PI0020131 (gene) Melon (PI 482460) v1
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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.ATGAAATTAGATTAGATTAGCCGATGCGTTGCGGTGCATTTTACCAAAACCATTTTTGTACTAAAGAGAAAGGCAACCGCCAATTCATCGCATTTCCCATCAGACAAGCAATCCGAATCCGAAAGAACACGGATCAATAGGCGGAAGGAAGAATCCAATCCGCCGATTTGCTGCTAGGATTTCGATTCGAATCCAAGAATTTGGTATCATCAATGGCCGGCCTATCGCTCCAGTGTGGAGATTGTGGCGCACTCTTCAGATCCGTAGAAGAAGCTCAACAACATGCCGAACTCACTTCTCACTCCAACTTCTCTGAGTCCACAGAAGCAGTGCTCAATCTCGTCTGCACTGCTTGCGGCAAGCCCTGCCGATCGAAGACGGTATGAATTTCGAACTACTTTCTTCAAATTTTAATCTCCAATTCACTTCTTTGCTTTTCCGGAGTTCGTAGTTATATTTAGTAGAACTACGCCTTTTGAATTCTCTTTTTATGGTGTTTGGTTCTGTAGGAAAGTGATTTGCATACTAAAAGGTCTGGCCATACCGAGTTTGCTGATAAGACTTTGGAGGCTGCAAAACCAATAAGTTTGGAGACCCCAAAGGTAGATGCGGAAGCAGAAGATGGCGGAGATGCAAGTGCTAGCAAGTCTGAAGGTATGGAACAATTCGCGTCATGATCTGTTCTTTAAATTTCTAATCATGTTAAAAGAGAAAATACAGTTGTAGAAATGAACCCAGGGCGTGACTGATAGGTGAAAATTTAGGTTGAATGATAATGAATTGTGGCTGTCTAAGGGGCATCCATTTTGACAATGCTAGCTGTAGAGTTCAGTTTATTGAGATCAGACCCCTTAGTTGCACTATCTACAAATTTCTGGTTCATGTCAAATGAAAGGAAAATGGAACTCATAATCATCTTTTCATTCGTTGTCCAACGGCATCTCAGAATTGAAACATTTACTTCCTTTCTTCTTTGGTGGATATCCTTTCAAAGACACAGTTAAGTCCCTGATATGGGATATTAGAAGTTATTATGTTATATTAAATTGATCTATTCTACAATATTTACTTGTAGGCAAGAATCCTTCCTGGCATTCTTAGACCCAAGAAAGGTCTATACCAGAATAACGTGAAAAGTGAAAGTGCCCTGAAGATTTAGTTAATCAAAGAAAAAAACTGAATATAACCTACTTACTGCCATTATTTATAGGTTCTCGCTGATCTTTATTTACAAAATGTCACGTATAAAATTATCCTTTGACTACCAACATATTTAACCGGAAGTAGAACAAAAAAAAAAAAAACAAGTTGATCTGACGGATGCAACAAACAAAGAACTTACACGCCTAACAGCTTACAGTTTTTTGGTGCATTTTCATTTGGTTACTTCTTATATAAAAAGAGAAGAAACCTTTGTTCGCACCACCCTCTCCCTCTCTTCACTGTATATCTCTTAAATTTATCATCTCTAGATCTTGCACGTTCAAGTCACATCATCATGCAAATGCATGGAAATTATCCATGAAGCCGTTCTCTTAACTTCAATGGTATATCGTTAGAAAGTAATCTATGTTAGAAAAGATTAGTGTTATGACGGGAGATTGGTAAGAAAGCTCGTTAATGCAATCTAAAATTTCAAGCTAAGCTATGTTTTAATTGTTTCTTTATTTGCTCACTGGTGCATTTTGCCACTTGAGTAAACATTTGACATTATCTTTTTTTGTCTGTATTAAGAAATGGTTGTGCCAGAGGTGAACAAGAATATATTAGAGGAACTTGAAGCTATGGGCTTTCCAACAGCACGAGCAACCCGTGCACTCTTTTATTCTGGTGAGTTGTTTGTAAAGTCAGAACGCAAATCTCTTTTATTTTGAGTTCAAACACTTGGAATGTTATTTCTTCATCACTTGAGTATAGTCAACTTATTGGAACTCTCTAGTCAAACTAGTATCCGTGTTCACAACTTCACAAATGTGAGGGCTGCAGAATATGGTTAAATTTAATTCTTATCTTTTAGATTAAGCATCATTGCTCATTTAATTGAAAGTGCTGGGGTAGGCTCTTTAAACCATTCAGACTCTCCTGGGTGATAGTAGAGATAGAAGGGCAACATTTAAGAGTAACTTTAATGCAACCAAAACATTAAAAAGAGAGGGGCCAAGGATCTATGGAACAATGCTCTTAAGCCTTCCTCTATGGTGTATGGATTTATTGGGCCCAAAGTCTTATTTCATGACAATGCTGGAAGGAGGTGGTATATGTGGCCAAATATCATTACTCTTGTAGGAGTGTTTATGAACCTCCCTTTTTAACTTCTTCCAAGCTCCAAACATAATGATTCGGTTTGGATTAGCTTTTTGTAACTACTATGGTTTGCTGGGGGTCTTTTGCATGCTTGTAATGGGAGCACTAAAGCAAATTGTCACTTTTTTCCATGTTAATATAAACTTATTTGTTATATATCTCTTATCCTCAGCTGTTGGATCCTTTCTTGTAATTTTTTTTCTGGCTCTTGTTGAGGTGGACTATTTTTAGTTTTTTTGGGTTGTCATGTGTATTGTCTCATTTGCTCGAATAAAATTAGATTTTCATTAAAAATAAAAAAGAAGTAGAAATCTATATGTTCATGTAGATTTGAAAAGATAATGGGTTCAGTATATATTTCCTTATTGGATAAATTGAAACCTAAGTTAGGATATTTTAGTCTTATATGTTTATATGACTTCCATGTGGATGAACTGTGCATGATGGTGTAAACACTGTAAAATTCCTAAGCATGCTCCTCAAAACACCGCTAATGTATTATTTTGGCAATTCTTTTCAGTTTGTCTCATCCACTCAGTTGTATAGACCATTTTTTTTTAATGAAATGAACAAAGATATATCCATATTTTCATGGATAACTGATAGGATTGGCATTAGGGGTTATTAGGGTATTAAGAGCATAATAGTAATTAGTTAGGGAGTTAGTTATATTTGTTGGTTATAAATAGAGGGAGAAGTGAATGGAGAAGATAAGAAATATTTGGTATCAGTGGCGGATCCAAAAATTTTATTGACGGGGGGCTTTATAGATTAATAAAAATAATCTGGAAAAAAATGTAAGAAGTGGGGATTGAACTTGGGTCTAGAGGGGGCTAGTAGACAATTTTACCACTGGGCTAACATCTAGAATTGATGTAATTTCAGTTTTTTTATATATATGTAATATAAAGAGCATAAAGTTGATGGGGGGGTTGAGCCCCCCGGGCCTATGCTAAATCTGCCGGTGTTTGGTATATGAACTAGCGCTTGAAAGTGATCTCAAGATAGGCTTGAGTGTGATCTCAAGAAGGGAGGATCCAAGTATCTTGAATCACTTGGTTTATCATGTATTTCTATTATTTTTTATATTCAATATATCTGGGCTCTATCAATAACATATGGATATTCATTTTAATAGAACTATCATTTATGTATCTATTAATTAACAAGTTTTAATTTCTCTCATTTTAGGTAATGCTAGTCTTGAGGCAGCAGTCAATTGGGTAGTCGAACATGAGAATGATCCGGAGATAGACCAGATGCCTTTGGTATGTCCTGTTGTCCTTCATATTTAGTATTTGTATCTTTAATTTGTTTCGGAGCTCTACTTTCCTTTACACATACAAAACAATCTCTATTCATCAAGGTATGAATGGGGTCATTGTAGAGGTACAAGTAGATAAATTTGATTGGTTGTTTGTTTGCTTTAGGTGCAAGTTTGTGTGTTATAAACCGATGCTGAACTGATATAACGAAAAAAGTGAAACTAGTTAAAAGAGAAGCTTTGAAAAATCAGATCATGGCAAAGAAAAAAAGCTTATTGAACCATTTAAAACCTATCAAGTGTATTAAAACGCTGGCAGAATCAACCAAAGCTGCTCAAATTGATGAAAAAACCAAATGAACTGAACATATCCGGGTTTAAATCTTATAAAACTGAACCAACTGACACATTTTAGCCAAGATGATATATGACAACCAACCTTGCTCAATGAAAGTTGTTTCTATCAAAAAAAAAAAAAAAACGACAACCAACCTTGCTGTTTCAGTAATCTTCATTGGGAGGATTTCATATCATCTATTGTACATATTATATTGCCAAACTCATATTCTATATATATATATTTTAAAATTTATTGACAGAGGTAGCAGGTCAATTGGATATATGCCATCTTTGTTTGTTTAGTTCTTGGAGGGAATGACACCTTACTTTGTGTTTATTTCTCAGGTTCCCAAGGACACAAAGGTTGAGGCTCCAAAGCCTTCTCTTACACCTGAGCAATTGAAAGCAAAACAGCAGGAGCTAAGGTACAGGGTCACTCATAGTGATATTATGCTAGTATTGAAAAGAGAAAATACGTAAATGGGGGGGGGGGGGGGGGGGGGGGGATAAAGTATCTCTCAGAAGCCACAAATTTTGAAAAGGATTCCAATTAGCATTACATAAGGATTGCAAATTTTATTATTATTATTACTACTGCTGCTGCTACTGACAAAAAAAGGAGTACGAATGAATAAAGTGCTCGGTCTAGAGAATCCAACTAGAAGTAGGGAAAATAGTTCTATCAATTAAGTTATAATCGCTGACCATGTACCTTCAAAGCACTAGTCCTTTTCCAACCAAAATTTTATGGAGATCATGCCTGCCACCATATGCACACCACTTTTGGCAACAAAGTTCTGAATCTAATTAAGAAAAGATTCCTGACTGTATGATTGAAAAGGATTCCAATTAGAAGCCAACAAATTTTGTAAAGGATTCCAATTAGCATAACATAAGGATTGCATATTTTTATATTATTATTATTACTACCACTACTACTGACATAAAAAGTACGGATGAATGAAGTGCTTGGTCTAGAGAATCCAACTAGAAGTAGGGAAAATAGTTCTATCAATTAACTTATAATCGTTGACCCATATACCTTCAAAGCACTGGTCCTTTTCCAACCATGATTTTATGGAGATCATGCCTGTCACGATACTGCACACCACCTTGGTCATATTTTTTCATCTTTAGGCAACAAAGTTCTGAATCTAATTAAGAAAAGAATCCTGACTGCATGATTGCCAATTAGCATTATTTTGTTAGATGACTCCCCCCCCCTCTTTGTTTCCCTTTTTTTGTTTGTTTTTGTTTTGTTCTTTTGGGGATTTGCTTTCTATTTTTCTCTCATATTGTGAATTATCTTTTAGGGAACGGGCTAGGAAGAAAAAAGAGGAGGAAGAGAAGATAGCGGAAAGAGAAAGGGAAAAGGTATTTATGCTTCGCTCATTTTTATAGCAACCTTTCAAGAAATAATTAAATCATTGAGGAACATCAGGATAAAGCTTACCATCTTTCTCTTGTCATTTCTTTAGCTTTTTCATGTTTATGTCCTGGTTTTGTTTTAATTAAGCTCCTTTTTCTTTCTTTTCTTTGGTGATAGATTCATAGAATTAGAAGTCATTTGGCTATGGAAAAGTTAAAAGTAGTATTGTTGTGTTCCTTAGCTTTTTATGACTGACAATGGCCTCAGATAGATAATGTAATATGCATTTGTTTTCTCAGGAGAGAATTCGAATTGGCAAGGAGCTCTTAGAAGCCAAAAGGATTGAGGAAGAAAATGAGAGAAAAAGGTTCTTTTTAGATAGAATTGTTCATGAATGGAATTGTTCTTATGCTATTGAAAGCATTATTACTATGCTGTATTGTATTCAAGTTTGCTCCTTTTTTATGCAAAATATCTTTCCTATTGTAGAATATTAGCCTTGAGAAAAGCTGAAAAAGAAGAAGAGAAAAGAGCCAGGGAAAAAATTCGTCAAAAACTTGAAGAGGACAAGGTAGTGATAGTTCCTAATCCTGAAAAATTGTGCTTATTAAATCAATTAAGCATCGTATAGTATAAGATTTTGTTTTTAAATATATTTGTTTTTTTTGTGTTATTCCTCATGAATCAATGTGCGTTTCTTTTCTACTCACTTTCCAGATCGATAAAAAGATGTTTTCAATGCACAGCTGCATGTTGGTTTGTGGAAAGTACTATCTAGTGTTGTATTCGTAGTTTACATTTTTACTCTCAATTCTTTAGTAACTTCAGTTGTGAAAAGAAGTGATAATCTGTTCCCATCGTTTCATAGAAGTTGGTTCATAAGTGTGGTTCTTGTGGGATGGTTAGGCTGCAACTGGTAATTTCAATTATTAACGGGCTTGGTCTGCTGGTCAAAGAGGAAATGTTTTGTTTATTTATTTATTTTGTAAGAAACCACACTTTAGAGATGGAAGAATATACAAGGACACACAAAAAACCAAGTCTGAACAGAAAAAAGAGTTTGACACTAACTACAGGAATGGACTTCTCCAATCCAAAAGAACAAGACCAAGCTCATAATTACAAAAACTGCCTAGTAATTGATGTCATTTATCCTTTTCCGATCTCTCAATCTCTTTAAAAATTATTTGAACCCATGAGTTCAATTCTCATTTGTGAAGTCTGTCACATCAGTGTATGCCGTCTTTTTTAAGTCAACCTGACCTAGCTAGGATGTGGATATTATGTATCTTTCTTAATTCCAAATATAATGAGATTTGTTGATACTTATGTAAGTGATCGTGGATTATGAAAAATTCTTATTATAATAGTTTTTTTGTTAAATTATAAATCCCTCAATTTTCACAAGTTACTAATAAATCTTTGAGCTTTCAATTTTGTATTTAGGAGGTTCTTGACATGAAATTAACTGTTTATATTTTAATGAAATTAACAGTTACTTAACTAACCCCTTGTCCTTGGGCTTTTCTTATTTTGCCTTGGTATAAGACAAAAGAAAAAAAGATATTTATCTTCTTTCCTATAAAAAAAATTAAATGTGTTATTAGACATAAAATAAAATTTTGTATCTTGTAGGGTCCCTAACTTTCCATTTTCTATATAATAGACGTGCTAATTTAAAAACATTGTCGAATATAGACATGGAATTGGAAGTTTAAGGACACTTGTTAACATTAAGTTGAAAGTTTAGTGTTCTATTAAATTCTCAAAAATCTATTACACGTGGAATTAAAAGTTCAAGACCTATTAGAGATGTTTTTAATATTTTAGAGACCTCATGGATGCATACCTTAAAGCTGAGTAACTAAACTTGTAATACTTGTTTTGTTTTGTTTTCTTTTTTTGTTAGTATTGTTTCTCTTAATATAGAAAATGACATTTGGTTGATGAGATGATATAGAAACAACAATTCAGATAAGCTAACAGATTTAAAAAGACCATTTAGTGTTTCTATATCATCTTATCAACAAAATGTCATTTTTTATAGGTGATGAATAGAAAAGTAGAATCCCCAATAGGTTGTGCTGCTAATGAAATTCGGCTTATCATGAAATGAGTCTTGATTTTGTTCAACTATTAGAATGCTTTTTTTTTAATCTTCTTCTTTTGTTTAGGATATCATATTGTTTGTTTTAAGTTGTGAGCAAAATGATAATAGAATGTGATTTTATTATAAAGAAGTTATTTTTTCACAGGCAGAAAGAAGACGGAGGCTTGGATTGCCACCAGAAGATCCTTCAACTGCAAAACCTTCGGCACCTGTTGTTGAAGAGAAAAAGGTATTGCCTGTGCTGTCGGATTAGGAGGTACTCTTTCAATATTGAATTGCTTAGAGTTTCTTTGATTAAATGTTTGTTTGTAACTGCAGATGTCTTTACCGGTTAGACCTGCTTCAAAGGCAGAGCAAATGAGAGAATGTTTGCGATCATTAAAGTCCAATCACAAGGTAAATATGTTTAAGAATTCATAAAACACTCCCAACGCAGACCGGAACTCACAGAATGCAGCTAAAATTACAATGACTTTTACATGTCTGTATACAAGCACTAGCACACACATATGGAAGTACACGTACTTGCATATGGGATATAATTGAAAAGAATTTGAAAGCGTGCACCAATGAGAAGCTGTGAACTAACTTAACCAAGTCAAAGACATCATCCCAACTCCTACTTCTATCATTGAAAGTTCTGCCGATTCCTTTCTAACCAGGGTTAACAGGGCATGGCTTTGTTTGCATCTGTCCACAAAATAGTTGTCCTTTCCATTCATTACTTATTTATTTTCCCAAGGAACAAAACTTTTCATTGATGAAAAGAAAAGATACTAGTGCTCAATAGATACTAGGAGGTTGTCATTTGTCCAATAAGGAAATGACCGAGGTTGCTTCTCTTCTTTCCTCATTGGAGAACTGCAATTTCAGAGTGGGGAGAAGGGACATCGTATTTGGAATCCAAATCCTAGTGAAGCCTTTTCTTTTAATTCTTTCTTTAGATTGTTGTTGGATCCCTCTCCTAGTAGAGAGTCTGTGTTTGTTGTGGTTTGGAGGATCAAGATAGGTAAGAAAATCAGGTTCTTTATTTGGCAAGTCTTGCTTGGCCATATGAACACTTTGGATAGGTTGGTTTGAAGGAGGACCTCGCTTGTGGGGCTTTTTTGTTGTATTCTGTGTCGGAAGGGTGCGGAAGACTTATATCATCTCCTTTGCGATTGCCAATACGCAAGGTATGCTTGAGCTATTTCCTCCGGAGTTCGATGTTAGTTTTGTTGGGCAAAGGAACGTTTGTGCAATGATCGAGGAATTAATTCACCGTTCGACATTCAGAGAGAGGGCGTCTTTTGTGGTTTGCTCGGGTGTGCCCTGTGATTTGGGATCTTTGGGGGATGGAATGATAGAGTATTTAGAGGTAGAGATAAGGAACCTTGCGAGGTTTGTCCTTAGTGAGGTTCCTTGTGTCTTAGTGGGATTTGGTTTCGAAGATTTTTTGTAACTATTCTATAGGCAACGTTTTACTTAGCTGGAGCCCCTTTATTTGGTTGGGGTTTTATGGTGGGCTGGTTTCTTGTATGCCGAAAGTTGTTTTCATAAAAGAAAGACTGCGTAGAAAAAAAATTGCATTGGAATCAGCATAATTGATTACTGACTGAAGGGACGGTAAAATATTACATATTTGGGCTTTCTTGGTTCCTTCTGGCTTTTGCATTGGGACTCACTGCTAATTTAGAACATGTTAGTTGTACATTCTCTGCAATACCAAATATCTTGACTATCTGGATTTGTTGTTTTGGCCATAGTAGTATATTATTGCTTTGAAGTTCAAAACTATCGATTAATTTTAATAGTCAGGAGAATAAGATCGGTCATTTCATTATAGTTTCTATAATGTTAGTTACTGAAACGATAATTTTAATTCATCTTTCTTCCATAAAGTAAATTCAATTTGATTAGAGTGATCCCTTGTCTTAACTTCTACGTTTGTTCTAGGAGGATGATGCTAAAGTGAAGAGAGCGTTTCAGACCCTTCTAACTTATGTGGGAAACGTGGTGAAAAATCCTGATGAAGAGAAGTTCAGAAAAATTAGACTTAGCAACCAAACTTTCCAGGTATCTGCCTCATTTGGATAATTATGGTACCGTTTTACCAGTTTCCAATGTCAATTGAAATGCTTCACTTCTTTTTTTGTATTTTTTCTGGTAAATTTATGCTCTATTTGCAAGAACTATCAAACTTCATTATATTGCACAAGTAAGCAATCTTTATGTTCTGATATCATTCTTGGTCAAAGCAATTCTCTATATGCATTTGTGATTCCAAAGCAGTTCATTATATGCATTTGTGATTTGCATGTAGAAGGGTAAAAAACACACAACACACATTTGCACAAACTAATGATTCCTTTTCAGTTAAGAGTCTAATTGACCATATAACAAGCAGTGAAGCATGCACAATATTTCTCACAAGGAATTTATGATTCTGAGTGTTAACATCATAATGGTGAACTTGATTTTGTGACCTGATTAGTTAATTGCTCTTTCTCGTAGATTGTAAATTTTGTCTGAAAATGGTTATTACAAATTTGGTAGGTAGACTTTGATGGTGATCTATTTAATCCTCAAAGTTCTAAATACTGTCTTTGAACTTTTAATGGTTATTCTATATCTCTCAGTATTGTGGACAAATGTTGGCTGATTAGGCCGAAGTAATGTGATATACGGGGCCTGGGGGAATGAATTGAACAACTAGAAAGAAATAGAGTGACATGCTTTATATAAAAGGATCTGGATCATAAATTGCGACTTTGATAACAGTGCATTTTGTGCTAGTTTGTGTATCATACTGTACTAAATTAGCAATATCTGTGTAGTAAACATTTTCACATCATCAATGTTGACATATCTTTTTTAATGTTTAGGAACTAAATTGACACGACTATGACGATAAAATTATATCCTTGAGTAGATTGTTTTCACTCACCTCCTCTTATTAACATTATAAACGAACAACTTAACCCGAATTACCCGTTGGATGCAACAGGATAGAGTGGGTGCACTGAGAGGAGGAATCGAGTTTCTAGAGCTGTGTGGGTTTGAGAAAATCGAAGGTGGCGAGTTCTTGTTTCTGTCCAGAAACAAGGTTGACAGGGCAGTGCTCAATTCTGCTGGCTCTGAGCTCGACTCTGCTATTAAAAATCCTTTCTTTGGCGTCCTCTAATTTCATGTTACAGCAAAAAAAATTTTTAGTACTTTTTTTTTTGGGTGTGGAATATGGTCCAGATTGATGTCGATATTTTGTTCTCTAGTGACACTATACATGAAGAAAGATTTAGTGCACTTACTCCTTAAATGATGGTGTCATTGTTTGTTTTGTGATGTCTTCTCTGCTATTAGTGTCTTATTTTTTTCACATGTTTTTTTGATCTCATCCTTGCATTTTTTTTTTAAAAGAAATTTGTGTCTAATAAATCCATAAATCTAACAAATGACATTGGAGGGGAATTATATATGAAATTAGATTAGATTAGCCGATGCGTTGCGGTGCATTTTACCAAAACCATTTTTGTACTAAAGAGAAAGGCAACCGCCAATTCATCGCATTTCCCATCAGACAAGCAATCCGAATCCGAAAGAACACGGATCAATAGGCGGAAGGAAGAATCCAATCCGCCGATTTGCTGCTAGGATTTCGATTCGAATCCAAGAATTTGGTATCATCAATGGCCGGCCTATCGCTCCAGTGTGGAGATTGTGGCGCACTCTTCAGATCCGTAGAAGAAGCTCAACAACATGCCGAACTCACTTCTCACTCCAACTTCTCTGAGTCCACAGAAGCAGTGCTCAATCTCGTCTGCACTGCTTGCGGCAAGCCCTGCCGATCGAAGACGGAAAGTGATTTGCATACTAAAAGGTCTGGCCATACCGAGTTTGCTGATAAGACTTTGGAGGCTGCAAAACCAATAAGTTTGGAGACCCCAAAGGTAGATGCGGAAGCAGAAGATGGCGGAGATGCAAGTGCTAGCAAGTCTGAAGAAATGGTTGTGCCAGAGGTGAACAAGAATATATTAGAGGAACTTGAAGCTATGGGCTTTCCAACAGCACGAGCAACCCGTGCACTCTTTTATTCTGGTAATGCTAGTCTTGAGGCAGCAGTCAATTGGGTAGTCGAACATGAGAATGATCCGGAGATAGACCAGATGCCTTTGGTTCCCAAGGACACAAAGGTTGAGGCTCCAAAGCCTTCTCTTACACCTGAGCAATTGAAAGCAAAACAGCAGGAGCTAAGGGAACGGGCTAGGAAGAAAAAAGAGGAGGAAGAGAAGATAGCGGAAAGAGAAAGGGAAAAGGAGAGAATTCGAATTGGCAAGGAGCTCTTAGAAGCCAAAAGGATTGAGGAAGAAAATGAGAGAAAAAGAATATTAGCCTTGAGAAAAGCTGAAAAAGAAGAAGAGAAAAGAGCCAGGGAAAAAATTCGTCAAAAACTTGAAGAGGACAAGGCAGAAAGAAGACGGAGGCTTGGATTGCCACCAGAAGATCCTTCAACTGCAAAACCTTCGGCACCTGTTGTTGAAGAGAAAAAGATGTCTTTACCGGTTAGACCTGCTTCAAAGGCAGAGCAAATGAGAGAATGTTTGCGATCATTAAAGTCCAATCACAAGGAGGATGATGCTAAAGTGAAGAGAGCGTTTCAGACCCTTCTAACTTATGTGGGAAACGTGGTGAAAAATCCTGATGAAGAGAAGTTCAGAAAAATTAGACTTAGCAACCAAACTTTCCAGGATAGAGTGGGTGCACTGAGAGGAGGAATCGAGTTTCTAGAGCTGTGTGGGTTTGAGAAAATCGAAGGTGGCGAGTTCTTGTTTCTGTCCAGAAACAAGGTTGACAGGGCAGTGCTCAATTCTGCTGGCTCTGAGCTCGACTCTGCTATTAAAAATCCTTTCTTTGGCGTCCTCTAATTTCATGTTACAGCAAAAAAAATTTTTAGTACTTTTTTTTTTGGGTGTGGAATATGGTCCAGATTGATGTCGATATTTTGTTCTCTAGTGACACTATACATGAAGAAAGATTTAGTGCACTTACTCCTTAAATGATGGTGTCATTGTTTGTTTTGTGATGTCTTCTCTGCTATTAGTGTCTTATTTTTTTCACATGTTTTTTTGATCTCATCCTTGCATTTTTTTTTTAAAAGAAATTTGTGTCTAATAAATCCATAAATCTAACAAATGACATTGGAGGGGAATTATAT ATGGCCGGCCTATCGCTCCAGTGTGGAGATTGTGGCGCACTCTTCAGATCCGTAGAAGAAGCTCAACAACATGCCGAACTCACTTCTCACTCCAACTTCTCTGAGTCCACAGAAGCAGTGCTCAATCTCGTCTGCACTGCTTGCGGCAAGCCCTGCCGATCGAAGACGGAAAGTGATTTGCATACTAAAAGGTCTGGCCATACCGAGTTTGCTGATAAGACTTTGGAGGCTGCAAAACCAATAAGTTTGGAGACCCCAAAGGTAGATGCGGAAGCAGAAGATGGCGGAGATGCAAGTGCTAGCAAGTCTGAAGAAATGGTTGTGCCAGAGGTGAACAAGAATATATTAGAGGAACTTGAAGCTATGGGCTTTCCAACAGCACGAGCAACCCGTGCACTCTTTTATTCTGGTAATGCTAGTCTTGAGGCAGCAGTCAATTGGGTAGTCGAACATGAGAATGATCCGGAGATAGACCAGATGCCTTTGGTTCCCAAGGACACAAAGGTTGAGGCTCCAAAGCCTTCTCTTACACCTGAGCAATTGAAAGCAAAACAGCAGGAGCTAAGGGAACGGGCTAGGAAGAAAAAAGAGGAGGAAGAGAAGATAGCGGAAAGAGAAAGGGAAAAGGAGAGAATTCGAATTGGCAAGGAGCTCTTAGAAGCCAAAAGGATTGAGGAAGAAAATGAGAGAAAAAGAATATTAGCCTTGAGAAAAGCTGAAAAAGAAGAAGAGAAAAGAGCCAGGGAAAAAATTCGTCAAAAACTTGAAGAGGACAAGGCAGAAAGAAGACGGAGGCTTGGATTGCCACCAGAAGATCCTTCAACTGCAAAACCTTCGGCACCTGTTGTTGAAGAGAAAAAGATGTCTTTACCGGTTAGACCTGCTTCAAAGGCAGAGCAAATGAGAGAATGTTTGCGATCATTAAAGTCCAATCACAAGGAGGATGATGCTAAAGTGAAGAGAGCGTTTCAGACCCTTCTAACTTATGTGGGAAACGTGGTGAAAAATCCTGATGAAGAGAAGTTCAGAAAAATTAGACTTAGCAACCAAACTTTCCAGGATAGAGTGGGTGCACTGAGAGGAGGAATCGAGTTTCTAGAGCTGTGTGGGTTTGAGAAAATCGAAGGTGGCGAGTTCTTGTTTCTGTCCAGAAACAAGGTTGACAGGGCAGTGCTCAATTCTGCTGGCTCTGAGCTCGACTCTGCTATTAAAAATCCTTTCTTTGGCGTCCTCTAA MAGLSLQCGDCGALFRSVEEAQQHAELTSHSNFSESTEAVLNLVCTACGKPCRSKTESDLHTKRSGHTEFADKTLEAAKPISLETPKVDAEAEDGGDASASKSEEMVVPEVNKNILEELEAMGFPTARATRALFYSGNASLEAAVNWVVEHENDPEIDQMPLVPKDTKVEAPKPSLTPEQLKAKQQELRERARKKKEEEEKIAEREREKERIRIGKELLEAKRIEEENERKRILALRKAEKEEEKRAREKIRQKLEEDKAERRRRLGLPPEDPSTAKPSAPVVEEKKMSLPVRPASKAEQMRECLRSLKSNHKEDDAKVKRAFQTLLTYVGNVVKNPDEEKFRKIRLSNQTFQDRVGALRGGIEFLELCGFEKIEGGEFLFLSRNKVDRAVLNSAGSELDSAIKNPFFGVL Homology
BLAST of PI0020131 vs. ExPASy Swiss-Prot
Match: Q6GL77 (UBX domain-containing protein 1 OS=Xenopus tropicalis OX=8364 GN=ubxn1 PE=2 SV=1) HSP 1 Score: 77.8 bits (190), Expect = 3.2e-13 Identity = 72/194 (37.11%), Postives = 110/194 (56.70%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy Swiss-Prot
Match: Q32KW2 (UBX domain-containing protein 1 OS=Bos taurus OX=9913 GN=UBXN1 PE=2 SV=1) HSP 1 Score: 77.0 bits (188), Expect = 5.4e-13 Identity = 70/195 (35.90%), Postives = 109/195 (55.90%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy Swiss-Prot
Match: Q922Y1 (UBX domain-containing protein 1 OS=Mus musculus OX=10090 GN=Ubxn1 PE=1 SV=1) HSP 1 Score: 74.7 bits (182), Expect = 2.7e-12 Identity = 72/198 (36.36%), Postives = 110/198 (55.56%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy Swiss-Prot
Match: Q499N6 (UBX domain-containing protein 1 OS=Rattus norvegicus OX=10116 GN=Ubxn1 PE=3 SV=2) HSP 1 Score: 74.7 bits (182), Expect = 2.7e-12 Identity = 72/195 (36.92%), Postives = 109/195 (55.90%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy Swiss-Prot
Match: Q04323 (UBX domain-containing protein 1 OS=Homo sapiens OX=9606 GN=UBXN1 PE=1 SV=2) HSP 1 Score: 73.6 bits (179), Expect = 6.0e-12 Identity = 67/202 (33.17%), Postives = 108/202 (53.47%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy TrEMBL
Match: A0A1S3C4L3 (chromatin assembly factor 1 subunit A OS=Cucumis melo OX=3656 GN=LOC103496959 PE=4 SV=1) HSP 1 Score: 745.0 bits (1922), Expect = 1.7e-211 Identity = 402/411 (97.81%), Postives = 405/411 (98.54%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy TrEMBL
Match: A0A0A0LL71 (UBA domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G139840 PE=4 SV=1) HSP 1 Score: 741.5 bits (1913), Expect = 1.9e-210 Identity = 399/411 (97.08%), Postives = 405/411 (98.54%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy TrEMBL
Match: A0A6J1HNI9 (chromatin assembly factor 1 subunit A OS=Cucurbita moschata OX=3662 GN=LOC111464540 PE=4 SV=1) HSP 1 Score: 724.5 bits (1869), Expect = 2.4e-205 Identity = 390/411 (94.89%), Postives = 402/411 (97.81%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy TrEMBL
Match: A0A6J1KGZ6 (chromatin assembly factor 1 subunit A OS=Cucurbita maxima OX=3661 GN=LOC111494267 PE=4 SV=1) HSP 1 Score: 724.2 bits (1868), Expect = 3.1e-205 Identity = 390/411 (94.89%), Postives = 401/411 (97.57%), Query Frame = 0
BLAST of PI0020131 vs. ExPASy TrEMBL
Match: A0A6J1CBW3 (UBX domain-containing protein 1 OS=Momordica charantia OX=3673 GN=LOC111009800 PE=4 SV=1) HSP 1 Score: 718.0 bits (1852), Expect = 2.2e-203 Identity = 387/411 (94.16%), Postives = 399/411 (97.08%), Query Frame = 0
BLAST of PI0020131 vs. NCBI nr
Match: XP_008457228.1 (PREDICTED: chromatin assembly factor 1 subunit A [Cucumis melo]) HSP 1 Score: 745.0 bits (1922), Expect = 3.5e-211 Identity = 402/411 (97.81%), Postives = 405/411 (98.54%), Query Frame = 0
BLAST of PI0020131 vs. NCBI nr
Match: XP_004138965.1 (chromatin assembly factor 1 subunit A-B [Cucumis sativus] >KGN61482.1 hypothetical protein Csa_006588 [Cucumis sativus]) HSP 1 Score: 741.5 bits (1913), Expect = 3.9e-210 Identity = 399/411 (97.08%), Postives = 405/411 (98.54%), Query Frame = 0
BLAST of PI0020131 vs. NCBI nr
Match: XP_038874495.1 (chromatin assembly factor 1 subunit A-B [Benincasa hispida]) HSP 1 Score: 740.0 bits (1909), Expect = 1.1e-209 Identity = 398/411 (96.84%), Postives = 405/411 (98.54%), Query Frame = 0
BLAST of PI0020131 vs. NCBI nr
Match: XP_022964544.1 (chromatin assembly factor 1 subunit A [Cucurbita moschata] >XP_022964545.1 chromatin assembly factor 1 subunit A [Cucurbita moschata] >KAG6593717.1 UBX domain-containing protein 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 724.5 bits (1869), Expect = 5.0e-205 Identity = 390/411 (94.89%), Postives = 402/411 (97.81%), Query Frame = 0
BLAST of PI0020131 vs. NCBI nr
Match: XP_022999940.1 (chromatin assembly factor 1 subunit A [Cucurbita maxima]) HSP 1 Score: 724.2 bits (1868), Expect = 6.5e-205 Identity = 390/411 (94.89%), Postives = 401/411 (97.57%), Query Frame = 0
BLAST of PI0020131 vs. TAIR 10
Match: AT1G04850.1 (ubiquitin-associated (UBA)/TS-N domain-containing protein ) HSP 1 Score: 623.2 bits (1606), Expect = 1.4e-178 Identity = 331/413 (80.15%), Postives = 369/413 (89.35%), Query Frame = 0
BLAST of PI0020131 vs. TAIR 10
Match: AT5G48690.1 (CONTAINS InterPro DOMAIN/s: Ubiquitin-associated/translation elongation factor EF1B, N-terminal, eukaryote (InterPro:IPR015940), PUB domain (InterPro:IPR018997), PUG domain (InterPro:IPR006567), UBA-like (InterPro:IPR009060); BEST Arabidopsis thaliana protein match is: ubiquitin-associated (UBA)/TS-N domain-containing protein (TAIR:AT1G04850.1); Has 7001 Blast hits to 5165 proteins in 492 species: Archae - 9; Bacteria - 505; Metazoa - 2653; Fungi - 905; Plants - 287; Viruses - 19; Other Eukaryotes - 2623 (source: NCBI BLink). ) HSP 1 Score: 287.7 bits (735), Expect = 1.4e-77 Identity = 174/315 (55.24%), Postives = 226/315 (71.75%), Query Frame = 0
BLAST of PI0020131 vs. TAIR 10
Match: AT5G48690.2 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; CONTAINS InterPro DOMAIN/s: PUB domain (InterPro:IPR018997), PUG domain (InterPro:IPR006567); BEST Arabidopsis thaliana protein match is: ubiquitin-associated (UBA)/TS-N domain-containing protein (TAIR:AT1G04850.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 215.7 bits (548), Expect = 7.0e-56 Identity = 130/226 (57.52%), Postives = 167/226 (73.89%), 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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