PI0014902 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.AAGCGTATTATGGTCAATTGGATGATGGGTTTTAGGGTTTAAGAACAACCTCCAAGCCACTGTCATTACAACCCATCTCTCACTCTCGCTTCCATTGTTGAGGTTTTCTGAGTTCTTCACTGCCGACATCATCTCACCATGTGGGCTCTTCGTAGAGCTTCTACTCCTCTCAGGTATGCTTCTCCTCCTTTATCTATAAACCCTGTTCTTCACACTACACCACTCTGTTTCTCTACCTTACATACTTCATTCAACATTAAAACTTTTATTCTCGTTTTTGGCTCTTCACTTTTGAACTCCTTTCATGGCTTTTGCTTTTCTTTGCCTCTATCCATCAACTATCTTCTTGCTTCTTTCTGATCCACTTTCCGCTGCTAATTAAACAAGAAAATCAAGTAAACAGTTCTGCCTGTTCTGTTCTGTTTTTGTAGTTACCTTTGTGTTCCATTTCTGTTTTCTTTAACAGCCTTCTTCCTTGCTTCTGATTGATATTTTCTTTTTTTCTCCTACGGATAACTTGGTCCGAGTGATGAAATTAGAATCATCGAAGAACGTAGACATTGAAATTGGGATGTAAGAAGCTTGAGAAGAAAATAGGAAATACTTATAATTTGGACATATTTCTTCCTATTCTAATGTTCTAAACATGAAATCTCATAACAAAAATGTTTTAGACATGAAAATTTCTACTGGCAGTTTTCAGAACTAAATCATTATCAATCATCCGAAGGACTGTTTTTGTATTTATTTACTTCTGTATACATATACTACATGCATATACGTGTATATTGTGGTGGGGAAGGTATAATGCCTCCAACTTTTCAGACCCCTCTCTGTAAAAGCTTTTTGTGTTCTCTTTTCAGGAATCAAGGGTATAGAGTAAGAACTTCATATGTCTTTGGAAAACTAGAGGTATCATATTTTGGGGTAGGAAATGTAGCTGGTTTTGGAACCACTGCTGCTTTATCCGACGGATTCATTTCTTTGGAGAGAAATAACCTTGCCATGTGGCCGTCCTCTGGGGTTTATATTAGTAGTCATGGTCTGTCTACACAAGCTGGTGCTGAGAACAGTGGAGAGGAAGATACTGTGGAAGATGGATTTTCCGAACTTGATGATGACAACGACGTTGTTGATGTTGGGACTCAAAATGAACTGGATTTACCTGAGGGAGAAACTGAACTTGCTGAAAGGATATCTACAAAATGGGCTCCTTCAGAAGTTTTCAAGGTTATTTCGCAAGCTCCGGGTTTATCGGTCCCTAGTGCACTTGATAAGTGGGTCAGTGAAGGAAAAGAACTAAGCCGGGCTGATATCTCTTCGGCCATGCACGATCTTCGTAAACGTCGGATGTTTGGGAAGGCTTTGCAGGTATATTTATTTTTTTGTTACTTTTCAAGCAATGAAATTCATTCATGTGTCATGATGTTTGTAATTACTCTCATTTTACTTGGGACATGTGGGACTCTATATAAGCTTACTTGATTAGTGGACAATTTATTTCAGATAGAAATGTTGATCAAATTTTAAAAAGTACAAAAGTCAATTGTAGTATTATGGTCTAACAAGCATAAAATGGTTAAGCAATTTTTGACACTGAAGATGCATCCGTGAGGGTTGTAATCAGTAAACCCAATTATGTAGATCAATTTTTAAGAAGTACCATTATCAAATACTTGTATAAAAAACTGTTGAACTGGCTTATTGCATTCAAATGGTGCTGGAGCCTCTTACAGAAGTTTCAGTTGGTTTGATGTTTAACTGTGGCCAGTATTTTTGGATCAAAATTATATATTGTTGGCCAAAAGTCATTACTGGTATAAAAATGGTTATGCAATTTTTGACACTGAAGATTTTTCTGGCTATTGTATATGGTAAATATTTTCTCCTATTTTTAGACATTGGTTCATCATTTCTCGAATTAATTTCTGGCATTTTTGTATGGCTTTCACAGTTTTCAGAGTGGTTGGAAGCAAATGGGAAACTTGATTTTAATGACAAAGAATATGCTTCTCGGCTCGACTTGATTGCAAAGGTACAAGGTTCCCATAAGGCAGAGAATTATATTGCTAAAATTCCAAAGTCCTTTCAAGGTGAGCTGATATACCGAACTCTTTTGGCTAACTGTGTGATCGCCGGCAATGTAACAAAAGCGGAGAAAGTATTCAACAAAATGAAGGACCTTGAATTCCCAATTACAACATTTGTTTGCAACCAGTTGCTTCTTCTTTACAAGAGGTTTGACAAGAGAAAAATAGCAGACGTTTTGTTGTTGATGGAGAAAGAAAATGTCAAGCCTTCTCTGTTTACTTACAAAATCTTAATAGATGCTAAAGGCCGTTCAAATGACATAACGGGGATGGAACAAGTTGTTGATACAGTTAAGGCTGAAGGAATTGAACTTGATGTTGCCGCACTTTCCATATTAGCTAAACACTATGCTTCAGGAGGGCTGAAAGACAAAGCCAAGGCCATTTTAAAGGAGATGGAAGATGATAACCCCAAAGGTTCTCAATCGCTATGCAGAATTTTACTTCCCCTTTATGGAGAACTCCAAATGGAAGATGAAGTGAGGAGGCTCTGGAAGATCTGCGAGTCAAATCCTCGTGTTGAAGAATGCATGGCTGCCATTGTTGCATGGGGAAAGCTGAAGAACGTTCCGGAAGCAGAGAAAATTTTTGATAGAGTTGTAAAAACATGGAAGTTATCCACAAAACAGTATTCTACCATGATGAAGGTGTATGCAGACAATAATGTGCTGACGAAGGGCAAGGAACTGGTCAAGCAAATGGCAGAGAGCGGTTGCCGAATTGGTCCATTGACATGGGATACAGTTGTGAAGCTTTATGTGGAAGCTGGGGAGGTAGAAAATGCAGAATCTTTCTTGGTTAAGGCTGTTCAACAAAACAAGAAGAAGCCAATGTTTACCACATACATGACTCTCATGGATCACTATGCAAGGAGGGGAGATGTCCCCAATGCTGAGAAAATCTTTCATAAGATGAGAATACTGGGTTATGTGGGTCGATTAAGCCAATTTCAAACTCTAACCCAGGCATACCTTAACGCTAAGGCTCCAGCCTATGGTATGAAAGAGAGAATGAAGGCAGATAATATATTTCCAAACAAAGACTTGGCAGGAAAATTAGCTCAAGTTGATTCTTTCAGGAAGACAGCAGAAGTTGATTCTTTGAGGAAGACAGCAGTGTCCGATTTGCTTGATTGAGAAATATAACCTGTTACTTTTGGTATGTATAAACTCCCCAGATTTCAACTTTATGGTTAGAATCATGTATTTGTTAATTAGTCTGGTGGATTCGATTTGTTAGATGAAAGTATATAGTTATTTGGACAAAGAAATTGCGAAATTGGATCCTGTTGCGCCTATGTTCCATTATCCTATTCTTTCCTAGAGCTAAAAATGGTTTATTATTGTATGTTTCCCAACTTTAATTCGTCAAATGGATTCATGTAGCAAGCTTGATTTACTTTTGTTGAAATTATAATGTATATTAATAACATGATTATACTGTAGGGAGTGATAGATGAGGTATTGGTTTTAGAACCCTGAAACCATAGTTTCTTCTTATTCCATCCAGCCGCCCCCACCCCATTTCTCTCCTTTCTTTCTTTCTTTGTTTTTTTGTTCTCTCTTTTCTTTTCTTTCTTTTCCTCCTCATCCATCTCGCCGCCCCCTCACCTCGTCTCTGTTCTCTTTCTTTCTTTCCTCTCTTCGTCTCTTCGTTCTCTATTTACAGAAAACGAAATCACTCTAAAATTCATTTGCACAAATCATTATTTATGTTGCCACCAAAAAAGCAAAGAATCATCATAGATAAAACTTGGTTGATTAGTGCACAAAAATTCCGTGGAATTCAGCCTATAAATCGGAATATTCATCAACAATAGCAAGTCAAGATAAGCATTAGAAAGAAGCCAACCCAAAAAAGGGCCACCGTGGAGGCAGCGACAGAGCCTTCAAAAGAAAACGCTGGGCAGCATCTCCGACAATGAATAGAAAAGCAGTGATTTTCTTTTTCCTTTTTTTTTTTTTTAAATAAAGTGTGGGAACTAGAGAGTCGCAAGATTCAAATAAAAAGAAACAAAATTAATTTCGCTGTAAATTTTTCCGGTGTTACCTCTGTATAGATGGATATGGAAAAAACTGGGTATAAAATTTTTTAGAGTACTCTATGTAAGATTGGGGTTTAAAAGAAAAGGGAAGGTACAACACCAATTTATAGGGATATACTAAATCTAGGTGGTTTAGATTTTGGAGAAAATTTTTCCTCAAATCATTTTTTTTACTTTTTTTTTAGAGATTTATTTCGATTTTATCCCAAATCACAAAATCTTTAAATTCATTTAAAAAATAAAATAAAAAATTGATTGACTTCTTGATCCCCGATATCAAATTTAATTTTAAAAAAATCTCGTTTCAAACTTAATTTTTGGCAATATTCTAAATATTTCTTTCTTTCTTCAAATTAAATTGTGAATTGAGCTCCAAATTCACTATCAATTAAAATGGGATGGTATTCCAGACTTCATCTAAAATTCTAATCAGATTCATGTTATGATTGATTTGACATAATTAATTGGAGCCAAAACCAAGAGTAAATTACTTGAATTTTGGTTTAGCTTACCCACTCATACACGTGCATGAATCAGCATTTATCCAATTAAATGTCAGGCATAAATTTTATCCGATTAAATGTTGTCACGTTATCACAACAAGAGCTTGTGGTAAAAAATTATATAATTTGAAATGGTTTGGATAATTAAAATTGGTAAAGCCCAACTAAATTTAGGCCCAGATAGAAAATTTGGGCTATAGAAGATAATGGACCTAAGCCCAAGTCCATTCTCACTGAACCAAAATGGGTCAAATGGGCCAAAGTCCAAGTCCAACATGCAAATGGGCCCAAGCCCAAGTCCACCAAGTAAATAGGGCCTAAGCCCACCTAAAGTCTCTATAAACAGAAAATTTGTCATTCATTTGAAGGATATGGGGATCGGAAGAAGAATTTAAGCTCTAAAAAATTAAAGATTCAAACTTCAAAAATTCTCAAGACATTAAAGTTCTCATCAACCTCGAGATTACCGTCTTCTGAAATATTGAAGACTTGGAAGATTAAACCGTTTTTGAATTCCAAAAGATTGAAGCTTAATTGATCTACAACCACAACTTCCTAAAGATCAAGAAGCAAGAAGTTCTAGGTTTTAATTTACACTTTAGAGAAAAGCATCAAAAGAGTAAATATTAGAAATTGCATCCGCTATACTGTAAATCAATATACAAAGTTTAAATTCTACGAATTACATCTCTTTGTGAACAATTATGTTTGGTTCTAATAGTCAATTTAAAATTACGCCGTTAGTAATTGTATTTTCTATTTTAAAAATAATTATGATAAAAATATAGTTCTATTTATTTTATTATTAAATTCTCGTTTGAAACAAAACTTAAAACATATATAATTGTTTGTTTTATTTACAATTTAACGAAAAACATCTTTTTTTCCAATATTAAATTTTTTTAAAAAAAAAATCAAATGGCAAATCAACAATATTTTACCCAAAACTGAATTAGATAATTAATTTAGGAGTGATTGATAGAAAATCACATAACAAACATCAATTTAAAATGATTTTATATTTTTCTAAAATCAATTTTAGTTTAGGTTAAACATTAAAATCACTCCCAAACAACCTAGTAAATTGTAGAGATTATTCAAACTATTTTAAATATCATTAAATATAGTAAAATAAAATAATTTTTTTTACCATTTTGCTATATTTATAAATAAATTAACTATCTTATAATATGTATAAAAAGAAAGTGCATAGACCCAAGAGAGGGATTGTCAAAATTAAGGGGAAATTTGTGTACCTAATGCTCAAAACATGCAAATTTAATTTAGTGGTTGAATTCAAAGATTTAGAAGTGATTTTTCAAATTATTAAAATTATTTTAAAAAATTACATTAGTATCATTACCTTAAAAAATTTAATATTCTTATTGTCTATCTACTCCGCGTTCACATCTCTCTTTATAAACCATCCCCCTACTCTCCTTCTTATTTGCCTATCCATCAACGGAAAAAAGGCCTTCCAATTAAACCATATATATTTTATTAAAAATAAACAAAATAATTGAAGCATTATGAATACTTTGGAATTTAACAATGTTTGAAATAAAAAGTGAGTTTTTATAATTATATATTATTATTTTTCGATCACTATGTTAATCGTAGGATCATTTAAAAATTTTCATATTATTAATTCAACTTTTGTAACTTTAAAAATATTATTTTAAACAAGTATTTGTGTTTACCTATTAAATGGAAATACATGTTTTAAAGTGTTCCTAATTATTCTACATGATAAAATAGTTGAAAATATTTACAAACGTAACAAAATATCATGTCTATCTACTTACAATAAACTACTGTATGCAAGTCTATCACAACCTATCGTAAATATGTTGGTTTCAAATTTGGCGCAATATTTAATTATTTATTTGTTTGTCTTTGATAAACTATGGTTTTGAAAAGCTATTGTAAACGTTCGTTTAAATGATGATACTCGATCGTGTAGATCACGATACACGATCGCATAGTTTATGATACACGATTGTTAGTTTATGATACACGATTCTATAGTTCATGATAAATTATGGTTTTGAAAAATCCTATGGTAAACAATCATATAGTACACATTGAAAAAAATAGCACAAAATTGATGATTAATCGAAAACAAAGATAATAATACGAAAACGACAGAAGAAGAATTTAAAAAAATATGGAAATGGAAGAAAACAGAAATTTAGAAATGAAAAGGAAAATTTGAAGGTATATTTTTACTATTTTAAAAATATTTAACAAAAATAAATAAATTAATTAAGAAAAGGGTAATATTTGCTATTTGGAAAATTGAGTGACATAAACTTATATTCGAAATTAAAAAACAAATTTTTTTAGGAAAAATGCCAAAGGGCAAAGTTTTGCAATGGTATTTTCGTCAATTTACATGAGAGGTTTTAGGGTTTAAGAACAGCCTCCAGCCTCCAACCTCCAACCCACCCTCACTCTCCCTTCCATTCTCACTTCCTACATCATCTCACCATGTGGGCTCTTCGTAGAGCTTCTACTCCTCTCAGGTATGCTTCTCCTCCTTTATCTATAAACCCTGTTCTTCACACTACACCACTCTGTTTCTCTACCTTACATACTTCATTCAACATTAAAACTTTTATTCTCGTTTTTGGCTCTTCACTTTTGAACTCCTTTCGTGGCTTTTGCTTTTCTTTGCCTCTATCCATCAACAATCTTCTTGCTTCTTTCTGATCCGCTTTCCGCTGCTAATTAAACAAGAAAATCAAGTAAACAGTTCTGCGTGTTCTGTTCTGTTTTGTAGTTACCTTTGTGTTCCACTTCTGTTTTCTTTAACAGCCTTCTTCCTTGCTTCTGATTGATATTTTCTTTTTTCTCCTACGGATAACTTGGTCCGAGTGATGAAATTAGAATCATCGAAGAACGTAGACATTGAAATTGGGATGTAAGAAGCTTGAGAAGAAAATAGGAAATACTTATAATTTGGACATATTTCTTCCTATTCTAATGTTCTAAACATGAAATCTCATAACAAAAATGTTTTAGACATGAAAATTTCTACCGGCAGTTTTCAGAACTAAATTATTATCAATTATCCGAAGGACTGTTTTTGTATTTATTTACTTCTGTATACATATACTACATGCATATACGTGTATATTGTGGTGGGGAAGGTATAATGCCTCCAACTTTTTAGACCCCTCTCTGTAAAATCTTTTTGTGTTCTTTTTTCAGGAATCAAGGGTATAGAGTAAGAACTTCAAATGTCTGCGGCAAACTAGAGGTACCGTATTTTTGGGAAGGAAATGTAGCTGGTTTTGGAACCACCGCTGCTTTATCCGACAGATTCATTTCTTTCGAGAGAAATAACCTTGCAACGTGGCCGTCCTCTGGGATTTATATTAGTAGTCATGGTCTATCTACACAAGCTGGTGCTGAGAACAGTGGAGAAGAAGATAATGTGGAAGTTGGATTTTCTGAACTTGATGGAACACTTCCAACCACTAGTCCACTTGAAAATAGTAAGGCAGGTGATGACAACGACGATGTTTTTGATGATGCGGTTCAAAATGAACTGGATTTACTCGAGGGAGAAACTCAACTTGCTGAAAAGATATCTACAACATGGGCTCTTTCGGAGCTGACCAAAGCTATTTGGAGTGCTCCAGCTTTATCTGTTGCTAGTGCACTTGATAAGTGGGTCAGTGAAGGAAAGGAACTAAGCCGGGATGATATCTCTTTGGCCATGTACAATCTTCGTAAACGTAGGATGTTTGGGAAGGCTTTGCAGGTAAATTTACTTTGATGTTACTTTTCAAGTAATGAATTTCATTTGTGACTTGAGGTTTGTAATTTATCTCATTCCACCTGGGATTTGCAGAACACTGTATAAGTTTATGTGATTAGTTGACACAATTTATTACAAGATAGAAATGTTGGTCAATTCTTAAAAAGTACAACAATCAATTGTATTAAGGTCTAACCAGCAGAAAATGATTTCGAGATATGTTTGTTAGCCTTTTACTCAGTAAACCTGCATACGTTTATCAGTTCTTAAGAACTACCATTATCAAGTACTTGTACAAAAAATTGTTGAGGTGGCCTTCAGCATTCAAATGGTACTGGTGCGTCTTACCAAATTTTCGGTTGGTTTGATGTTTGGTTGAGCAGAATTGGAAGTGGAACTGCTGCCACTTTATTTGGATCGCCATTTATATATTGTTGGCCCTATAAAAGCCATGACAGACATGAAAATGGTTATGCAATTTTTGTCCCTGTATTTTTGTAGCTATTGTGTGGTAAATATTTCCCCATATTTTTAGACATTCGTTTGTTATTTCTTGAACTCATCGCTTGCATTTCTGTATGAGTTTCACAGTTTTCAGTGTGGTTGGAAGCAAGTGGACAACTCGAATTTAATGAAAGAGATTATGCTACTCGCCTTGACTTTATTGCAAAGGTACAAGGTCACTATAAGGCAGAGAGTTACATTGCTAACATCCCAAAGTCCTTCCAGGGGGCGATTGTATATGGAACTCTTTTAGCTAACTATGTGGCTGTCTACAATGTAAAAAAAGCGGAGGAAGTATTCAACAAAATGATGGACCTTGAATTCCCAATCACAACATTTGCTTACAACCAGTTGCTTATTCTTTACAAGAAGACTGACAAGAAGAAAATGGCTGACGTTTTGTCGTTGATGGAGAAAGAAAATGTCAAGCCTTCTCTGTATACTTACAAAATCTTAATAGATACTAAAGGGGTTTCAAATGACATAAGAGGGATGGAACAAGTTGTTGATACAATGAAGGCTGAAGGAATTGGACTTGATTTTGATACACTTGCCCTATTAGCTAAACACTATGCTGCGGGTGGGCTTAAAGAAAAAGCCAAGGGCATTTTAAAAGAGATGGAAGAATCCAACTCCAAAGGTTCTCAATGGCCATGCAGATTTTTACTTCCCCTTTATGGAGAACTCCAAATGGAAGATGAAGTGAGGAGGCTCTGGAAGATCTGTGAGGAAAATCCTCGTATTGAAGAATTTATGGCTGCCGTTGTTGCTTGGGGAAAGCTGAAGAACGTCCCGGAAGCAGAGAAAATTTTTGATAGAGTTGTGAAAACATGGAAGAATTTATCTTCAAGACACTATGCTTCCATGATAAATGTTTATGGAGAGAGTAAGATGCTGACGAAGGGCAAGGAACTAGTGAATCAGATGGCACAGAGCGGTTGCCGCATCGATCCGTTGACATGGGATGCAGTTGTGAAGCTCTATGTGGAAGCAGGGGAGGTAGAAAAGGCAGACTCTTTCTTGGTTAAGGCTGTTCAACAATACGAGATGAAGCCATTGTTTACCTCATACAGGACTCTCATGTATCACTACGCACGGAGGGGTGATGTTTACAATGCAGAGAAAATCTTTCATAAGATGAGACAATTGGGTTACATGCCTCGTTTCAGCCAATTTGAAACTCTAATACAGGCATATGTTAACGCCAAGACTCCGGCCTTTGGTATGAGAGAGAGAATGATGGCAGATAATGTTTTCCAAACAAAGCTTTGGCAGGAAAATTAGCTCAAGTTGATGCTTTTAGTAAGCCAGCAGTGTCATATTTGCTTGACTGAGAAATATGACCTGTTACTTTTGAAATGTATTAACTTCCTAGATTTTCAACTTTATGTTTCAAATCAGGTATTTGGATCTAGGTTGATGTGATTAGTTAAATGAAACTTATTTGGCTCTTAGTACAGAAATTTTGGAATTGGATCTGGTTATCCCTGTTAATGTGTTTCTATTATCCAATTCTTCCTTGGAAGTAGATCTTTTATTTTCCAGAAACTCAGAAATGAAGATTGAAAATTTTAAGATTGATGGTTTGATTGACCTAGTGATAAAAAGGGAGATATAGTTTCAATAACTAAGAGGTCATAGGTTTAATCCATGGTAGCCACCTTTTTAGTAATTTTTTTTCTAAGCGTTTATGGTGGCCATCTATCTAAAAATTTATTTTCTACGTTTCTTTGACATGACATCCAAATGTTGTATGGTTAGGTTTGTTGTTCCATGTGAGATTCGTCGACATTATTCAAACTCTCGTGGATTTTAAAAAAAATTAGGTTTTTGTTGAAATTAAAATAAACATAAATATATTATATACTATAGCTCATATGGTATGCTAAATTAGCACAATCTTCATTACATTCACAAATTAATTAATGATGGTTAAAAGAAGTATTTAGAGATTATTTTAAAAGGCTAAATTGCTATTAAGGATAGTTAAAAGAAATGTTTAGATATTATTTTAAAAGACTAAATTGCTATAAATATTTTTAAATATAGTAAAATTAAATTGCAAAAACAACGAAATGGTAAAACATAATTTTTTTTTCTTCATTTGTTTGTATTTATAAATAAATTGATGTAGAAAAAGTGTCTGTTGACAAAGATTATCTTAATTGAGATGAAATTTGTCAATGTAATGCTTAAAACATGAAAAGTCAATTGAGATGTCAATGTAATACTTAAAACATGAAAAGTGGTACTGCTATTTGAGATTGCTTGGCTTTTTCGATGTAAACTGCTACTTGAAATACTTGGTCATCTCACCAACGATGTTTGGTTGAAATTTTAAACATGGTTTGTTCTTGTATCCCAAATCCGAATCCATCCTAAAAGTTGGTGCTAGAATTCCTATTTTTCATTTTTTTTTCTAATATCCTCATCTGATTTTAAATTGGCCAAAACGACAAAAGAAAATGTTTCAAAATCTTATCATTTTAAGCATTCTCTCATTTCTATCAACTACACTTAATTTTCATTAGAGACTACGATTGAAACTTGAAAAGTAAAGATTGAAATCGAGTCTCGTGATGACGGCGATCAATGACAAACGATAGTGGCACCAACAATGTCATCGATTCAACGATAAGGTGGTGGTGATAAGGAGGGTTGACATCTACGGCTTGCTACTCTTTAGAGTAAGAGGTAAAAGGAAGAAGAAGGAGAAAAGGGAAGGGAAGAGAAAAGCTTAGTACCCGAAACATAAAATATTATTAATTTAGTATATTTTTCAAGTAAGAGCCAAAATAACTATATGGACCATTTAAAATTCAAAATCTCATAAACGAAAATATTCATTTTAAAACTTCAAGAACTAAATAAACACAAACCTTAAACTTTACGAAACAAAAGTGTAATTTTTGGTTAGGTATATTTTTAAAAACTATTGAAAAGCTAACAAAATAATAAGAATGAGTATTTTATTTTTAAGTCAAAACATATTTTTGACGTAAAGTACATATGTTTATATGGTTAGGAGTATTTTGTATAGTTTTTTTTTTTAAAAAATAAAAATAAAAATGCAAAAGGGCTAATCTACACAGTACACACAACTCACAAGCGTATTATGGCCAATTAGATGACGGGTTTTAGGGTTTAAGAACAACCTCCATGCCACTGCCATTGCAACTCATCTCTCACTCTTGCTTCCATTGTTGAAGTCTTCTGAGTTCCTCACTGCTAATATATTCTCACCATGTGGCCTCTTCGTAGAGCTTCTACTCCTCTTAGGTATGCTTCTCTTCCTTCATCTATTCGCCTGTTCTTCACACTGCACCTCTCTGTTTCTCTACCTCACATACTTCATTCAAGAACAAAACTTTGAATCTCGTTTTTGGCTGTTAACTTGTGAATTCCTTTCATGTGTTTTTTTTTTCACTGACAGTATGCATCAACAATCTTCTTTCTTGCTTCTGATCGACTTTCCGGTGCTCATTAAAGAAGAAAATGAAGTAAAGAGTTCTGCGTGATGTGTTCTGTCCTTGTGCTTACCTTTGTGTTCCATTTCTGTTTTCTTTAACAGGTTCTTACTTGCTTTTGATTGATATTTTCTTTTGTCTCCTACGGATAACTTGGTCCGAGTGATGAAATTAGAATCAGTGCAAACGTAGACACTGGAATTGGGATGTAAGAACGGGTAATATTGAGAAGAAAATAAGAAATCCTTGTAATTTGGACATTCTTCTTTCTATTCTAATGTTCTAAACATGGAATTTTCAAATGGCAGTTCCCTGAAATAAATCATTATCAATCATCCGAAGGACTTTTTGTATTTATTTACTTCTGTATACATATACTACATGCATATACGTGTATATTGTGGTGGGGAAGGTATAATGCCTCCAACTTTTCAGACCCCTCTCTGTAAAAGCTTTTTGTGTTCTCTTTTCAGGAATCAAGGGTATAGAGTAAGAACTTCATATGTCTTTGGCAAACTAGAGGTACCGTATTTTTGGGAAGGAAATGTAGCTGGTTTTGGAACCACTGCTGCTTTATCCGACGGATTCATCTCTTTGGAGAGAAATAACCTTGCCATGTGGCCGTCCTCTGGGGTTTATATTAGTAGTCATGGTCTGTCTACACAAGCTGGTGCTGAGAACAGTGGAGAGGTAGATAAAGTGGAAAATGGATTTTCCGAACTTGATGAAACACTTCCAACAACTAGTCCACTTGAAGATAGTAAGGCAGGTGATGATAATGAAGAGGAACTAACCTCTGGATCAGAAATTTCTGACAACTATGCCGATGTTGTCGATGATGAGACTCAAAGTGAACTGGATTTACTTGAGGGAGAAACTGAACATGCTGAAAAGATATCTACAAAATGGGCTCCTTCAGAACTTTTCAACGCTATTGTGAAAGCTCCTGGTTTATCTTTCCCTAGTGCACTTGATAAGTGGGTCGGCGAAGGAAAAAAACTAAGCCGGGTTGATATTTCTTTGGCCATGCTCAATCTTCGTAAACGTCGGATGTTTGGGAAGGCTTTGCAGGTAAATTGACTTTGATGTTACTTTTCAAGCAATGAAATTCATTTATGTGGCCTGATGTTTGTAGTTAGTCTCACTTCACTTGGTACATGTGGAACTCTTTATAAGCTTACTTGATTAGTGGACACAATTTATTTCAGGATAGAAATGTTAATCAAATTTCAAAAAGTACAATAATCAGTTGTAGTTTTATGGTCTAACAAGCATAAAATGTTTAAGCAATTTTTGCACTGAAGATGCATCTGTCAGGCTTGTAATCAGTAAACCCGATTATGTAGATCAATTTTTAAGAAGTACCATTATCAAATACTTGTATAAAAAACTGTTGAACTGGCCTATAGCATTCAAATGGTCCTGGAGCCTCTTACAGAAATTTCAGTCGGTTTGATATTTAACTGCTGCCAGTATATTTGGATCAAAATTATACATGGTTGGCCAAAAGTCATTACTGGTATAAAAATGGTTTTGCAATTTTTGACACTGAAGATTTTTCTGGCTATTGTATATGGTAAATATTTTCTCCAATTTTTAGACGTTGGTTCATCATTTTTCGATTTCATTTCTGGCATTTCTGTTTGGTTTTCACAGTTTTCAGAGTGGTTGGAAGCAAATGGGAAACTTGATTTTAATGACAAAGAATATGCTTCTCGGCTCGACTTGATTGCAAAGGTACGAGGTTTTCATAAGGCAGAGAATTACATTGCTAAAATTCCGAAGTCCTTCCAAGGTGTGGTGATATACCAAACTCTTTTGGCCAACTGTGTGACCACCGGCAATGTAACAAAAGCGGAGGAAGTATTCAACAAAATGAGGGACCTTCAATTCCCAATCACAACATTTGCTTGCAACCAGTTGCTTCTTCTTTACAAGAGGTTTGACGAGAGAAAAATAGCAGATGTTGTGTTGTTGATGGAGAAAGAAAATGTCAAGCCTTGTCTGTTTACTTACAAAATCTTAATAGATGCTAAAGGCCGTTCAAATGACCTGACGGGGATGGAACAAGTTGTTGATACAATTAAGGCTGAAGGAATTGAACTTGATTTTGCTGCACTTTCCATATTAACTAAACACTATGTTTCAGGAGGGCTGAAAGACAAAGCCAAGGCCATTTTAAAGGAGATGGAACATAATAACCCCGAAGGTCCTCGATGGCCATGCAGAATTTTACTTCCCCTTTATGGAGAACTCCAAATGGAAGATGAAGTGAGGAGGCTCTGGAAGATGTGCGAGCCAAAACCTCGTATTGAAGAATGCAGAGCTGCCATTGTTGCTTGGGGAAAGCTGAAGAACGTCCCGGAAGCAGAGAAAATTTTTTATAAAGTTGTAAAAACATGGAAGAAGGTAACCACAAAATACTATTGTACCATGATGAAGGTTTATGCAGACAATAATGTGCTGACGAAGGGCAAGGAACTGTTGAAGCAAATGGAGAGCCGTCGCCACATTGGGCCGTGGACATGGGATGCAGTTGTGAAGCTTTATGTGAAAGCTGGGGAGGTAAAAGAAGCAGAATCTTTCTTGGTTAAGGCTGTTCAACAAAACAAGAAGCAGCCATTGTTTACCACATACATGACTCTCATGGATTACTATGCAAGGAGGGGAGATGTCCACAATGCTGAGAAAATCTTTCATAAGATGAGAATATCGGGTTATATGGGTCAATTAAGCCAATTTCGAATTCTAATACAGGCATACGTTAATGCCAAGGCTCCAGCCTATGGTATGAAAGAGAGAATGAAGGCAGATAATGTATTTGCAAACAATGCTTTGACAGGAAAATTAGCTGAAGTTGGTTCTTTCAAGTAG AAGCGTATTATGGTCAATTGGATGATGGGTTTTAGGGTTTAAGAACAACCTCCAAGCCACTGTCATTACAACCCATCTCTCACTCTCGCTTCCATTGTTGAGGTTTTCTGAGTTCTTCACTGCCGACATCATCTCACCATGTGGGCTCTTCGTAGAGCTTCTACTCCTCTCAGGAATCAAGGGTATAGAGTAAGAACTTCATATGTCTTTGGCAAACTAGAGGTACCGTATTTTTGGGAAGGAAATGTAGCTGGTTTTGGAACCACTGCTGCTTTATCCGACGGATTCATCTCTTTGGAGAGAAATAACCTTGCCATGTGGCCGTCCTCTGGGGTTTATATTAGTAGTCATGGTCTGTCTACACAAGCTGGTGCTGAGAACAGTGGAGAGGTAGATAAAGTGGAAAATGGATTTTCCGAACTTGATGAAACACTTCCAACAACTAGTCCACTTGAAGATAGTAAGGCAGGTGATGATAATGAAGAGGAACTAACCTCTGGATCAGAAATTTCTGACAACTATGCCGATGTTGTCGATGATGAGACTCAAAGTGAACTGGATTTACTTGAGGGAGAAACTGAACATGCTGAAAAGATATCTACAAAATGGGCTCCTTCAGAACTTTTCAACGCTATTGTGAAAGCTCCTGGTTTATCTTTCCCTAGTGCACTTGATAAGTGGGTCGGCGAAGGAAAAAAACTAAGCCGGGTTGATATTTCTTTGGCCATGCTCAATCTTCGTAAACGTCGGATGTTTGGGAAGGCTTTGCAGTTTTCAGAGTGGTTGGAAGCAAATGGGAAACTTGATTTTAATGACAAAGAATATGCTTCTCGGCTCGACTTGATTGCAAAGGTACGAGGTTTTCATAAGGCAGAGAATTACATTGCTAAAATTCCGAAGTCCTTCCAAGGTGTGGTGATATACCAAACTCTTTTGGCCAACTGTGTGACCACCGGCAATGTAACAAAAGCGGAGGAAGTATTCAACAAAATGAGGGACCTTCAATTCCCAATCACAACATTTGCTTGCAACCAGTTGCTTCTTCTTTACAAGAGGTTTGACGAGAGAAAAATAGCAGATGTTGTGTTGTTGATGGAGAAAGAAAATGTCAAGCCTTGTCTGTTTACTTACAAAATCTTAATAGATGCTAAAGGCCGTTCAAATGACCTGACGGGGATGGAACAAGTTGTTGATACAATTAAGGCTGAAGGAATTGAACTTGATTTTGCTGCACTTTCCATATTAACTAAACACTATGTTTCAGGAGGGCTGAAAGACAAAGCCAAGGCCATTTTAAAGGAGATGGAACATAATAACCCCGAAGGTCCTCGATGGCCATGCAGAATTTTACTTCCCCTTTATGGAGAACTCCAAATGGAAGATGAAGTGAGGAGGCTCTGGAAGATGTGCGAGCCAAAACCTCGTATTGAAGAATGCAGAGCTGCCATTGTTGCTTGGGGAAAGCTGAAGAACGTCCCGGAAGCAGAGAAAATTTTTTATAAAGTTGTAAAAACATGGAAGAAGGTAACCACAAAATACTATTGTACCATGATGAAGGTTTATGCAGACAATAATGTGCTGACGAAGGGCAAGGAACTGTTGAAGCAAATGGAGAGCCGTCGCCACATTGGGCCGTGGACATGGGATGCAGTTGTGAAGCTTTATGTGAAAGCTGGGGAGGTAAAAGAAGCAGAATCTTTCTTGGTTAAGGCTGTTCAACAAAACAAGAAGCAGCCATTGTTTACCACATACATGACTCTCATGGATTACTATGCAAGGAGGGGAGATGTCCACAATGCTGAGAAAATCTTTCATAAGATGAGAATATCGGGTTATATGGGTCAATTAAGCCAATTTCGAATTCTAATACAGGCATACGTTAATGCCAAGGCTCCAGCCTATGGTATGAAAGAGAGAATGAAGGCAGATAATGTATTTGCAAACAATGCTTTGACAGGAAAATTAGCTGAAGTTGGTTCTTTCAAGTAG ATGTGGGCTCTTCGTAGAGCTTCTACTCCTCTCAGGAATCAAGGGTATAGAGTAAGAACTTCATATGTCTTTGGCAAACTAGAGGTACCGTATTTTTGGGAAGGAAATGTAGCTGGTTTTGGAACCACTGCTGCTTTATCCGACGGATTCATCTCTTTGGAGAGAAATAACCTTGCCATGTGGCCGTCCTCTGGGGTTTATATTAGTAGTCATGGTCTGTCTACACAAGCTGGTGCTGAGAACAGTGGAGAGGTAGATAAAGTGGAAAATGGATTTTCCGAACTTGATGAAACACTTCCAACAACTAGTCCACTTGAAGATAGTAAGGCAGGTGATGATAATGAAGAGGAACTAACCTCTGGATCAGAAATTTCTGACAACTATGCCGATGTTGTCGATGATGAGACTCAAAGTGAACTGGATTTACTTGAGGGAGAAACTGAACATGCTGAAAAGATATCTACAAAATGGGCTCCTTCAGAACTTTTCAACGCTATTGTGAAAGCTCCTGGTTTATCTTTCCCTAGTGCACTTGATAAGTGGGTCGGCGAAGGAAAAAAACTAAGCCGGGTTGATATTTCTTTGGCCATGCTCAATCTTCGTAAACGTCGGATGTTTGGGAAGGCTTTGCAGTTTTCAGAGTGGTTGGAAGCAAATGGGAAACTTGATTTTAATGACAAAGAATATGCTTCTCGGCTCGACTTGATTGCAAAGGTACGAGGTTTTCATAAGGCAGAGAATTACATTGCTAAAATTCCGAAGTCCTTCCAAGGTGTGGTGATATACCAAACTCTTTTGGCCAACTGTGTGACCACCGGCAATGTAACAAAAGCGGAGGAAGTATTCAACAAAATGAGGGACCTTCAATTCCCAATCACAACATTTGCTTGCAACCAGTTGCTTCTTCTTTACAAGAGGTTTGACGAGAGAAAAATAGCAGATGTTGTGTTGTTGATGGAGAAAGAAAATGTCAAGCCTTGTCTGTTTACTTACAAAATCTTAATAGATGCTAAAGGCCGTTCAAATGACCTGACGGGGATGGAACAAGTTGTTGATACAATTAAGGCTGAAGGAATTGAACTTGATTTTGCTGCACTTTCCATATTAACTAAACACTATGTTTCAGGAGGGCTGAAAGACAAAGCCAAGGCCATTTTAAAGGAGATGGAACATAATAACCCCGAAGGTCCTCGATGGCCATGCAGAATTTTACTTCCCCTTTATGGAGAACTCCAAATGGAAGATGAAGTGAGGAGGCTCTGGAAGATGTGCGAGCCAAAACCTCGTATTGAAGAATGCAGAGCTGCCATTGTTGCTTGGGGAAAGCTGAAGAACGTCCCGGAAGCAGAGAAAATTTTTTATAAAGTTGTAAAAACATGGAAGAAGGTAACCACAAAATACTATTGTACCATGATGAAGGTTTATGCAGACAATAATGTGCTGACGAAGGGCAAGGAACTGTTGAAGCAAATGGAGAGCCGTCGCCACATTGGGCCGTGGACATGGGATGCAGTTGTGAAGCTTTATGTGAAAGCTGGGGAGGTAAAAGAAGCAGAATCTTTCTTGGTTAAGGCTGTTCAACAAAACAAGAAGCAGCCATTGTTTACCACATACATGACTCTCATGGATTACTATGCAAGGAGGGGAGATGTCCACAATGCTGAGAAAATCTTTCATAAGATGAGAATATCGGGTTATATGGGTCAATTAAGCCAATTTCGAATTCTAATACAGGCATACGTTAATGCCAAGGCTCCAGCCTATGGTATGAAAGAGAGAATGAAGGCAGATAATGTATTTGCAAACAATGCTTTGACAGGAAAATTAGCTGAAGTTGGTTCTTTCAAGTAG MWALRRASTPLRNQGYRVRTSYVFGKLEVPYFWEGNVAGFGTTAALSDGFISLERNNLAMWPSSGVYISSHGLSTQAGAENSGEVDKVENGFSELDETLPTTSPLEDSKAGDDNEEELTSGSEISDNYADVVDDETQSELDLLEGETEHAEKISTKWAPSELFNAIVKAPGLSFPSALDKWVGEGKKLSRVDISLAMLNLRKRRMFGKALQFSEWLEANGKLDFNDKEYASRLDLIAKVRGFHKAENYIAKIPKSFQGVVIYQTLLANCVTTGNVTKAEEVFNKMRDLQFPITTFACNQLLLLYKRFDERKIADVVLLMEKENVKPCLFTYKILIDAKGRSNDLTGMEQVVDTIKAEGIELDFAALSILTKHYVSGGLKDKAKAILKEMEHNNPEGPRWPCRILLPLYGELQMEDEVRRLWKMCEPKPRIEECRAAIVAWGKLKNVPEAEKIFYKVVKTWKKVTTKYYCTMMKVYADNNVLTKGKELLKQMESRRHIGPWTWDAVVKLYVKAGEVKEAESFLVKAVQQNKKQPLFTTYMTLMDYYARRGDVHNAEKIFHKMRISGYMGQLSQFRILIQAYVNAKAPAYGMKERMKADNVFANNALTGKLAEVGSFK Homology
BLAST of PI0014902 vs. ExPASy Swiss-Prot
Match: Q9XI21 (Pentatricopeptide repeat-containing protein At1g15480, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At1g15480 PE=2 SV=2) HSP 1 Score: 547.0 bits (1408), Expect = 2.8e-154 Identity = 302/607 (49.75%), Postives = 413/607 (68.04%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy Swiss-Prot
Match: Q9C977 (Pentatricopeptide repeat-containing protein At1g80270, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At1g80270 PE=2 SV=1) HSP 1 Score: 545.0 bits (1403), Expect = 1.1e-153 Identity = 284/550 (51.64%), Postives = 396/550 (72.00%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy Swiss-Prot
Match: Q9LRP6 (Pentatricopeptide repeat-containing protein At3g15590, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At3g15590 PE=1 SV=1) HSP 1 Score: 483.4 bits (1243), Expect = 3.8e-135 Identity = 255/551 (46.28%), Postives = 362/551 (65.70%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy Swiss-Prot
Match: O22714 (Pentatricopeptide repeat-containing protein At1g60770 OS=Arabidopsis thaliana OX=3702 GN=At1g60770 PE=1 SV=1) HSP 1 Score: 171.0 bits (432), Expect = 4.2e-41 Identity = 136/481 (28.27%), Postives = 232/481 (48.23%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy Swiss-Prot
Match: Q940Q2 (Pentatricopeptide repeat-containing protein At1g07590, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At1g07590 PE=2 SV=1) HSP 1 Score: 147.1 bits (370), Expect = 6.4e-34 Identity = 113/443 (25.51%), Postives = 207/443 (46.73%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy TrEMBL
Match: A0A5A7UK78 (Pentatricopeptide repeat-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G006660 PE=3 SV=1) HSP 1 Score: 925.2 bits (2390), Expect = 1.4e-265 Identity = 468/617 (75.85%), Postives = 529/617 (85.74%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy TrEMBL
Match: A0A6J1I524 (pentatricopeptide repeat-containing protein At1g80270, mitochondrial-like OS=Cucurbita maxima OX=3661 GN=LOC111469986 PE=3 SV=1) HSP 1 Score: 906.0 bits (2340), Expect = 8.7e-260 Identity = 462/617 (74.88%), Postives = 527/617 (85.41%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy TrEMBL
Match: A0A6J1F506 (pentatricopeptide repeat-containing protein At1g80270, mitochondrial-like OS=Cucurbita moschata OX=3662 GN=LOC111440885 PE=3 SV=1) HSP 1 Score: 899.8 bits (2324), Expect = 6.2e-258 Identity = 459/617 (74.39%), Postives = 525/617 (85.09%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy TrEMBL
Match: A0A0A0LEU5 (PPR_long domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G819910 PE=3 SV=1) HSP 1 Score: 899.4 bits (2323), Expect = 8.2e-258 Identity = 470/618 (76.05%), Postives = 522/618 (84.47%), Query Frame = 0
BLAST of PI0014902 vs. ExPASy TrEMBL
Match: A0A6J1EZV3 (pentatricopeptide repeat-containing protein At1g80270, mitochondrial-like OS=Cucurbita moschata OX=3662 GN=LOC111440876 PE=3 SV=1) HSP 1 Score: 899.4 bits (2323), Expect = 8.2e-258 Identity = 459/617 (74.39%), Postives = 526/617 (85.25%), Query Frame = 0
BLAST of PI0014902 vs. NCBI nr
Match: KAA0053889.1 (pentatricopeptide repeat-containing protein [Cucumis melo var. makuwa] >TYK25516.1 pentatricopeptide repeat-containing protein [Cucumis melo var. makuwa]) HSP 1 Score: 925.2 bits (2390), Expect = 2.9e-265 Identity = 468/617 (75.85%), Postives = 529/617 (85.74%), Query Frame = 0
BLAST of PI0014902 vs. NCBI nr
Match: XP_022971190.1 (pentatricopeptide repeat-containing protein At1g80270, mitochondrial-like [Cucurbita maxima]) HSP 1 Score: 906.0 bits (2340), Expect = 1.8e-259 Identity = 462/617 (74.88%), Postives = 527/617 (85.41%), Query Frame = 0
BLAST of PI0014902 vs. NCBI nr
Match: XP_038906202.1 (pentatricopeptide repeat-containing protein At1g15480, mitochondrial-like [Benincasa hispida] >XP_038906203.1 pentatricopeptide repeat-containing protein At1g15480, mitochondrial-like [Benincasa hispida]) HSP 1 Score: 904.8 bits (2337), Expect = 4.0e-259 Identity = 463/617 (75.04%), Postives = 526/617 (85.25%), Query Frame = 0
BLAST of PI0014902 vs. NCBI nr
Match: KAG6596168.1 (Pentatricopeptide repeat-containing protein, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 904.0 bits (2335), Expect = 6.8e-259 Identity = 461/617 (74.72%), Postives = 526/617 (85.25%), Query Frame = 0
BLAST of PI0014902 vs. NCBI nr
Match: XP_022933485.1 (pentatricopeptide repeat-containing protein At1g80270, mitochondrial-like [Cucurbita moschata]) HSP 1 Score: 899.8 bits (2324), Expect = 1.3e-257 Identity = 459/617 (74.39%), Postives = 525/617 (85.09%), Query Frame = 0
BLAST of PI0014902 vs. TAIR 10
Match: AT1G15480.1 (Tetratricopeptide repeat (TPR)-like superfamily protein ) HSP 1 Score: 547.0 bits (1408), Expect = 2.0e-155 Identity = 302/607 (49.75%), Postives = 413/607 (68.04%), Query Frame = 0
BLAST of PI0014902 vs. TAIR 10
Match: AT1G80270.1 (PENTATRICOPEPTIDE REPEAT 596 ) HSP 1 Score: 545.0 bits (1403), Expect = 7.5e-155 Identity = 284/550 (51.64%), Postives = 396/550 (72.00%), Query Frame = 0
BLAST of PI0014902 vs. TAIR 10
Match: AT1G80270.2 (PENTATRICOPEPTIDE REPEAT 596 ) HSP 1 Score: 545.0 bits (1403), Expect = 7.5e-155 Identity = 284/550 (51.64%), Postives = 396/550 (72.00%), Query Frame = 0
BLAST of PI0014902 vs. TAIR 10
Match: AT1G80270.3 (PENTATRICOPEPTIDE REPEAT 596 ) HSP 1 Score: 545.0 bits (1403), Expect = 7.5e-155 Identity = 284/550 (51.64%), Postives = 396/550 (72.00%), Query Frame = 0
BLAST of PI0014902 vs. TAIR 10
Match: AT3G15590.1 (Tetratricopeptide repeat (TPR)-like superfamily protein ) HSP 1 Score: 483.4 bits (1243), Expect = 2.7e-136 Identity = 255/551 (46.28%), Postives = 362/551 (65.70%), 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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