PI0008793 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GAGAACACCAACAAAAAAAAAAAGAATTGTATTGGGATAGTTTTTTCGTGAAACTTCATATACGTATTTCCGACAGTTTACCCAGAAGAGCTCCAAGACAGAGGAGTAGGAAGTGGTGAAAACGGGAGAAGAAGAAGATGCTGAATCTTACTGTTCAAAGTTTACGGGCTAGAACGGGCATCATGGCGAGGAAGATATCATCAATGGCCAACGGTACGGCCAAAGAGAAAGTGGACTGCCTCGTAATCGGAGCCGGTTTGGTCGGAATTGCAGTGGCCAGGGAGCTTTCTCTCAGAGGCAGAGATGTTTTGGTGCTGGAATCTGCTCCCACCTTCGGTACCGGAACCAGTTCTCGCAACAGTGAAGTCATCCATGCCGGCATTTACTATCCTCGCAATTCTCTCAAGGTGAGCTCAATCTTCCAGTTCCTCTCCTTCTTGAATTTCTTCTGGTAGCATTTCCTTGATTTCAACTTCGACTACTGATCAGGCCGAGCTGTTTTCTATTGAAAATTAGGTTATGGTAGTTGATGGACGGATTTTTTAGTCTGTATAAAAGTGGGAATGCTATTGCTGAATTTTCCGTAGAAAGTAAATTTGTAGTGTACTTATTGAATAAATTGATTATCTGATTCCTCTATCACATAAAGTTACTTGAATAAAAAACGAATGCTGCAGTAGAAGAGAAGAGGAATTGATAGTCATAGTTGTATAAATAAAAGAGGGAGTTTCAACAGCGAAATGAAATTGTTGGGGCAAACTTCTAATCCTTTTCTGAAATCTCTTCTTAAAAGTTCATAGTTTGAGCGGGTGATGGTTGTGAATTTACGAACTCAATCAATTTTTGCAGGCAATTCTTTGCGTAAGAGGAAGAGATTTACTCTACCGGTATTGTTCTGAACACCAGATTCCTCATAAACAAATTGGCAAGCTTATAGTTGCTACTAGAACATCAGAGGTTCCAAAATTGAACGATTTATTGATTCGGGGAGTTCAGAATGGGGTTGAAGGGTTGAGGATGGTTGATGGTTATGAGGCAATGAGAATAGAACCTGAATTACAGTGTGTAAAAGCCTTGCTGTCGCCTTTGTCTGGAATTGTTGATTCTCATTCTTTGATGTTATCTTTAGTGGTAAGTATTAAAAGCATGTTTGAGAATGATTTTGAACTTGTTAAAAACTTAAAATTACTATCATGTTCATAACTACTCTTAAACATGCTTTAATCATTCAAAATTAGTTCAAAGTTTGATTTTACAATTTTAAATGCGATTTTCATACATGAAAATTGATTATGAATGATTAAACCATGTTTCAGAATACATTTTAAATATGACAAAAGTGATTACACTTCAAATATCATTACTAAGCATGCCCTAAGTTAGATATGTATACATGGATAACTTCATCCACAATATATTTATCATTATCTATGCTTGCAGCGATGTTATATATTTGATCACTTTAATTTACTTGCATATTGACAGAAATATCACTCCCTTGTGGGTCCAGGGGGAGGCTGAAAATCATGGGGCTAAATTCTCCTATAATTCTGCTGTTATTGGTGGTCATGTTCAAGAAAATCAAATTCACCTCCATATATCTGACTCCAAAAATCTTGAAAATTTGAATGGGGTGCATCTCCCAGTGCCAGAGCTCACGTTGGTTCCTAGACTTGTAGTGAATTCCACAGGGTTATCTGCAGTTCCCCTTGCAAGGAGATTTGATGGTCTCCATGATGGAGTCATTCCTCCCTCTTATTATGCCCGTGGATGCTACTTTACATTGTCAAATGTGGGAGTCCCGCCATTTCAGCGTTTGATTTATCCTCTGCCAGAGGATGGTGGAATTGGTGTGCATGTTACATTGGATTTAGATGGTCAAGTCAAGTTTGGTCCTGATGTTGAATGGATTGATGAGGTCGATCAAATCTCAAGCTTCTTGAACAAGTAGACATTCTATGCCATTTGTCTTGTTAATTTTATTTTCTCATTTAATGTTTCATTATTGAATTTTTATTCAAATTGTTGGCTTCTGGTAGTGATGGATTCATACTGCCTAGCTGAAATAGAGACTCCATTTCTCTGGTTTTAAATTTTAAATTCTGGTACGATATAATGATACGGGTCAAAGAAACATCTCTTTTCTGATTTCATCTTTCCATATGTTATGGGATAGGTTGTTGGCAAATTATTCAAATTCAGTTGATGTTTCGATTGCTGATTTATTTTTATCTTCCTTTGCTCAAACAATAGCCTGAACCTTAGGGTTCATGTCTTAGTTTTTTCTTCTTATTTTCCTTCTTTTTCACTTGTTCTTGTTGAAATTCGTATGGAAAGCTTGCTATGATTTGGGGATTTGCCAGAACTCCTTCAATAAATTGTATGAACTATGGACTCATCTGCTGTCCCCTATGTGGCTTTTTCCTGTTACCTTTCTTGTTTTGACACACTTCTCTTAGTTTATAATACATGAATCTATGTAGAGTGTTGAAATCCTATGAGTTTTATGAAAATAAAATGTTATAAGTTCAAAATGATTTTTCTCGGAAGATTAGTCAAGTTGAAATGCATGTAAATAAGCCTTGAAACTCAAAGATGTAAAGAAGAACTATGTTCATCAATTTAATGATATTTTTTTTGTCTAGGTTTGACTATTCTGTGCGTGGTAGTCGTGCTGAGCGGTTTTATGAGGAAATAAGAAAGTACTACCCCAGTCTGAAGAATGGGTCTCTACAATCAGGATATGCAGGAATTCGACCAAAACTCTCAGGGCCCCGACAAACTCCAGCTGACTTTGTTATACAGGTCATTTCTAAGATCTTCATCTTGAATTATGCATACCCAATGCACTACCATCCAATAATCTTTGACCTGTGATTGGTGCAGATAGACAATAAGTAGTTTTCTCTGCTGATAGATTTTAAACTAACTCACATGTTTACTTTGAAATTTGTTAGAAGTTTGTTCTTAAATACAAATTTAAAATTTGGATAATGTCGATGGATTTGTTCTTTCAACAAACTGATGATGTTGTGGCAAGACTTCCTTTGACGATAAGGTGTTTTACTGGGTGAAAAATTGAATAATACAATAAATCTGGAGATAAAGAGAAAGTGGAAAATAGAAGGAACAGGAAAAAAATAGTTTGCGTTTCAAATTTCAAGTTGCTAGGCCACCCATGAAACAAGTATATAAGAGAAGGGGAAAAAAGGAGATTACACCCCCAACAAAAGGGTAGTTGGCTGTGGTCCTGAGGGCCGAGGTGGCAAAAGAATGTTGGTATTTATATTGTAGTTTTGTACTAGGGTTAGTTATCTTGGTTTATGTGTTTTGGAGTTGAACAATAGTTCACTGTGGAGAGAGCAACTGTCTTGATTGGCTGAGTGTTACTTGTTTATTATCAATATGATACTGCGAATCTTTGGTTGTTCCCTGTTCTTGTGTTGTTTTTCTGTTATCTTCTTGAAGTGTTTTTGGTTCTTGCCAGTGGTATCACAGCCGTTCGAAAATCTGGGGAGGTGGAGCAATATGACACAAAACAACTCAAGGAAAGACTTAATGCGACAGAAGTAGACATTGGAGCCATCAAGCAAGAAATACAGAAGATATCGGTGCTTGAGAAGACGATGGAGAAAATGCACGTCATGTTGTCCAAGATGTATGAGGACCCATCGAGGTTTTGCTTGGTCTTTCGCTTACTATGGTTTAAGGGCATCTCGTGCCAAGAAAAAAGCGGGGTTGAACCAGGCTCACAGGCCGGGGCTTTTGCCCGCTCTCCGACTAGCTTGTGTTCTAGCAAGGGGCATAGGTTGGGTCCTCTGGGGTTCAACAATGCTATAGAAAGAAGGTGAAAAGAAGATTTTTAGGTTCTAGACGGTTACGGTATTTGCGGTGGGAGTGCGTGAGGGTCTGCAAGACAAGGGACACAAGGAGGCAACTGCCAGTACTTCTTTCTCTTATTCATAGAGATGACGAGTCTGATTTGCCTACTACTATTACTATAAAACCAGCAACGACTACAAACAACCTCGGAAATAATGGGGGTGAGTACGGGAAAGAGGAAGATGCGAATCGAGGATGAAGATGAGGAAACAGAGGAGCTGGAGGAGGGGGAATCTTCCCTTCTGGCAGAACGAGATCAAGTTCAAGAAGTTGGAGATGCTGGTGTTTAATGGAGATGCCTGGATGGGTGGTTCTATAGGGCGGAACACTATTTTTAGTTGCATTTTTTGAATGAGAAGGAGTAGTTGAAGATTGCGATTGTGAGCCTTGAGGGGAGGGTTTTGAATTGGTTTCGATGGGTGGAAGATCAGAGGAGGTTTAGGTCATGGAGGGAGTTGAAACAGAGGATCTATACCTGTTTTTATCTGACAACAAGGGTCCGTTTTCGTCCTCAACGACGCCAATTTGGTAGACCAATAGGTTTCGAGGCTTCGATCGAACCAAATACTAATTTCGTTCTCACACCAATTCAGTAGTATTAATGTAGTAACGAGTCGAACCACAAAGTGCCGAATAATTTTTCTTAAGGAATTATTTATTGCAAGATAACCAATTGGGGGGAGGGGGGGGGGGGGGTTGTTGAGTGAATAACAATGGAAATTAAATCAAAAGAAATTGTAATAACACAAGTCTAAAAACGGTGATGAAGAAAGTTATCAATGAAACAAACACCTAGCCGGGATTTAATTCGATTTCCTTTTAATTAACACTTAATCATAGATTCGTCATCAATATCGTATTTTGAGAAAACTACAAACAATGTCTTAGCCGACCACGTCTAGAGAAGCTAGAGTGACGTCCTATGTTTCGAATCAATAAAAATGTCTAAATGAAGCATCCTAAAACTTCAAATTGATAAGCATTAAGATTTGGGGCGAAACTAAGTCGATCAAACAAATAGGAATTGCCTATTGAATGCTCGTGTGAATTCTATTCTAAGCTAATTAGACACATGCCATTAAATTGGAAAAGCCTATTCAGTGAACAATTCTAATTTCTAGCTTTCGTTATCATGTGATCTTTTCCTAACAATTATGGATTAAGATTGGATCTATAACATTGAATTAAACGTAAATGGCTAATTGTCAGTATTCCCAATTACATTCAATCACAAAATTAAAGCAAGAAAAGAATTCTATTGTTAAAAAAGTTCCAAAAAATTACATACATTCAAAACCTCAAAAGTGCCAATCAAAAGATAAATCTAAAAATCCCGAGCTAGATAAATGTACCTTAGCCTTGCAACATAGTCCAAAGCACGCAAATAAAATCAATGGAAGTCTTCAGCAAAAAAGGATCCAAAGAAAAGCTCAAGAAAACTCTAAAGAATGTCTAAAATTGAGTGTGTAATGTATTCTCCCGAAAGCTGACGGCTAGGGCCTTTAAGCCCAAAAACATGTCAGCGCCGTGGCGCCCAAGCCTCACGCGCGTGTTCACATTCTGTCAAACTTCGATGCGCCGCGGTGCTGCAAGGCAGAAGCCCTCTTGGCTTCTTTTGCACCTTCAATTGCTACGACTCGCTTCGATTTTCATCGGTTGACGTTGTATGACTCGGTAATGGCCCAAATTAGCTTAGAAATGAACGCAAAGGCTAAAAATGACCTGAATTAAGCGTAATGCCTACAAAATCACGGAATAAAGGCGTAAAACACTAGAACGACCCCGATTTAAGCAGGATAAGATAGCGTATTTTCAACGCTATCTTCACCCCAATTTAAATCTTGATCGTCTTGAGCAAGGTAAAAATAACATGCAGTCACACATGATAGCTGGTAAGGTTGTCCAGTCCCTTTCTCATGCCTTAACAGTCAACAACAACTAAACATGTAATCATTGCTACAATCAAAGAACGAGCAATCAATTGATACACAAGTTAGAATTTGTTCTTCAAATCTATTCACGCATAAACAAGTCTAAAATCCTTCTACTTAAGCCTAAGCAACACCCGAAATAGATTTAAAGGACCCTCAACTCGCTTTCCCCCTGCTTTGGCAAAAAGATTTAAATGTAACTTCCCTAAGCAAAGTGGTAATGTCAAGCATATGGGCAAACCAACTTCATATCCAATCATTTTTTCGTTCTTTATTCTATTTTTTTATATTTGCTTATTCTGGAATCTTGCCCTCGTTTAGATTTTGGACAAGACCCGTACAAAGCCCAATTCACGCTAGGCTGAATTTCCATGGCACTAACATTGAGCTGGTTTCTTTTTCACACATTTTTTTTTTAATTTTGACGAAAAGCGAGAAAATTGATTGGTTTAATCCTTACATATGCATTACTAAATCATTACTAAATTGACTCTGGGAAGGCCTTTCGGGGTGACAGAAAACATATGGATCCAATAATGCTAATCTAAGTATGCAAGACCTAGGATAGTTAGGCTAAATACTTAAGTGTGCATGAGAGATGGAAGAATAATCTTAAAATATGCTCAAAATTTTGATTATTTTTGTCGTACAACATTTCCTACATGCATGGTTCTAAGAGTGTCATAGGCATGTCATCGAAAGGCATAAGGCAACACAACAAACATAAAAAAGCATGCAACATTGTCCGAGCATAGCGGTCAAGGACCCCAACAACCAGAGATACAAAATGAATCGCAAACACCCCACCCCCAACTTAAAACTCACATTTTCCCCAATGTAAACCCAAACAATAGAATAAAGACAAAATGAAAGGGAAACAAAAAACCTTTCTTGAATATGCAAAACAGAGGGGCAGGCTGCAGCAATCGACACTCTCCAAAGTAAGAGAAAAAAGAAAAAAGAACTAACCCTGCAAAAGACAAAACCAAAATCAAGGAAAGAAATAACATAAGAAAATAAAAACCTACCTAAAGGGCGCAGGACGAGTCGTGGACTACTCCTCGTCGTTGTCAGTCTCTGGAGGACTAGGACTCATCTAAGGAACCTCCTGAGTTCCGACCAAGTGTAGCACCATGGAGATACATCGGCTTTGATACCGAACATGCCTCTCCATGCGCTGAACTAATTGAGCAGTGGCCCAGTTGCGAGCACGGTCTTGACAAACCATGCTGTCCAACCGACGGACCACCACTGACAAGGGCTCCTCCTCAGACTGCTCAACCTCCTCGGCCTCCTCCTGGTCTCCTTCATCATCCTTAATCTGCTCCCTATTTTAGAAGTCTAGCACCATGGATAGAACCCTTGTATGACAAAAATAAGCAAAATTTTGAGCATATTTTATAAACAAGAGGGAATGGTGAGAGATTATTTTTAGAAGTTTGAGGAATTATCAACACCCCTATCGGACATGGCAGAGGACGTATTAGTTAACACGTTTATGAATGGGTTGGACCCAGTGATATGGAACGAGGTTTTTTCAATGAGAGCAGTGGGCCTGGAAGACATGATGGACGCAACCAATTAGCGAAGGATAAAATAGAAACAGCTGGGATGGCCCATGGACCGTATGGGAAAGACTGGAAACCAGTCTAGAAGCCAACAATAAAAAACGCAGAGGGTTTGGTCATGCATATGGTCACTTTGGCAGAAAAGATCCCACACCCTGGTACGGCTGCGTCTGGCTCTGGCATGACTGGAGGAGCAAACCGACGAGAACATTCCTTCCGGAGGTGGACGGATTTGGAGTTGCAAGCAAGAAGAGACAATGTGTTGTGCTACCGGTGTGACGAACTATATTGCTGGTCAGATAGATTTCGTCGCCCAAACCCGTGCCTAATAATAAACCGAATCACACACCAAGAACTAGTCTTAGTGGCAAGTTTGGGTCGATCACAGGGAGCACACTGATTCTCAACCACGAAGTAACCGGGGGCTTGAGTGAAATTGGTAGCAAGAAAGTAAATTGCAAGAAAAGAATAAATTTGTGAAAATTCTATGTTATAAGAATCTAGCTTGGGTTGTTGCAATTTCTCCCTTATCCTAAGAATTCATTCATCGAACTATCATTACTTATCCATATGCAATCTTCACCTAACCAATTTAGTTGGAACTGTCAATTAAATTGTCCTAAGGTTTTAATTGTTCTAATCCAATGGCATGCAATATCGAATTTCCTAATTAGCATTAAGTTCCCTTAGGTGGAATGCCTAATTTCCAAGCGTCTAATTGACATTCAATAGGTTCAATTCTAGGTTGGTTAAAATCAATGTTCCTCAATTTAGATTTACATGCTAACCTAACCTATTACTTCTAACCAATTCTTGTCTAATTGTGACAAGTCAAAGAATTTAGTACAAAGCTAGAGTCATACATTCCCATGCATTCAACATATAACAATAAATCAATAACATTCAGAATTGAACCAAAAATTACAATGAGACAAGTTTAAGTTCTCATGAAATTCTGAAGGACAAAGGGAGAATCTAAGAAAACCCAAGCTAGGAAAGAGTAACTTAGCCTCTCATTCACATGCTGGATGATGAGGGATAGTTCGGGGACTCGAAGTGCATGAAAAAGATACTGAAAATAGAGAGAAGAGGTGTAAAAATCAGCTAGAATTGAGTTAGGGTTCGAGTTGGTGGTGGATAAAATATATATAGAAAACGGTTGAGTGTTGCGACTCCTAAGGGAAGCGCCACGGTGCTTGAGGCTTTGCGCGCGCGTACGTCCGCGTTGATGTTCAGAGCGCCATGGCGCCGAAGGGCAGCGCTGTGGTGCTTGGCCTCTTTTCGGAAAAGGAAGCTTATTTCCTTACATTGTCGCCCGAGGTGCCGTGGCACTGCAAAGCAGAAGTCAAATGGCTTCTTTTGCTTTTCCAAATGCCTTGGTCTGCTCCAGCTAGCCTCGATTGTGACAGTTGATGCCTAAAGCTCCAAAATGGTTGGCCCAAATTAGCTCTAGCACCACATTTCACCTATGAATTGCTTATTACCTATAAAATATCCAAACAAGAATGTAAAATCACGGAACGAGCTCGAATTAAGCAGAAACAGATAACATATTTCATATGCTAGCAATAGCAAGGGACATCGCTGCAGGAACAAGGAACTGCAGCTTTATGTAGTGGCAGACGACCTTGTGACACAGAGATGGAAGACGTGGCCACGGACGAGCAAATGATGGAGGTGTTGGAAGCGTGTGATGAACACCCCAAGTGTATTCTACTTCACACTTTGATGATATAAATTACAACATTTCAATCCTATTTATAGGATTGTCTAGATCCATAACTTCGCATAACAATTAATTTCCTACTTAATATAATTTATCAACGTATCTAATTTAAACAATCTTGTCAACTATTCATCAATTAATATATAACTTTCACAAGTCTTAATTTTGGATGTAACTTATTTTAATCAAAACATGCTTTAACCGTTCAACAGAAGGTTAGGCCTGTAGTCGAGCTGTCGCTGAACTCGGTGGTGGGGCTGACGACGCCTGGTACGTTCAAAATCAAGGGGATGCTCGAAGATCAAGAGATTGTGATCATGGTAGATTGTAGGGCAACTCACAATTTTATATCATTACGTCCGGTGGAAATCCTCAACCTCCCAATGACTAAGACAACCAACTATGGAGTCATCATGGGTTCGAGGAAGGCAGTCCAAGGGAATGTGCAAGGAAGTCACGGTGGGTCTACCAGTGATGACTATAGTGGAAAACTTCCTTGGAATTCGACAACCTAGACATGGTTTTGGGAATGCAGTGGTTGAGAAAACAAGGGTTGATGACCGTCGATTGGAAGGAGCTAACGATGACCTTTGCTGTAGGAGATGCCAAGGTAGTCTTGAAGAGGGATCCATCTCTATCCCGGATGGAGGTGTCTCTGAAGATGTTGTCCAAAACGTGGCAACCGGAGGATCAAAGATTTTTTATTGACTTCCGCACCATGGGGTTCAGAAGGAAGATAGAGAGTTGGTCACAGAAGTAGTTGAGGAATTACTACCGGAGTTGGAAGAGTTACAGTAGGCATATGATGACTTTTTTAATATGCCCGACGGCCTACCTCCATTAAGGCACATTGACCACACAATCCAGTTGAAGGATGGGACAGACCCAATTAATGTGAGGCCGTATTAGTACTCAGAAAAACGAGATTAAAAAGCTTGTCCATGTATGTTTGCGACCGGCATCATGGCCGAAACATGAGGATACTCGTTTGTTAGAAGAAAAGACTGTTTTGGACGTTCAAACTTCCCGCTCCATGGGTTTCATCGAGCTCGCTTCTCATTCAAAGGAGGAAATCAAGATCAGAAGCCGGAGTAGGTTATCAGCCCCTAGTTGGACAAGTTTGTCAGTCACTTCTTTCGGAAATAGGGTGCCCAGATTCGGCCTAGTATTAGCCCCTTTTCAAGCTCAATGATTTTAGTTAAGAAGAAGGATGGGAGTTTGCGGTTTTGAGTCGATTACAGGGCACTGAACAGAGCTACAGTCCCCGACAAGTTCCCAATACCAGTGATCGATGAGCTGCTCAACGAGTTGAATGGGGCAAGTGTGTTTTTGAAAATTGACCTTAAGTCCGGATACCATCAAATTTGGGTCTGTGATGAAGATGTGAGGAAGATGGCTTTCAATACACATGAGGGCCATTAGGAGTTCCTTGTGATGCCTTTTGGCCTCACCGACGCCCCAACAACATTTCAAGCTTTGATGAATCATGTTTTTCGACCATATTTACGTAAATTTATACTAGTATTTTTTTATGACATCCTGGTATACAGCACTGATATAGGAACATCAGTGGAATAATTAACTCTGGTTTTTCAACTCCTACTTGAACATTCTTTGTATGCCAACAAAAAGTAGTGTCAGGTTCGCACAGGATAGGATTGAATATTTGGGGCACTGGGTTTAAGCAAAGGGGGTTGAAGTGGATCAAGAAGAATTGAACAATAGTTGGGGCAAGTGTGTTTTGGAGTTGAACAATAGTTCACTGTGGAGAGAGCAGCCCTCTTATCTGGCTGAGTGTTACTTGGTTATTATCAATATAGTACTGTGAATCTTTGGTTGTTCTCTGTTCTTGTGTTGTTTTTCTATTGTTATCTTCTTCAGGTGTTTTCGGTCCTTGCACAAGTTTACGAACTTGTTAGATTTAACCACTTTGTTATTAAACAATCACGAACTTGATTGATGTAGCTTCTGCTTTTATCCCTAATTTTTTTATCCTCCCTTTCATTGCCAAATTCACTGAATTTTCCATATACTTGTGTCTCTTTGAGCCTGCTTGGACTCACTTAAGAAAAAAGTGTTTTCAAAAAATTCATTTTTGTTTAAACTCTTTTGATAAAAAAGGTTCAAAATACACTTCAAAAGATATTTTAAGTATTTGTCTAACACTATTTTTTTCCAAAATAACTTATTTTTTAAAATAAACACTTGAGAATGTATTTCAAACACACTTTTGTATATCGTGGTTTCATCTTGAGACAGAAACAATTGCTGGATCTCATGAAAACAATTTCCGACTACATTTTGCTCATTGTAATGTTATCTTACTTTCTAGAAAATCTCACTTGGTGTAATGTCATTCGATATCAAGCATGGAATCACTATGATATTTTGCAGGGGGAGGAGATTCATAAGGTTTCTGGTCTCATCAACCTTTTTGGAATTGAATCACCTGGGCTGACTTCAAGCCTGGCAATTGCAGAGCATATAGCTGCAAGATATATGTAAAGGTAAGACTCCGTTTGATAATGGTTTTGCTTTTAGCTTTTTGTTTTTCTAAATTGAAATGACTTGATTGGCTATCTCTTTGTTTGACAATTTTTTTTTAGAAAGTTTTGACTAAATTTCAAAACAAAAGAATATGGTTTCTAGAGCTATTTTCCTTCGTTTTAAAATTTTGGTTAGAATTTGAAAGACGTTCTAAATTCATATATTATAAAACAAAGAAAATCTTTGGTAAATAACTTTGGAAATCAAAAAGTAAAAACAAAAACATTATTGGATGAACTTTATCTTGAATAAGTTCGCATTTGGTAACCCTGAGGTTAGTTGTGCTTCTATTTTCTATTAAGAGAAAATCAAGCTAAGCTTTTCAATGTAATGAAATAGGGACCTATCTGTGGAAAACCAAACCAAATTGTAATAGAAAACAAAATAATTGCATGAGAAGTCAAATGATACTTTATAGGACGCGTTTACTCTCCAGGAATTGGAAGAAAAAACATTCCCTTTGATAGTGTTTACCAAAAGGACCCAAACCAGAATGAGAATCAAACGTGAGGGTGAGACCCACTCCAAATTTGGCAATCTCATTCCATCAAACGTCTCGTTTAAAGTGAGAATGTTATTCATTTGATGTTGTCAACTAATAGTTGTCTTGAACTAGAATAAAAAAGCCAGTGATGTTGTTTACTTCCATCTAGAATGGGTGTGAAATATAGATGATTACCCGATTGTTCTTTTAAAATAAAACTAATCATCACTACAACAAGTTTGTGTTCTACTGTACAATGAGCTTAGTTATTAAACAAATGAACTTCCCTCCCTTAATTCGTTTCCTTTTTCTCTCCTTATTTCCTTTTTGCATTCTCTGTGTTTTTTTGCTGTTAAGTGTGCATTTTGTCTTTGTGATTCGCATCAGAATACTCCCTTTAGTGTTTCACATAGTCAAACTTCACCAAGGTAAGGTGTCACTCCTCTTTCCCTTTCATTTTCGTTTCTATTGTTTTTTTTAAATTTTTTTTTTTTGATTCAATCTATTTGACGTACTGCCCATCTCTTGATTTCAATAGATTCTGAGGGTTGAATGTTGTTTTTGAGGGAGTAAGTATGTTATGTTGTATGATGTTTGGGTGGTGTCATTTGGTTAATCACAAGTTAGGGTAAGGGTTTAGTTGTTTTGATTTTGAATGTAGCTGAAGCTTCATGGGGTGATTGAGATTGTTAAGCTAAGCTTAGAAGGGGAAATTTGCAAAGGAGCAATACTTAGTGTGCGAACTAGGCTACACCCAAGTCCATGCCCCCTTTTCCTCCACAAATAAAAAAATCTTTTTGTTTTAAAAAAAACCAACTGTCATGTGTCAATTTTTAATTGGGTGCAATAAAGGTTGCGTAATAGATGGATGCAGCTTGGTAGAATTCGATTGAAAGTAAATAGAGTCTAAGCGATAGTTTGAGCAAGAGCAAGAGTAATATTTTGAACAAATTGCTTGAGGTGATGACGTTGTGAACTCGCCTAAGTATTGAATTGGTTCTGGTATAGTTTAAGTTTATTACGTTTTAGATTTTGTCTCTATTGTTAGAATCTAAAAAATCAATTGAAAATATATGATTTGGGTCCATCATGAAAGACTGACTGCTTGCCCAAATGCATGAGTAAGTTCATTATACTTCGTCTTTACTTTATGAATCACAATTTTGTCTTGTTAGTGATGTTTCGGTGTATGTAAGTTGAGATCATTCTAATTCCATTTTTACTAAAATGACTTATTTTCA GAGAACACCAACAAAAAAAAAAAGAATTGTATTGGGATAGTTTTTTCGTGAAACTTCATATACGTATTTCCGACAGTTTACCCAGAAGAGCTCCAAGACAGAGGAGTAGGAAGTGGTGAAAACGGGAGAAGAAGAAGATGCTGAATCTTACTGTTCAAAGTTTACGGGCTAGAACGGGCATCATGGCGAGGAAGATATCATCAATGGCCAACGGTACGGCCAAAGAGAAAGTGGACTGCCTCGTAATCGGAGCCGGTTTGGTCGGAATTGCAGTGGCCAGGGAGCTTTCTCTCAGAGGCAGAGATGTTTTGGTGCTGGAATCTGCTCCCACCTTCGGTACCGGAACCAGTTCTCGCAACAGTGAAGTCATCCATGCCGGCATTTACTATCCTCGCAATTCTCTCAAGGCAATTCTTTGCGTAAGAGGAAGAGATTTACTCTACCGGTATTGTTCTGAACACCAGATTCCTCATAAACAAATTGGCAAGCTTATAGTTGCTACTAGAACATCAGAGGTTCCAAAATTGAACGATTTATTGATTCGGGGAGTTCAGAATGGGGTTGAAGGGTTGAGGATGGTTGATGGTTATGAGGCAATGAGAATAGAACCTGAATTACAGTGTGTAAAAGCCTTGCTGTCGCCTTTGTCTGGAATTGTTGATTCTCATTCTTTGATGTTATCTTTAGTGGGGGAGGCTGAAAATCATGGGGCTAAATTCTCCTATAATTCTGCTGTTATTGGTGGTCATGTTCAAGAAAATCAAATTCACCTCCATATATCTGACTCCAAAAATCTTGAAAATTTGAATGGGGTGCATCTCCCAGTGCCAGAGCTCACGTTGGTTCCTAGACTTGTAGTGAATTCCACAGGGTTATCTGCAGTTCCCCTTGCAAGGAGATTTGATGGTCTCCATGATGGAGTCATTCCTCCCTCTTATTATGCCCGTGGATGCTACTTTACATTGTCAAATGTGGGAGTCCCGCCATTTCAGCGTTTGATTTATCCTCTGCCAGAGGATGGTGGAATTGGTGTGCATGTTACATTGGATTTAGATGGTCAAGTCAAGTTTGGTCCTGATGTTGAATGGATTGATGAGGTCGATCAAATCTCAAGCTTCTTGAACAAGTTTGACTATTCTGTGCGTGGTAGTCGTGCTGAGCGGTTTTATGAGGAAATAAGAAAGTACTACCCCAGTCTGAAGAATGGGTCTCTACAATCAGGATATGCAGGAATTCGACCAAAACTCTCAGGGCCCCGACAAACTCCAGCTGACTTTGTTATACAGGGGGAGGAGATTCATAAGGTTTCTGGTCTCATCAACCTTTTTGGAATTGAATCACCTGGGCTGACTTCAAGCCTGGCAATTGCAGAGCATATAGCTGCAAGATATATGTAAAGGAATTGGAAGAAAAAACATTCCCTTTGATAGTGTTTACCAAAAGGACCCAAACCAGAATGAGAATCAAACGTGAGGGTGAGACCCACTCCAAATTTGGCAATCTCATTCCATCAAACGTCTCGTTTAAAGTGAGAATGTTATTCATTTGATGTTGTCAACTAATAGTTGTCTTGAACTAGAATAAAAAAGCCAGTGATGTTGTTTACTTCCATCTAGAATGGGTGTGAAATATAGATGATTACCCGATTGTTCTTTTAAAATAAAACTAATCATCACTACAACAAGTTTGTGTTCTACTGTACAATGAGCTTAGTTATTAAACAAATGAACTTCCCTCCCTTAATTCGTTTCCTTTTTCTCTCCTTATTTCCTTTTTGCATTCTCTGTGTTTTTTTGCTGTTAAGTGTGCATTTTGTCTTTGTGATTCGCATCAGAATACTCCCTTTAGTGTTTCACATAGTCAAACTTCACCAAGGTAAGGTGTCACTCCTCTTTCCCTTTCATTTTCGTTTCTATTGTTTTTTTTAAATTTTTTTTTTTTGATTCAATCTATTTGACGTACTGCCCATCTCTTGATTTCAATAGATTCTGAGGGTTGAATGTTGTTTTTGAGGGAGTAAGTATGTTATGTTGTATGATGTTTGGGTGGTGTCATTTGGTTAATCACAAGTTAGGGTAAGGGTTTAGTTGTTTTGATTTTGAATGTAGCTGAAGCTTCATGGGGTGATTGAGATTGTTAAGCTAAGCTTAGAAGGGGAAATTTGCAAAGGAGCAATACTTAGTGTGCGAACTAGGCTACACCCAAGTCCATGCCCCCTTTTCCTCCACAAATAAAAAAATCTTTTTGTTTTAAAAAAAACCAACTGTCATGTGTCAATTTTTAATTGGGTGCAATAAAGGTTGCGTAATAGATGGATGCAGCTTGGTAGAATTCGATTGAAAGTAAATAGAGTCTAAGCGATAGTTTGAGCAAGAGCAAGAGTAATATTTTGAACAAATTGCTTGAGGTGATGACGTTGTGAACTCGCCTAAGTATTGAATTGGTTCTGGTATAGTTTAAGTTTATTACGTTTTAGATTTTGTCTCTATTGTTAGAATCTAAAAAATCAATTGAAAATATATGATTTGGGTCCATCATGAAAGACTGACTGCTTGCCCAAATGCATGAGTAAGTTCATTATACTTCGTCTTTACTTTATGAATCACAATTTTGTCTTGTTAGTGATGTTTCGGTGTATGTAAGTTGAGATCATTCTAATTCCATTTTTACTAAAATGACTTATTTTCA ATGCTGAATCTTACTGTTCAAAGTTTACGGGCTAGAACGGGCATCATGGCGAGGAAGATATCATCAATGGCCAACGGTACGGCCAAAGAGAAAGTGGACTGCCTCGTAATCGGAGCCGGTTTGGTCGGAATTGCAGTGGCCAGGGAGCTTTCTCTCAGAGGCAGAGATGTTTTGGTGCTGGAATCTGCTCCCACCTTCGGTACCGGAACCAGTTCTCGCAACAGTGAAGTCATCCATGCCGGCATTTACTATCCTCGCAATTCTCTCAAGGCAATTCTTTGCGTAAGAGGAAGAGATTTACTCTACCGGTATTGTTCTGAACACCAGATTCCTCATAAACAAATTGGCAAGCTTATAGTTGCTACTAGAACATCAGAGGTTCCAAAATTGAACGATTTATTGATTCGGGGAGTTCAGAATGGGGTTGAAGGGTTGAGGATGGTTGATGGTTATGAGGCAATGAGAATAGAACCTGAATTACAGTGTGTAAAAGCCTTGCTGTCGCCTTTGTCTGGAATTGTTGATTCTCATTCTTTGATGTTATCTTTAGTGGGGGAGGCTGAAAATCATGGGGCTAAATTCTCCTATAATTCTGCTGTTATTGGTGGTCATGTTCAAGAAAATCAAATTCACCTCCATATATCTGACTCCAAAAATCTTGAAAATTTGAATGGGGTGCATCTCCCAGTGCCAGAGCTCACGTTGGTTCCTAGACTTGTAGTGAATTCCACAGGGTTATCTGCAGTTCCCCTTGCAAGGAGATTTGATGGTCTCCATGATGGAGTCATTCCTCCCTCTTATTATGCCCGTGGATGCTACTTTACATTGTCAAATGTGGGAGTCCCGCCATTTCAGCGTTTGATTTATCCTCTGCCAGAGGATGGTGGAATTGGTGTGCATGTTACATTGGATTTAGATGGTCAAGTCAAGTTTGGTCCTGATGTTGAATGGATTGATGAGGTCGATCAAATCTCAAGCTTCTTGAACAAGTTTGACTATTCTGTGCGTGGTAGTCGTGCTGAGCGGTTTTATGAGGAAATAAGAAAGTACTACCCCAGTCTGAAGAATGGGTCTCTACAATCAGGATATGCAGGAATTCGACCAAAACTCTCAGGGCCCCGACAAACTCCAGCTGACTTTGTTATACAGGGGGAGGAGATTCATAAGGTTTCTGGTCTCATCAACCTTTTTGGAATTGAATCACCTGGGCTGACTTCAAGCCTGGCAATTGCAGAGCATATAGCTGCAAGATATATGTAA MLNLTVQSLRARTGIMARKISSMANGTAKEKVDCLVIGAGLVGIAVARELSLRGRDVLVLESAPTFGTGTSSRNSEVIHAGIYYPRNSLKAILCVRGRDLLYRYCSEHQIPHKQIGKLIVATRTSEVPKLNDLLIRGVQNGVEGLRMVDGYEAMRIEPELQCVKALLSPLSGIVDSHSLMLSLVGEAENHGAKFSYNSAVIGGHVQENQIHLHISDSKNLENLNGVHLPVPELTLVPRLVVNSTGLSAVPLARRFDGLHDGVIPPSYYARGCYFTLSNVGVPPFQRLIYPLPEDGGIGVHVTLDLDGQVKFGPDVEWIDEVDQISSFLNKFDYSVRGSRAERFYEEIRKYYPSLKNGSLQSGYAGIRPKLSGPRQTPADFVIQGEEIHKVSGLINLFGIESPGLTSSLAIAEHIAARYM Homology
BLAST of PI0008793 vs. ExPASy Swiss-Prot
Match: Q9LES4 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=L2HGDH PE=1 SV=1) HSP 1 Score: 535.4 bits (1378), Expect = 5.7e-151 Identity = 266/422 (63.03%), Postives = 332/422 (78.67%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy Swiss-Prot
Match: A7SMW7 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Nematostella vectensis OX=45351 GN=v1g172254 PE=3 SV=1) HSP 1 Score: 175.3 bits (443), Expect = 1.5e-42 Identity = 144/437 (32.95%), Postives = 199/437 (45.54%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy Swiss-Prot
Match: Q91YP0 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Mus musculus OX=10090 GN=L2hgdh PE=1 SV=1) HSP 1 Score: 160.6 bits (405), Expect = 3.8e-38 Identity = 129/417 (30.94%), Postives = 190/417 (45.56%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy Swiss-Prot
Match: Q9H9P8 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Homo sapiens OX=9606 GN=L2HGDH PE=1 SV=3) HSP 1 Score: 147.1 bits (370), Expect = 4.4e-34 Identity = 127/432 (29.40%), Postives = 192/432 (44.44%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy Swiss-Prot
Match: A7MBI3 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Bos taurus OX=9913 GN=L2HGDH PE=2 SV=1) HSP 1 Score: 143.7 bits (361), Expect = 4.8e-33 Identity = 121/417 (29.02%), Postives = 185/417 (44.36%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy TrEMBL
Match: A0A1S3C1T2 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103495875 PE=4 SV=1) HSP 1 Score: 805.1 bits (2078), Expect = 1.4e-229 Identity = 406/419 (96.90%), Postives = 410/419 (97.85%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy TrEMBL
Match: A0A0A0L0R8 (DAO domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G416450 PE=4 SV=1) HSP 1 Score: 805.1 bits (2078), Expect = 1.4e-229 Identity = 403/419 (96.18%), Postives = 414/419 (98.81%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy TrEMBL
Match: A0A6J1DKK0 (L-2-hydroxyglutarate dehydrogenase, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111021786 PE=4 SV=1) HSP 1 Score: 734.9 bits (1896), Expect = 1.8e-208 Identity = 369/419 (88.07%), Postives = 390/419 (93.08%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy TrEMBL
Match: A0A5A7TQD5 (L-2-hydroxyglutarate dehydrogenase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold447G001470 PE=4 SV=1) HSP 1 Score: 629.0 bits (1621), Expect = 1.4e-176 Identity = 317/330 (96.06%), Postives = 321/330 (97.27%), Query Frame = 0
BLAST of PI0008793 vs. ExPASy TrEMBL
Match: A0A6J5XZC8 (DAO domain-containing protein OS=Prunus armeniaca OX=36596 GN=ORAREDHAP_LOCUS42284 PE=4 SV=1) HSP 1 Score: 617.8 bits (1592), Expect = 3.2e-173 Identity = 296/398 (74.37%), Postives = 351/398 (88.19%), Query Frame = 0
BLAST of PI0008793 vs. NCBI nr
Match: XP_011653836.1 (L-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X1 [Cucumis sativus] >XP_031739823.1 L-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X1 [Cucumis sativus] >KGN54649.1 hypothetical protein Csa_012767 [Cucumis sativus]) HSP 1 Score: 805.1 bits (2078), Expect = 2.9e-229 Identity = 403/419 (96.18%), Postives = 414/419 (98.81%), Query Frame = 0
BLAST of PI0008793 vs. NCBI nr
Match: XP_008455774.1 (PREDICTED: L-2-hydroxyglutarate dehydrogenase, mitochondrial [Cucumis melo] >XP_008455776.1 PREDICTED: L-2-hydroxyglutarate dehydrogenase, mitochondrial [Cucumis melo]) HSP 1 Score: 805.1 bits (2078), Expect = 2.9e-229 Identity = 406/419 (96.90%), Postives = 410/419 (97.85%), Query Frame = 0
BLAST of PI0008793 vs. NCBI nr
Match: XP_038882694.1 (L-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X2 [Benincasa hispida] >XP_038882695.1 L-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X2 [Benincasa hispida]) HSP 1 Score: 766.5 bits (1978), Expect = 1.2e-217 Identity = 385/419 (91.89%), Postives = 401/419 (95.70%), Query Frame = 0
BLAST of PI0008793 vs. NCBI nr
Match: XP_031739824.1 (L-2-hydroxyglutarate dehydrogenase, mitochondrial isoform X2 [Cucumis sativus]) HSP 1 Score: 735.7 bits (1898), Expect = 2.2e-208 Identity = 367/383 (95.82%), Postives = 378/383 (98.69%), Query Frame = 0
BLAST of PI0008793 vs. NCBI nr
Match: XP_022154533.1 (L-2-hydroxyglutarate dehydrogenase, mitochondrial [Momordica charantia] >XP_022154534.1 L-2-hydroxyglutarate dehydrogenase, mitochondrial [Momordica charantia]) HSP 1 Score: 734.9 bits (1896), Expect = 3.7e-208 Identity = 369/419 (88.07%), Postives = 390/419 (93.08%), Query Frame = 0
BLAST of PI0008793 vs. TAIR 10
Match: AT3G56840.1 (FAD-dependent oxidoreductase family protein ) HSP 1 Score: 535.4 bits (1378), Expect = 4.1e-152 Identity = 266/422 (63.03%), Postives = 332/422 (78.67%), Query Frame = 0
BLAST of PI0008793 vs. TAIR 10
Match: AT3G10370.1 (FAD-dependent oxidoreductase family protein ) HSP 1 Score: 46.2 bits (108), Expect = 7.5e-05 Identity = 31/86 (36.05%), Postives = 46/86 (53.49%), 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
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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