4 SV=1) HSP 1 Score: 881.3 bits (2276), Expect = 1.8e-252 Identity = 441/461 (95.66%), Postives = 451/461 (97.83%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy TrEMBL
Match: A0A1S3BU90 (D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X3 OS=Cucumis melo OX=3656 GN=LOC103493219 PE=4 SV=1) HSP 1 Score: 881.3 bits (2276), Expect = 1.8e-252 Identity = 441/461 (95.66%), Postives = 451/461 (97.83%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy TrEMBL
Match: A0A1S4DYX4 (D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X2 OS=Cucumis melo OX=3656 GN=LOC103493219 PE=4 SV=1) HSP 1 Score: 844.3 bits (2180), Expect = 2.4e-241 Identity = 426/461 (92.41%), Postives = 436/461 (94.58%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy TrEMBL
Match: A0A6J1J7W7 (D-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111483383 PE=4 SV=1) HSP 1 Score: 805.4 bits (2079), Expect = 1.2e-229 Identity = 411/470 (87.45%), Postives = 431/470 (91.70%), Query Frame = 0
BLAST of PI0027882 vs. ExPASy TrEMBL
Match: A0A6J1C4W8 (D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X2 OS=Momordica charantia OX=3673 GN=LOC111008299 PE=4 SV=1) HSP 1 Score: 803.1 bits (2073), Expect = 6.2e-229 Identity = 408/469 (86.99%), Postives = 428/469 (91.26%), Query Frame = 0
BLAST of PI0027882 vs. NCBI nr
Match: XP_008452115.1 (PREDICTED: D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X1 [Cucumis melo]) HSP 1 Score: 881.3 bits (2276), Expect = 3.7e-252 Identity = 441/461 (95.66%), Postives = 451/461 (97.83%), Query Frame = 0
BLAST of PI0027882 vs. NCBI nr
Match: XP_008452117.1 (PREDICTED: D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X3 [Cucumis melo]) HSP 1 Score: 881.3 bits (2276), Expect = 3.7e-252 Identity = 441/461 (95.66%), Postives = 451/461 (97.83%), Query Frame = 0
BLAST of PI0027882 vs. NCBI nr
Match: XP_004146548.2 (D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X1 [Cucumis sativus] >KAE8649180.1 hypothetical protein Csa_015161 [Cucumis sativus]) HSP 1 Score: 875.9 bits (2262), Expect = 1.5e-250 Identity = 439/461 (95.23%), Postives = 448/461 (97.18%), Query Frame = 0
BLAST of PI0027882 vs. NCBI nr
Match: XP_038896937.1 (D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X1 [Benincasa hispida]) HSP 1 Score: 865.1 bits (2234), Expect = 2.7e-247 Identity = 433/461 (93.93%), Postives = 445/461 (96.53%), Query Frame = 0
BLAST of PI0027882 vs. NCBI nr
Match: XP_016901179.1 (PREDICTED: D-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X2 [Cucumis melo]) HSP 1 Score: 844.3 bits (2180), Expect = 5.0e-241 Identity = 426/461 (92.41%), Postives = 436/461 (94.58%), Query Frame = 0
BLAST of PI0027882 vs. TAIR 10
Match: AT4G36400.1 (FAD-linked oxidases family protein ) HSP 1 Score: 599.7 bits (1545), Expect = 2.0e-171 Identity = 288/381 (75.59%), Postives = 347/381 (91.08%), Query Frame = 0
BLAST of PI0027882 vs. TAIR 10
Match: AT4G36400.2 (FAD-linked oxidases family protein ) HSP 1 Score: 599.7 bits (1545), Expect = 2.0e-171 Identity = 288/381 (75.59%), Postives = 347/381 (91.08%), Query Frame = 0
BLAST of PI0027882 vs. TAIR 10
Match: AT5G06580.1 (FAD-linked oxidases family protein ) HSP 1 Score: 131.0 bits (328), Expect = 2.6e-30 Identity = 110/332 (33.13%), Postives = 163/332 (49.10%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) 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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