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PI0014921 (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.CAAAAAGCCGAACCTCTGATTCCATTTGAAACGAAGCGAGAGAAGTGAAGAATGCTACTTCTCGTCTTTTTCTTTGTCTCATTCTTTCTCCTCCTCTTTCTCTTCTTCAGATTCGCCACTGCTTATGGTAATCATCGTTGCAAACTTCAATCAACTATTGAATTTGTATAGTTAGAAATGCGAAGGATTTGATTTTCTGTCTTTGTTACCTTATTTTTTCTGTTCAAATTCATAGGCGACTTCACTTTAATGTCCAAAAACCATGTCAACCGAGAGGAAATTGAAGATAAGGTCAGCTAATTTTGAGTTTTCTATTCTTCAAGTTCTAGTTTCTGCATCACACTAATCATCATTCCTTTCTGATGTTAATCCAACTATGCTGCATCAGGTCGTTTGGATTACTGGTGCTAGCCGAGGAATTGGTATTCTGCTTAATATTTCGAGTTCTTTAATTATTTCTACTATATTGAGCTCTAATAGATCAAGAATCTTTCTGCTAATTTGTCTGTCTTTTATGCTCAATTATAAGATTACTGTTCTTTAAAATTTTTTGTTGAATGTAGGGGAGGTTCTTGCAAAACAACTTGCTGCTTTGGGAGCTAAGCTTATTATTTCTGCACGGGATGAAGCTGGGTTAGAGAGAGTGAAGAGCGAGCTCTCTGGTTTGCAATTTCATATAAATTTGCACTAGTCTCGATAATTTTTTCTTTCTCTAAAGCAGCTTTTGATCTGTCACAGGTAAATTTGCACCTAATGAAGTGAAAGTTTTACCCTTAGATTTGGCATCTGGGGAAAACAAGTTGAAAGAGGCGGTACAGTTAGCAGAGTCCTTTTTTTCCGGCTCTGGTGTGGATTATATGATCCATAATGCAGCTTTTGAGCGTCCCGTAAGTGACAAATAATTTTTATATATATCTACTTGGCTTGAATAATGTTTTCATGAATTTAATTAATCCTTTAAGATTTTGAATGATTTTGAATCATGCCGGTAAAGATATTGACATTACACTATTGCACGATAGTACGGCATTGTCCTATTTTAGAAATGCCAGTTGTAAATTTTTTGATGTTCCTATCATTCTTGAATCTTGTGAACATGTGTACTTAGTTGTTAGTCCTTCAACTAGCGTGTGGCTACTTGCAGACAAGGGTTCATGTTAATTGATAAAGGGAAGAGCCCATGCATTGCTGTACATGCAAATAATATTGATTTCTTGCTTTATAGATCTCCTTAGTAATGTAGTATGTGATTCTTCAAGAAATTGACTATCTAGGATTTCCTATGAATCCAATTCAAGAAATAACTAGATGTATTTCAATGTATCAGTTTAAATGGTAGGCCATAGATTAGAGGGTGTTGTATATCAAGTGAATTCCAGTTAGCATGGATCTAAATATTTATGTTAAAGGCTGAAGCTGTCAATAGATAAGGTGGCAACTTAACTATGTTGTCTGGTCAGATGGGAATTGTTTCAACTAAGTGTAATAGTTTACTTTTATATTTATTTATATGAAAATAAATCATGGAGACGTAACAATAGCTGGCATGCACCTGAATGAACTTGCTTTCATGGTGCTTTTTTGGGCACGTGATCCATAACATTGTTTTGTACATCTACATTTTCATGCGGTTCAAACTTTATGCTACACCGAATTATCTAATTTCCATAATTCCCATAATTCCCATCAGACGTTGACAGATATAACCATGTTTTCAATATAGGCAATACAACAAAAGTTAATGGACTGGTTTGGCTTTATCAGTTCTTTCGGCTTACTTGAACAACCTACCAAAATTTTGGATGATTATTTGTTCTACGTGTGGAAGATAAAACTTTGGTATAACCAAGCCCAATCTTGTTTTTTTTGAAACAAAAGCAAGCCTCTTCATTGATATAATGATTGAGACTAAAGCTCAAAGTACAAATTAATGAGTCGAAACATAACAAGATTATAAGGAACAAAAAGGACTAAAAACATCTAAACCAAGAGAACGAGCTAAACCAAAGGGAGAAGAAAGCAAACCAACAACTCCCGAGAAGCCCTACATAACAATTTGAGATGAGCAAAGAAAACCCGAACAAACAAAAACTAGATGTAGCAGTCCAAGAGGCTGTAAATCTTCTAGGATGGGTATGACAGGGCTTAGAAGGAATGTCAAAGGCAGCCGATAACGTGCAAATACTTTTTCAACTTCGAACAGAAAAACACAGCTCGTTGTGCTTGCATGCGTGTATTCATGCATTCTTTCCAAAAAAAAAATGTATGCATGCTTATATGTCCTTCAAAATCTCAACCCTCAGTTCTTTTGCCTTGGTTTCAACAGACCTCACCCTTCTCTGCTACTGGTTAACAGATATATCACCATTGATGTCTTTGCCTGAAAATGATCTATTTTTGCACCTTCATTCACTACAATCATTACTTTTGGTTGTAATTTTCAATCTAAGTTTTCTTTTGGATCTTTATTGCCCTTCTAAGTTTCTAAATGGATGTCAATTGCTTTGTCTCTTCCCCCTTTTACATCTTTGCATCAATTTCTTCTCTTAAATGAACTTATTTGGTTTGAATCTCAATCATTGATTGGTTTGACATGTACATTTTGTCATTAACTTTTCTCTCCCCTTGTTGAGCTCTCACTATTTGATTTTTCTCTCCTATCAACCTGATGAATTTTTCTCCTCCATCACATTCATTTTGAATCTCTGATGCTATAGACTGACTGAGATTGTTCTCTGAATATCTTGCAATCTGTTCCTGACTAAATTTCTCAAGATTCATATCATTTTTTTTTTACTTTAAGCTTTATCTGCTTCAAGTATTTCAACATTTTCTCCTTTTCTCCTAGTAGGATCATGCCTTGTGGTTAATCTTATAAATTTTCTAGTTGCTTTCTGCTGGATTCATGATGTTGCTTTGGTTTTCCTATTGAAATTGTGCTTTCTGGGCTTTTTGCTGCTGAAGCTGTGATGTTTTTTTTAAAATTTCTCCTTAATTTTGGATGGAGAAAATCTGCTGAACAAGCTAGCCATGTGTTTCTGTCCATCTTCTCTCCCATATTTGTTTTTCCTTTTTGCTTGTTGATAGTACAAGCGATGACCTAGTTCAGTTTAATCCAAACTAATTCTGTGGAGTGCATTTCAGGTTGCTTTATATGTGAATAAGTTCGGGTTAGTTAGGTTGGCTATACAGTCAAGTTGCCAATTTGGATTGGTTAGACTCTTGAAATTAACTCAATCCTATCTATGAAGGTCCCTGTAGTTACTGATGTAGGAGTTATAATACCTTTTCTTTTGTGAGTGTTTTAATATCAATTTGATGTATTAGTTGTTTGTGCCTTTACTATTTGGCTGTAAAATAAGTTAGTTTCCTAGTTAGTTATTTTAACTAGGCGTGGTTCTATAGGTTGCTGGTGTGGTGGAACCAGAAAGTGGAATAGTTAATTTTTGCCGGTGTGGTGGATCATCCGTCCTTCAAATCTAACTTGCCGGTGTGGTGGAATGAGAGGGGTCATGGAAAGTGGGAAGGCTATTGGTTTATGGAAAAATTGAAAGGTTTAAAGGGTAAGCTTAAAGCGTGGAATAGAGAGGTTTTTGGAGACATGCGGTTGGAAAAAAAGAAAGTCATAACCAAGATTGATGAGATTGACAATTTAGAGATTGAAGGGCCTATTGATAGAAACCTTAAGGAGGAGAGAGTTAGTTTGAAAGGGGCCTTTGCGGAGTTAATCAGGAAAGAAAAAGTGAGTTGGAACCAAAAATGTATAATCAGTTGGGCTAAGGAGGGGGACTGTAATACTGGTTTTTTTCCATAGAGTAGCTAATGGGAGAAGGAATAAGAATCACATTGATCTTTTGATCCTTGATAATGGTGTTAGTACAAGAGACAACAAGGAGGTTGAGGGGGAAATTCTTAAGTCTTTCTCCAATCTTCTTTGTCCTGAAGCGAGTGATAAGCCCTTCCTTGAAGGGATTAAGTGGAATCCCATTTCGTCTAGGGAGGATGAGGAGCTGGTGAAACCTTTTTCTTTTGAAGAGATTAAATGGGCTATTTTTAGTTGTGATGGAGACAAATCTCCCAGAACAAACGGGTTCTCTATGGGCTTTTTCCAAAAGCAATGTAATTTGATTAAGGGGGATTTGGAGGGAGTCCTTAAGGAGTTTTTTGAAAGAGGTATTTTGAGTAGTTCGATGGTGGAAACTTTGGTGTGCCTGATCCTCAAAAAGGATAATGCCAATAGAGTTAGGGAGTTTCGGCCTATCAGTCTTATCACTAGTGTTCATAAGATTCTGGCTAAGGTTCTTGCCACCCGATTAAGGAAAGTGTTGCGATCGACTATTTCTGAAGTTCAAGGTGCTTTTATATCGGGAAGGCAGATTTTGGACCAAGCTCTTATTGGGAATGAGGCTATAAAGGAGTATAGGTCGAAGAAAAAGGAGGGAATCTTACTTAAGCTTGATTTTGAAAAAGCTTACGATCATGTGGACTGGGACTTTTTGGATAGAGTGATGATGAAAAAAGGCTTTGGCTATAGATGGAGAATGTGGATGTGGAGGTGCATTAGAAACATGAAATACTCGATTCTCATCAATGGTTCCCCGGTCGATTCAAGCTTCTAGGAGGCTAAGACAGGGGGATCCTTTGTCCCATTTTCTGTTCTTACTTGTGGTGAATGTCTTAAGCCATCTCATTTGTAAAGGAGTTGAATGGCACATTATTGACCCTTTTAGGATTGTCATGAATGAAGTTACCTTATCGCATTTGTAATTTGCGGATGATACTTTGTTGTTTTGTTCTGGGAAAGAAGAGTCATTTCTCACTCTTAATCATATGGTTGCTTTCTTTAAAGAATTGTCTGGTTTGAAAATTAATAGAAGTAAATTCACCATTCGGGGCATTAATATGGACATTACTAAGATTCAAAGATGGGCGGAGATGTTTGATTGTGAAGTTGGCTCCTTCCCTTCGAGGTATCTTGGGCTTCCTTTGGGGGAAAATCCGAGGCTATTTCTTTTTGGGATCTTGTTTGCGAGTAGATCTGAAAGAGGTTGGTGGGTTGGAAGAAAGGGTTTTTCTCAAAAGCGGGGAGGTTAACTTTGATTAGATCTGTTTTGAGTGGAATTTCTATGCACTACATGCCGCCCTTTAAAATTCCTAGTTCGGTTTGTAAAGATATTGAGAAGTATATGAGAGATTTTCTTTGGGAGGGGGTCGAACGAAGGACATGGGTCCCATTTGGTGAGTTTGGAGATGGTGGAGCATACCCTTAACTAAGGGGGGTTAGAGATTGGCAATATTAGAACTCGCAATAGAGCGTTGTTGGCTAAGTGGCTCTAGCGTTTCTCTCTAGAAACCGATTCTTTATGGCATAGTATTATTGTGAGTAAGCATGGCACCCATCCTTTTGAATGAACTACGAAAGGGGTTAAAGGCACACACTAAAATCCCTAGAAGGATATTTCCTTTGAGCTTCCCGCGTTCTCTCGGTTCACTTGTTGTTTTGTGGGGAATGGTAAGGATACGTATTTCTGGGAGGATCACTGAGTGGGGGAGAGTTCTCTTTGTTTTTTATTTCCTCATCTCTATCATTTATCCTCGTTTAAAAACAACACGATGTCAGATTGTTTGGTTAGTTCGGAGAATCCTGTGTCTTTTTCCTTTGGGTTCCGTTGTAATTTGACTAATAGGGAAGCGACGAAGGTGACCTCCCTTCTTTCCTTGCTTGAGGGGTGTTTTGTTAGGGAGGGGAGAAAGGATATCCGTGTTTGGAACCCTAACCCTAGTAGAGGTTTCACGAGTAGGTCCTTGTTTAGTCTTTTGTTAGATCTGTCTCCAAACTCTGAGTCGGTTTTTGATGTTGTCTGGAGGATGAAGGTTCCCAAGAAAGTTGGGTTCTTTATCGGGCAAGTCTTGCTTGGGCGTGTTAACACTGTGGATAGGCTTGTTAGGAAGAGAACTCCTGTCGGCCCTTTTTGGTGTATGCTTTGTCAGAAGGCGGAGGAAGATCTTGATCATCTTTCCTGGGACTGTTAGTATACAAGGGCAGTGTGGAGCTCTTTCATGCAGGAGATGGGTGTTAGTTTTGCTGGCTCTAGGAGCGTTAGAGTGACGATCGAGGAGTTCCTCCTTCATCTGCCCTTTAAGGATAAAGGGGGCTTTTTCTGTGTGGCCGGTGTTTGTGCTATCATTTGGGACATATGGGGTGAGAAGAATGAGCCGATTTTTAGGGGTAGGGAGATGGAGCATAGTGAGATTTGGTCTTTGGCTAGATAAAGTTTTTTTGTGATTGTTCTATAGGTGACATTTTACTTACTTGGTCCTCCTTTTGTTAGTTTGGGGTATTTTTGGTGGGTTGGTTTTTTGTATGCCCGTGTATTCTTTCATTTTTATCTCAATGAAAGTTGTTTATTCTATAAAAGAAAAACTAGGCGTGGTTCTATAAGTAACCAGTCCTTAACTCCCTCTTGTGTATAAATTGGCCTTAGTGCCATCTCGTGTCATTAGTAAAAGAAATTTTCATTGAGTTCTCGAAGCATATATCAGTTACACCTTTTGTACAAAATCCTACTATCACCATTGAGTCTAATCATTCCATGGTGTAAAATGCTTCACATGCTCTGTTTCGTTTGTCTATGTCTATTCAACGATCTTTCTACACTTTGATATCTGTCTTTGTTTAATGTTTTACAGAAAACTACAGCTTTGGATGTATCTGAGGAAAGTCTGAAGGTAAGGAGGAATAAACAAGTGACACTCACAGTCTGATTTAGTGATTTTTAAGATGGATTGATTTTACTATTCAGTACTATTCATCTTCTGGTTATTGAGATGGCCATTTCTTGTGTTATCTTTTTGTTTCTATTGTTAATTCTCATTAACTATGTACAATGTGCTGAATTCTTACGTGTTTTCTTTCTTTCTCTCTCTCTTTTTTTTTTAATTACAATCAGACAACATTTGATGTCAATGTTATTGGAACCATTTCTCTCACCCGGCTTCTAGCACCTTTTATGTTACGACGGGGACGAGGTCATTTTGTTGTTGTAAGTGGACGTCACTAATACTACTTATGCTTTGCCATTGTTTGCTTAATTTAGACTCGTTGCATCTTAATTTGATATGATAATATCAGTGTGGCTGGACCCTGAATATGCTGTTGTGATATAACTATAAATGTTTATTGCCAGTTTGATCTTCAGGTTGTTACCTAATACCTAATACCTAATACCTAATACCTAATACCTGAACAGATAATCTTTATCATCAGAATTTCTAATTTTTCTCATCTTTGGACAATACACATCTGACTATGTTCTAGTATTGGGCAGTGATTGTTGGTACATTTTAGAATTTTTCGTTTTTGATATTTGGATAGTCGTCATTTTATTTTTCATGTATTGTTCTTGTTTCTTCCCTTATTTCCTCTCGCTTGTATGATAATCTAAATTTTCAATTTCTAATATTTCGTATCCTTCTGGATTGCTTTCAGATGAGCAGTGCTGCAGGAAAGACACCTGCTCCAGGACAGGCTGTATATTCTGCATCAAAGCATGCTCTGAATGGTTATTTTCATTCTTTACGATCAGAGGTAAGATGAACCTAATGTGTTTGTCCTTATATTTGAGATTACAGTAGGGACATTTACCTGTTGTGAATGAAGGAATATGAACAGGCCTTCCAGTTCCTATATTTGGCACTGTTTACTTGCATTTTGGAGTAACTTCTAGATAGGTTAGACTCTACCAAATTAGAAACTAGAATTTTAGATCCCAGGTTTCTTTTATTTTGAAAATTAAGCTTATAAACAGAACTTTCTCATAAGTTTTTATGTTTTATACTAATCTTTTTCAAAAATCAAGCCAAGTTTTGAAAACTAAAAAAAGTAGTTTTCAAAAAGTTAATTATTTTTTGGATTTGACTAGGAGTTCAAGTGCTTCTTTAACATGATGAAAACCATAATTAAAAAATTGGGAGGAAACAAGCATAAATTTTAAAAACTAAGGCCCTGTTTACTACCATTTTGGATTTTCAAGGAATCTCAACTTCTCATTTAACTCAGTATTCAAGTGTTCAACACATGGGGAGAAGTTCACCACTGTTATCTTAGAAAATCCATAGTAAATGAATTGATGCATTTATATGCTTAAAAGATTTAGCTTGATGTATTCCACACTCAAAAGTTATTATTATTGTCATATGTGTGTCTTTTTAGTCTACCCAACAAGTGTTCTATGCATGTCTAATGCATTTGTTGCACTAACAAGTGTTCGATAGATGTCCACCAAGTTTCGGACACGGACACGCTAGCCAAAGTAAAGTGCTTGTGCTTCTTAGCTTATAGTTTATCATCATAGACTAATGTGAGTAAGTAATTTAAAACATACTTTTCTTATCTTAAAATTAAAATTTTTATCTTTTTAGTTCAGTGAGGATCGAGTCTTAGACCTTTGAGATTGATAATCGGTATCTTATCTACTAAGTTACACTGGAATTGACATACTTAAACTATTATTAATTAAATATAGATAAAGAAAAGAATAATTTTGTTAGATAAATTTATTATTATTAGTTATAATCAGAGATTTTAGTCCAAAATAAAAATATTGCAATTGACACATGGAGAGAGTGGGAAAGGGAGATGGTTTTCTAAGAATTATTTATTTATTTTAATGTATTCAGCCTCTTTCATTAATAAAAAATTAAAACAGTACACGGGCATACAAAAGAATAAGCCCACAAAAAAGGGAACTTCCTTTACAAGTAGGGACTCCAACTATGTGAAATCACACCTATAGAATAGTTACAAAAAACCTTCGGAATCGAAGCCAAAAAAGAAACATGAAAATGAACGACAAACCATAACTCCCTAGGATCCCTCTCCATACCCTTAGACACGCTACTATTCTTAGACACCCTACTATTCTGCTAACCTCACAAGACCCCTAAAAACTGCACACATCCTTGAAAGCCATAAAAAACAGTCTTCCTCCCCAAAAGGCAGATTGAGGAGAAACTCCTTGATCGTAGCACTAACGTCCTATGACCGACCTCTCTAAGGATTATATTAAATTTCTTATATGGTGTAAATATAATGTAAATTCTATTCAAAGTTCTAAATAATTTAAATTCAAAAGAACTTTGGTAACAATTGTATATGTACCCGATAACTCTGAAGCTGGTCAGTATTTTCACCTTTGGTGCCTTTTTTATGAGAAAATTATAAGTTCAATTGAGGATACCATTGATTAATCCCTAAAAACTTAGAAAATTTTCCTATATTGGATTTGATGAGGTTCCATCATGTTTTTGGAAGAAGTCTACCATAAAACCAAATTTTGAAATTTTGTAACTGCTTTTTCCTTTTCTCCTGTAGTTTTATAGTCACAATCATGCATCGTTTATTTTTCTTTTATATTGCTACAATGGAATCTCAGCTCTACCAGAAAGGAATTAGAGTGACCGTTGTTTGTCCTGGGCCAATTGAAACGTCAACTGGCTCAGGTGCAGAAGTCATGGGGAAGAAAGGTGTATCTGAGGTATGTAGATCTTATTTTATCTTGTGTCAATGCTCATGTTGGCTTAAAGCATGTAAACTCAACAAAAAGATGAAAGTTTTGAATCTCCCACAGAACTCAAATATATTTATATATCTGTTGGAACTCTTCCCTCTCCTCCGTTCAAGTTGATCAATTTGATTTATTATAATGGGATGAGTCGGATGATCTACTGGTCAACAAGATTACATATAACTAAAGAGATTAGGAGGAATGAGTTGAAGTTACAGTGGCCACTTGCATAACATTGTATTTCCTACAAGTTTCTTGGCAATTGAATCTAGACGAGTTAGACAATTGTTCCATGGGAATAATTAAGGTGTGTGCAAGTTGGCCTAAAAATTCATGGATATAGAAAAGAATGAAAATTTTGATTTTAAAGAAAAAAGACTTCTTTTGTTGTTATTTGTACGTTTTTATGCATAATCTTTAGGACAGGTTATTTATCTGCTTCATGGCATCATATATGGGTGGTTCTACATACTAACCCACTATGTGATTGGAATGCTACTACTATTGGTGAGATATTTGTAATTAGTGAGGGAAGTTGTTAGGATATTGGTTACAAAGGAAGGGAGCAGGAATGAGAAAGTGGGGATTATTTTGGCGTAGCTATGACATGCTTAGAGCTTTATCGAGTTTCTTGATTCTACTTTTCTTGCAGAAGCGACTTTCATCAGAAAAATGTGCTCAGTTAACAATTATTGCTGCCACCCATAATCTAAAAGAAGTTTGGATATCATATCAGGTATCCATTTTGAAATGATTCACTAATTTATCCAGTATTTATCCTTGATTAAATTGCTTGGAAATAGAGTTCTCCTTTTTGTGATATTTGAAGGTACTATGATGTTGAACTATGTCACTTTATGCAACCCATATCAATCCCTTTAAATGCCACCAGAGAAAGAAAAACAAAGTGTTTTTTTTTTAATAAATAAATAGTCATGTGCATAGATTTGAAGTCTCTGTCTTTCATCTTGCACATAAAAAAGAATGGTAGCTTGTCATTGCATTGATATTGATGACTAATGAATCTTGGTTAAACATATACCATGGTAAATGTTCTCAAACGGGGGATCTTGTACATGTCAAGCTAATATGTAAGTGGTACCAGAAATTCACTCACAAAAATCCCAAACTCAAATTCTGGAAAAACATGCTACTTGTTCTTATCTTTTTGTTCCTTTTTCTTATGGGTAGCAAAAATTTCATCTTCTAACTCTTTATTTTTGTGAGACATTTAATTAGTTGGTTGATTTCTGTAGCCCGTCCTTGCTGTTATGTATTTGGTTCAATACATGCCAACGATCGGCTACTGGCTCATGGATAAGGTATTGTTTGGTTTCAAATTCGTAAAAAATTGGGTATCAAATATCTTGGTATCAAATAAAGTTCAAAATTGTGATTTGGGCTCATGAATTGAATAATATCTAGTCCTGTCCTGAATGGTTGTGTATGTAAAATTTACTTGCAGATTGGTGGGAATCGTGTTGAAGCGGCTGCTAAGAAAGGGAACACGTACTCGCTGAGTTTGTTATTTGGGAAAAACAAGTCATCTTAAAGTATGACTTGACCATAGTTCAACATTTTCAAGAATAACTTTTCTTAAAGTTCAAAGGTTCAAATTGTGGTAGTAATATATATAGATAAAGTAGATATATAGACACATACTCATCTCCATTACGCAATGCAGTGCATTGCTGAAAAGCATGCAAAAGTGATGCACAAGTACGTTCTTTTTTTTTTTTGGTTCTATTTTATATGGTAAAAATAATTTAACGTTTGTGATTTGGGACGGGTTTTCAATAAGAAAACACTTATCTTTA CAAAAAGCCGAACCTCTGATTCCATTTGAAACGAAGCGAGAGAAGTGAAGAATGCTACTTCTCGTCTTTTTCTTTGTCTCATTCTTTCTCCTCCTCTTTCTCTTCTTCAGATTCGCCACTGCTTATGGCGACTTCACTTTAATGTCCAAAAACCATGTCAACCGAGAGGAAATTGAAGATAAGGTCGTTTGGATTACTGGTGCTAGCCGAGGAATTGGGGAGGTTCTTGCAAAACAACTTGCTGCTTTGGGAGCTAAGCTTATTATTTCTGCACGGGATGAAGCTGGGTTAGAGAGAGTGAAGAGCGAGCTCTCTGGTAAATTTGCACCTAATGAAGTGAAAGTTTTACCCTTAGATTTGGCATCTGGGGAAAACAAGTTGAAAGAGGCGGTACAGTTAGCAGAGTCCTTTTTTTCCGGCTCTGGTGTGGATTATATGATCCATAATGCAGCTTTTGAGCGTCCCAAAACTACAGCTTTGGATGTATCTGAGGAAAGTCTGAAGACAACATTTGATGTCAATGTTATTGGAACCATTTCTCTCACCCGGCTTCTAGCACCTTTTATGTTACGACGGGGACGAGGTCATTTTGTTGTTATGAGCAGTGCTGCAGGAAAGACACCTGCTCCAGGACAGGCTGTATATTCTGCATCAAAGCATGCTCTGAATGGTTATTTTCATTCTTTACGATCAGAGCTCTACCAGAAAGGAATTAGAGTGACCGTTGTTTGTCCTGGGCCAATTGAAACGTCAACTGGCTCAGGTGCAGAAGTCATGGGGAAGAAAGGTGTATCTGAGAAGCGACTTTCATCAGAAAAATGTGCTCAGTTAACAATTATTGCTGCCACCCATAATCTAAAAGAAGTTTGGATATCATATCAGCCCGTCCTTGCTGTTATGTATTTGGTTCAATACATGCCAACGATCGGCTACTGGCTCATGGATAAGATTGGTGGGAATCGTGTTGAAGCGGCTGCTAAGAAAGGGAACACGTACTCGCTGAGTTTGTTATTTGGGAAAAACAAGTCATCTTAAAGTATGACTTGACCATAGTTCAACATTTTCAAGAATAACTTTTCTTAAAGTTCAAAGGTTCAAATTGTGGTAGTAATATATATAGATAAAGTAGATATATAGACACATACTCATCTCCATTACGCAATGCAGTGCATTGCTGAAAAGCATGCAAAAGTGATGCACAAGTACGTTCTTTTTTTTTTTTGGTTCTATTTTATATGGTAAAAATAATTTAACGTTTGTGATTTGGGACGGGTTTTCAATAAGAAAACACTTATCTTTA ATGCTACTTCTCGTCTTTTTCTTTGTCTCATTCTTTCTCCTCCTCTTTCTCTTCTTCAGATTCGCCACTGCTTATGGCGACTTCACTTTAATGTCCAAAAACCATGTCAACCGAGAGGAAATTGAAGATAAGGTCGTTTGGATTACTGGTGCTAGCCGAGGAATTGGGGAGGTTCTTGCAAAACAACTTGCTGCTTTGGGAGCTAAGCTTATTATTTCTGCACGGGATGAAGCTGGGTTAGAGAGAGTGAAGAGCGAGCTCTCTGGTAAATTTGCACCTAATGAAGTGAAAGTTTTACCCTTAGATTTGGCATCTGGGGAAAACAAGTTGAAAGAGGCGGTACAGTTAGCAGAGTCCTTTTTTTCCGGCTCTGGTGTGGATTATATGATCCATAATGCAGCTTTTGAGCGTCCCAAAACTACAGCTTTGGATGTATCTGAGGAAAGTCTGAAGACAACATTTGATGTCAATGTTATTGGAACCATTTCTCTCACCCGGCTTCTAGCACCTTTTATGTTACGACGGGGACGAGGTCATTTTGTTGTTATGAGCAGTGCTGCAGGAAAGACACCTGCTCCAGGACAGGCTGTATATTCTGCATCAAAGCATGCTCTGAATGGTTATTTTCATTCTTTACGATCAGAGCTCTACCAGAAAGGAATTAGAGTGACCGTTGTTTGTCCTGGGCCAATTGAAACGTCAACTGGCTCAGGTGCAGAAGTCATGGGGAAGAAAGGTGTATCTGAGAAGCGACTTTCATCAGAAAAATGTGCTCAGTTAACAATTATTGCTGCCACCCATAATCTAAAAGAAGTTTGGATATCATATCAGCCCGTCCTTGCTGTTATGTATTTGGTTCAATACATGCCAACGATCGGCTACTGGCTCATGGATAAGATTGGTGGGAATCGTGTTGAAGCGGCTGCTAAGAAAGGGAACACGTACTCGCTGAGTTTGTTATTTGGGAAAAACAAGTCATCTTAA MLLLVFFFVSFFLLLFLFFRFATAYGDFTLMSKNHVNREEIEDKVVWITGASRGIGEVLAKQLAALGAKLIISARDEAGLERVKSELSGKFAPNEVKVLPLDLASGENKLKEAVQLAESFFSGSGVDYMIHNAAFERPKTTALDVSEESLKTTFDVNVIGTISLTRLLAPFMLRRGRGHFVVMSSAAGKTPAPGQAVYSASKHALNGYFHSLRSELYQKGIRVTVVCPGPIETSTGSGAEVMGKKGVSEKRLSSEKCAQLTIIAATHNLKEVWISYQPVLAVMYLVQYMPTIGYWLMDKIGGNRVEAAAKKGNTYSLSLLFGKNKSS Homology
BLAST of PI0014921 vs. ExPASy Swiss-Prot
Match: Q9Y394 (Dehydrogenase/reductase SDR family member 7 OS=Homo sapiens OX=9606 GN=DHRS7 PE=1 SV=1) HSP 1 Score: 183.0 bits (463), Expect = 5.6e-45 Identity = 116/318 (36.48%), Postives = 177/318 (55.66%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy Swiss-Prot
Match: Q9CXR1 (Dehydrogenase/reductase SDR family member 7 OS=Mus musculus OX=10090 GN=Dhrs7 PE=1 SV=2) HSP 1 Score: 157.1 bits (396), Expect = 3.3e-37 Identity = 112/318 (35.22%), Postives = 166/318 (52.20%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy Swiss-Prot
Match: Q9Y140 (Dehydrogenase/reductase SDR family protein 7-like OS=Drosophila melanogaster OX=7227 GN=CG7601 PE=2 SV=1) HSP 1 Score: 129.4 bits (324), Expect = 7.4e-29 Identity = 98/285 (34.39%), Postives = 142/285 (49.82%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy Swiss-Prot
Match: P54554 (Uncharacterized oxidoreductase YqjQ OS=Bacillus subtilis (strain 168) OX=224308 GN=yqjQ PE=3 SV=1) HSP 1 Score: 128.6 bits (322), Expect = 1.3e-28 Identity = 79/205 (38.54%), Postives = 126/205 (61.46%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy Swiss-Prot
Match: Q7Q732 (Dehydrogenase/reductase SDR family protein 7-like OS=Anopheles gambiae OX=7165 GN=AGAP005532 PE=3 SV=3) HSP 1 Score: 119.8 bits (299), Expect = 5.8e-26 Identity = 89/285 (31.23%), Postives = 137/285 (48.07%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy TrEMBL
Match: A0A1S3B4V6 (dehydrogenase/reductase SDR family member 7 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103485804 PE=4 SV=1) HSP 1 Score: 611.7 bits (1576), Expect = 1.8e-171 Identity = 320/327 (97.86%), Postives = 324/327 (99.08%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy TrEMBL
Match: A0A0A0LHE7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G099440 PE=4 SV=1) HSP 1 Score: 590.9 bits (1522), Expect = 3.3e-165 Identity = 312/327 (95.41%), Postives = 317/327 (96.94%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy TrEMBL
Match: A0A6J1I9T3 (dehydrogenase/reductase SDR family member 7 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111471363 PE=4 SV=1) HSP 1 Score: 565.8 bits (1457), Expect = 1.1e-157 Identity = 294/327 (89.91%), Postives = 312/327 (95.41%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy TrEMBL
Match: A0A6J1G3M6 (dehydrogenase/reductase SDR family member 7 isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111450459 PE=4 SV=1) HSP 1 Score: 563.5 bits (1451), Expect = 5.6e-157 Identity = 294/327 (89.91%), Postives = 311/327 (95.11%), Query Frame = 0
BLAST of PI0014921 vs. ExPASy TrEMBL
Match: A0A1S4DU50 (dehydrogenase/reductase SDR family member 7 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103485804 PE=4 SV=1) HSP 1 Score: 553.9 bits (1426), Expect = 4.5e-154 Identity = 299/327 (91.44%), Postives = 302/327 (92.35%), Query Frame = 0
BLAST of PI0014921 vs. NCBI nr
Match: XP_008441728.1 (PREDICTED: dehydrogenase/reductase SDR family member 7 isoform X1 [Cucumis melo]) HSP 1 Score: 611.7 bits (1576), Expect = 3.7e-171 Identity = 320/327 (97.86%), Postives = 324/327 (99.08%), Query Frame = 0
BLAST of PI0014921 vs. NCBI nr
Match: XP_004138906.1 (dehydrogenase/reductase SDR family member 7 [Cucumis sativus] >KGN61360.1 hypothetical protein Csa_006598 [Cucumis sativus]) HSP 1 Score: 590.9 bits (1522), Expect = 6.8e-165 Identity = 312/327 (95.41%), Postives = 317/327 (96.94%), Query Frame = 0
BLAST of PI0014921 vs. NCBI nr
Match: XP_038891118.1 (dehydrogenase/reductase SDR family member 7 [Benincasa hispida]) HSP 1 Score: 570.9 bits (1470), Expect = 7.3e-159 Identity = 303/329 (92.10%), Postives = 310/329 (94.22%), Query Frame = 0
BLAST of PI0014921 vs. NCBI nr
Match: XP_022972850.1 (dehydrogenase/reductase SDR family member 7 isoform X2 [Cucurbita maxima]) HSP 1 Score: 565.8 bits (1457), Expect = 2.3e-157 Identity = 294/327 (89.91%), Postives = 312/327 (95.41%), Query Frame = 0
BLAST of PI0014921 vs. NCBI nr
Match: KAG6598977.1 (Dehydrogenase/reductase SDR family member 7, partial [Cucurbita argyrosperma subsp. sororia] >KAG7029935.1 Dehydrogenase/reductase SDR family member 7 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 564.3 bits (1453), Expect = 6.8e-157 Identity = 296/328 (90.24%), Postives = 313/328 (95.43%), Query Frame = 0
BLAST of PI0014921 vs. TAIR 10
Match: AT3G03330.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 450.7 bits (1158), Expect = 1.0e-126 Identity = 232/323 (71.83%), Postives = 269/323 (83.28%), Query Frame = 0
BLAST of PI0014921 vs. TAIR 10
Match: AT3G03350.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 154.8 bits (390), Expect = 1.2e-37 Identity = 76/117 (64.96%), Postives = 93/117 (79.49%), Query Frame = 0
BLAST of PI0014921 vs. TAIR 10
Match: AT3G03350.2 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 154.8 bits (390), Expect = 1.2e-37 Identity = 76/117 (64.96%), Postives = 93/117 (79.49%), Query Frame = 0
BLAST of PI0014921 vs. TAIR 10
Match: AT3G47350.1 (hydroxysteroid dehydrogenase 2 ) HSP 1 Score: 92.8 bits (229), Expect = 5.4e-19 Identity = 84/256 (32.81%), Postives = 135/256 (52.73%), Query Frame = 0
BLAST of PI0014921 vs. TAIR 10
Match: AT3G47350.2 (hydroxysteroid dehydrogenase 2 ) HSP 1 Score: 92.4 bits (228), Expect = 7.1e-19 Identity = 88/280 (31.43%), Postives = 145/280 (51.79%), 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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