Cmc10g0275961 (gene) Melon (Charmono) v1.1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GCCAATATTTTGGAAAAGTGCAATATTCATACCATTTTCCTAATTGATAAACACGTTGTATATAATCTTTTTTTAAAAAAAATTGAAGAGGAATTATCGGTCGAGTTCTTCCTATTTCTCTTCTTTCATTTCTTTCAGTTTGAGCGAAAATCCAATAGGTAGTGATTGGAGTCAACTCCACCATGGGAATTGTTCCTAATCTCAATTCCGATCAACTCCAATTCTTTCACTCTCACGGTACCTTTCAATCCTTCTTCCATCATCTTCGCACTTCCAATTTCCATAATTTTCGCTTACCCAACTTCTCCTCCTCCTCCTCCTCCTCTTTTCTTTACCTTTCTTGCAGGTTATCTTGTGATTGAATCATTCGCCACTCCTGATGAAGTTCATGCCATGAGAAACCGGATGGAACTGTTGCTTCATGGATTTGACTGCTCCACTTCCTCTGTTTTCTCTACTGTTAATCAGGTTTTTCTTTGATACCAAATTTCTATCTGCTAACGTTATGCTCTGTTAATGTTGATGTATTCTTTTTCTACAGCAGCTGTCTACCGACGATTACTTCCTCCAAAGCGCTGAGAATATTTCCTTCTTTTTTGAGGGTATCTACAATTTCTACTTACGTATTTTATTGCGATAATTTCGTATCGTTTTTTTTTCTTTTTTTTTTTTTCCTTCCCGTGTTGAGGAACATTAAATGTGGACATGATTTGGTCTTGGATGAGACTGTCTTCAAATATTCATTTCAGGCTAGGATTTAGTAACTCCAACTAAATGATCAATGTGTAAAACTTGTTCTGTTATTGTCGTGAAAATAAGAATTGAATATGCTATTGACATGTCTTTTAATACTTAGTTTCCATAAGTATGGTTCATGCTAATTGGCCCCCTTTTTTATTTCTCCTCCTTTTTTGTAGAAAAAGCATTTGGAGAGAATGGAAACTTGAAACAAGGAAAGGAGCTCTCAATTAACAAAGTTGGTCATGGTTCGTATTTGTCTATTTTAGCAGACTGTTGACATAATCGAAACTTTTGATCTGTCTTTTTTATCTCTTTAGCATGGGTTTCAATTTTACCTTCGCTTACTTGGGTTTAACTATACTCCTCCTAACTTTTGTTACTTTCTCTTGGCCTTGGTGACTCAAAATGGTTGTTCTCCAGAAGCTTATGAAAACCTTAGAATGGAGCGTTATCTTTTGTTACTTTCTTTTAACTGAACCTCCCTTTTGCAGCATTACATGAGTTAGACCCAGTTTTCAAAAGCTTCTCCGACTCTGAGAAGTTTTCAGGTTTATTGTTGTCATTGGGATACAAGAGGCCGATAGCCATTCAGTCTATGTACATATTTAAGGTTCTCTCTACATTGCAGTATAACTTATCAATACTAGTTTATTAATTTATTCCATTAAGTTAATGATACAATAATTTTTGGAAAACTCACTGACAGCAACCAGGTATTGGAGGTGAAGTAGTGCCTCACCAGGATAACTCGTTTCTTTACACTGAACCAACTACATGCACAGGGCTGTGGCTGGCACTTGAAGATGCAAATACGACAAATGGCTGTCTTTGGGCTATTCCTGGATCACATAAAAGTATCCCCTCAAAAGCCACTTCTTAGATAGTGGAAATGTCTTTCCTGGTGTCTGATTAATTATATTTCTTGTTGATTTTTGTTGTTTCTAGATGGACTTGTTAGAAGGTTTCTTAGAGGCGACAAAGGAGTGTACTTTGATCAGCCTTCTCCTACTTACGACAAGAAAGATTTTGTGCCTATTGAAGTGAAAGCTGGATCTTTGGTTGTCATTCATGGAGACGTTATTCATCAAAGGTATGTCATTTGTGGAAGGAATATTAAAACCGTTTTATTAGTTGTACCATGATTTGTCTTTAAATTTATACCATAGTCAATTTTTTATTTTTTATTTTATTTATTTTAAGCAACTTTTCTTGTGTTCCCATCCATATAGAGACAAAAGTATTCTGATTCATTCTGAGCATTTTTTAAGTGACACTGCATACCAAATGAGTAAAGATTCTCCCTTACTAAATATGATATTAAGATTGATAATAACAAAAAACATGGGATTGACTCACAAAACAACACAAGAACTAAGAACATGATAACAACTAATCACAAGAGAGCTGCACTCTCCCTTTCTTGAACATATACAAAATTCAAGATAGCTAACCCTAGCCAAAACGAAAGCTTAAATACTGACATTCCCTTGCTGCTCATACAACCCAGGACCGCAACCAGCTAATGCTAATGATGCTAATTCATATAAAATGAGATGTAGTTTTTTTATGGTTTTACAATATCTCACAATTTGTGTTCGTTCAGAGGCAATTGGTTAATATTGAACTTCTACATCACCATATGTTAAGTCTGGTTTATTTTTCTAAGCACCATGAGGAGCATGAGCTAACTCTCCAAGAGTTTTATGTTTTTCCTTGAAATGTAAATTATGATAATGTTATCTCCAAGCTGATTGCTGTCCAATTTCTCTGATATGTGTGAACTATAGCTTTGAGAATCAGTCTCCAAAATCAAGACATGCGTATAGCCTGCACGTGGTTGATACAGAAGGTTGTGTATGGGCTCAAGATAATTGGTGAGTTCATAAAGAATTTGCACTTTTTACCTGTTTTTATTTTTCATTAAGAAACTTATTTTATCCCGTCATTGTAGGAAGTTGTACTAGTTTTGATATTAATTCTTCTGTTGGCTATTGTTAAAATTGTTTTCAGCAGGCATTATAAATTATTTTTATTATTATTTTACATAGAATTTAGAAAAGGGAAAAAAAGGACTTCCACTGAGAGATATAATCACAAGCTGTAACGGGAGAGAAAAAATGTGAGCCGACAGTTAGTTAATATGTGCATGGATAGCCCCCACTATCTAGCTAAACTTCCAATTATTAAATAAAGTGATACCTGAAAGTAATTGAGGCTCAAAGCAGGACCCGTTTTTTCATTCGAAGGTAGTGGAAGTTTTGTTGACAAACGAAGTTAGAAAAGAGAGTAGGAGATTCCCAAGCCATATGGATTTCAGAAGGACCTTCCATCTTGACCAACAGAGTGTTCAGACTATAGTTTGGAAAAGGAAGATTAGATTTAAACCTATATTATGCCAAAGTGAGAACAGAGTCCAAAACAAAATTAAAGTATCCTTCATCTTGTTATAGATGCCATTGTTTCTTTCTAATCTAACGAGAGGTTCCCAAAGAAGACTAATAATGTGGAGCCAGAGCTTCTCTCTTTCTTAAATGGGTGATGCAACAATGTGGAAACAAGGAAATCTCTTGGATCGATAGGAATTGCGAACTGCAGCTTGCCAACTGAAAGATTCTCGGATGAAAAACCAAAATTTATGAGCATAGGGGTACAGTAGTAAACCTGACAAGAATGCATAAGAGAGTTCAGTATTTATTTGATTGCGTTTAAGAAATTTATGTTTTTGGGATTTTGAACCATGTATATGCGTCTGCCCATCCCTAGTTGGTTCGTGGCCTTGAGGGTTTGTTAATACATGCCACTGACTTAAGGTTGATTGTTCGGGTGAATTCAATAAAACAAATAATAAAGTAATGAAGTACAAGTCTGGTTCTTGTTAATATTATTTTCCTCGTTGTAAATTTTGTATTTTCATATCAATTGAGTTTCCACCCTTAGTTGTGCATCTAAGGTATGAAAAATTGCTTAGGTCATGGGACATTACATGAATGATTGAGGGTTGAATTTGTTTTGTTTAAAAAGAAATATGCACTACAATAAAGTGCTATTAAAATATGCACCAAAATAGAATTGCTATGAAAATGTAAAGTGGCAGGGTGGGACTATTGCTAAAATTTAAACAAAATATAGAATTTTCTGTACAACATAGGAGTCATAATAGGGTTGTATATTCTATTCCTTGTAGGAATGATTCTGGTTTGACCTAGGTGGGTATTAGCCTAGACATGTGTATATTACCTTTACCATTAAATCCATGATTAGCATTCTAGATCTAGGAGTGTTAACATCCTGTGTCACATGTTCCTGCTCTGCAATCCCCATCTTTATCATCTTTCATCCCCTAAAAATCATCTTGTATTTATTTTTTATCTTGGCTGGGGAGCTCAGTGTCATTTCCTTTTAGGTCTAGTTGCTCTTTCAATGATAGGGATGCGACTGATTCCTTTTCTTTGTTGTTGTCTTGGGGAGAGTTTAGATTTTGGCGTGGAAGAAGGGATGTGCATATATTTGGAATCTTGATCCTTTGGAGGGCTTCTCTTGTAACTCTTCTTTTCGTTGTCAATTGGACCATTCTCCTTCTAGAGAGTATATTTTTCCTGCCCTTTGGAGGATTAAGTTTCCGAAGTCAGTGATACTCTTTATTTGACAAGTTCTAAATGTACGTGTAAACACCTTGGATTTGGTCGTTAAGGAGGATATCGTTGTTATGGGTCTGTTTTGTTATATTCTTCATAAAAAAAACAAAGGAAGACCTGAATCACGTCCTTTAGAGATGTGAGTTTGCACTCTCTGTGGAATTTGTTCTTCTAGAATTTTGGCTTTACTTATGTCCTTCAGTCAATAATGTGATTAAGGAGTTCCTCTCTGTTAGTGAAAAGAGTTGCTTCTTATGGTTGGTGGGGGTTGGGTGCTATCACTTGGAATCTTTGGAGTGAAAGGAACAGTAGACACTAGGTTGGATAAGGAGCCTAGTGACTTTTCGATCCTTATGTTTCATGTTTCCATTTGGAAATGGTTGTTTTATCAAAATAATAAATAATAAAAAATAATCAAGTGTCACATCACATGACCGACATTCTTTATTGGGGTAAGTAAGCCAATCAGGTTGTACTCACTCTTTTGGAGAGAAAAGTATATATTATTCAATATTGAATCAAAATAAAGTTACATATATATAGAGAACATAGAAACTCTAGACAGAATGTACAATTACGATAAAGGACACATATGATAAAAATATATATTATAACACTCCCCCTCAAGCTGGAGCGAATATATCAATCATGCCCAGCTTGTTGCACAAATAGCTTATTCTTGCTCCATCTACAACTTCGGTAAAAATAACTCCCAATTGTTCTCCGGTCTTCACATATCCTGTGAACACTATCTTGTCTTGTATTTTCTCATGAATAAAGTGACAATCCACCTTAATATTTTTAGTTTGTTCATGAAATACTAGGTTAGATGCAATGTGGAGTGCAACTTGATTATCACACGATAGTTTAGCTGGCATGGTAATGCTGAAGCCTATCTCAGATAATAGTTGTATCCACACTATTGTGCACACAGATTGTGCCATAGCCCTATATTCTGACTCAACACTCGAACGAGAAACAACATTTTGTTTCTTACTCTTCCAAGATACCTAGTTTCCACCTACAAAGACACAATAACTAGAGGTCGACCTCCTATCCTCTCGAGATCCAGCCCAATCAGCATCAGAATAACAATTAACTCTCATATGTCCATGATCTTTATATAAGATTCCGCGTCCAAGAGCAACTTTCAGATAAAATAGAACTTGTTCCACTGTAACCCAATAATCCACTATAGGAGAGACATGAACCGACTTACAACACTTACAGGATAAGCAATGTCTAGTCGTGTCACTGTTAAATAGTTCCACTTCCCAACTAATCTTCTATATCTCTCAAGATCTTTAAATAATTTTTCTTCTTTAGCAAGTTGCTGATTTGGTATCATTGGAGTAATGGTTGGTTTGGCTTATAGTTTTCTTGTCTCAAACAACAAATCAAGTACATATTTTCGTTGAGATAAATAAATACCTTTCTTGCTTCTTATCACTTAAATACCCAAAAAAAATTTCAATTGTCCCAAATCCTTCGTATGAAACTGACCCTGAAGGAAAGTCTTGAGAGACGAAATACCCGATATATCATTTCCAGTAATAACAATATCATCAACATACACAACCAGCAAAATAATACCATTTTCAGATTGTTGATAGAAAACATAATGATCAAATGTATTCATCTACGCACTAAAGTGTACGAGATCTTGACTAAACTTACCAAACCACACACGTGGTCTCTGTTTCAAACCATACAAAGATTGTTGAAGGTGACATATTTTATCACTCTCCAGCTGAGCAACAAACCCAAGTGGTTGCTCCATATAAACTTCATTCTGAAGATCATCATGCAGAAAAACATTCTTGATGTCAAGTTGATGCAAAGACCATTTATGGGTAGCAACCATGGAAAAAAAAAATCGGATGGAAGTTAATTTGACAAAAGGAGAAAATGTAGCTGAATAATTAGTGCCATAGATTTAGGCATACCCTTTGGCAACAAGACGAGCTTTTAACCGAGCCACTGTTCCATTAGGATTAACCTGAAAAGAAGAGAAAACGAGGAGCGCAAATCAAACACCCATTTACACCCAAAGGCCTTCTTTCCTATAGGATGAGATACTAAATCCCAAGTACCATTATCATCTAAAGCAGTCATCTCCTCAATCATTGCACTACTCCAACTAGGATGAGAGAAAGCTTCATGAACCGTGTTAGGAATAGATGTGGAATCAAGGGACGTAATAAAAGCAGAGTAGGACAATAACAACGATAGCCTTTTTGAACGCATGAATAACCCAAGAAGATGTATTTCAAGGATTTTGGGATCTAGCTTAGTATGATGAAGACAAATATCCCAAACAAAGCAAACATGACCAAATATCTTAGGAGCAATAGGAAACAAAGACTTGGTAGGAAAAGAACACGATATGGAGGCTCACTGTCAAGAACAGACGAAAACATTCTATTAATCAGAAAAGAAGCCGTAGAAATAACATTGGCCCGAAAAGGCTTTGGAGCATGCATTTGAAATGATGAAGTACGTGCAGTTTAAAGTAAGTGCCTATTTTTCCGTTCAGCAACTCCATTTTGAGATGGAGTGTCAGCACAAGAAGATTTATGAATGATGCCATGTTCACACAAGTAAGAGGCAAGAACATGAGAGAAATATTTGCCAGCATTATCAGTGTGCAAAGTTTTGATAAAGACATTAAGATGGTTTTTAATTTCAGCATGAAAAGCACAAAAGTGAGGTAACTCGAAACGATTTTTCATAAAATATAACCAAGTCAGACAGGAATGATCGTCAACAAAAGTAACAATATAACGAAAGCTTGTTTGAGACACAACTGGATATGGACCCCAAATATCATAATAAACTAACTTAAATGGAGCACTTGCTTGTTTATTGACTCTAGGACCCGAAATAAGAAGATGAAATTTAGCAAATTGACATGAATCACAATTCACAAAGAACAAAATTTAGGATAAAGCTTCTTCAACACGATCAAAGATGAATGACTAAACGACAATGGACTTTAAATGGAGATGTATTGGCAGAGCACACCTTAACTTTCGGTACTTGGTGATCAAAGAGATAAAGGCCCCCTGACTCATATACTCGACCATAATCTTCTTTGTCACACGATTCTAAAACAAGCAATAACCAGGAAAGAAGAAAACAATACAATTGAAGTCGTGAGTAAATTGGCTAATAAAAATTAAATTAAAGGATAAGTTAGGCAAATGTAAAACAGAAGACAAAGAAAAGGATGAGGTAAGGTGAATAGTGCTAAAGCCAAGAATAGGGGATGTGGAGCCATTTGCCAAAGTTACAGACGAGAAAAGGGCTAGGGAGGATGGTCTAGAAAATAAGCGAGAATTACCTGTCATATGGTTTGTGGCACTAGAGTCTATAACCCTTTTGGTAGATGATTTAAGGTGACATTTTATATTACTTGTGTTAACAGCGTGGATGCAACAAGAGTAGAGGAAGATGACGCTTGCAATGAATCCTGGTATATCTGAAACTTAGCAAACTTGTTTGCAGGAATAGTAACTGATGCTACTGTCATATCACTTGTGGAAGCTATCTGAGTATCTGAGCATGTTGAGATTGTTGATTATTCATATATAACAATTTTCGACAATCACGTTTCAAATGACCTGGCTTATGACAATAGTTACAAACAATCTTTGTAGAATTCGATTTTCGAGGATCATAACTATTCCTCTTAAAGTTGTGAGGTACCCTGGGGTTATTGTTCTTGCTAATGTGAGCACTACTGGATTATGGAAAGGACACGAGTGAAAGCATTGTCTAATGATGGAATTTTAGAGTCGGAGAGAATTTGTGATTGGCCATTCCTAATTCAAGTAAAAGTCCATTAAAAAAGATCATGACAGCCATCTTTTCTCATTGAGCTTATTGAACTATCCTCTTAAGCCGCATAAAGTATCCGGTAACAAATTCTGTTTTTTGTTCGGCACGGAAAAACTGCATACAAACTTCAAAATTCTATGTACTTTCTTTTTACCTGAATATAGAAATTCTAAAAATTCTAAAAGTTCTAAAAGTTCCTTAACAGACTCGCAATGATTAACCAATCCAAACCCTCAAACCAAGGATATATTCTTCAACTTTCGTCAAATGGGAATAGATTTCGATGAAACCAACCTTGCAGACGAATTGAAAAAGAGGATTCGAGACAAGCCCAGAAGATGGAGATCGAATTGGAGCAACCACGTGCTCCCATGTACCGGCACATGGAGACGGTGCAGAAGTGGTTCGGAGTGTGTGAGCTTCATGCATAGTGTTTTCCGACGAACGACAATAGCAAAATGCGGTGGCGCTTCTACTGAGATGGACAATGTCGAGAAATGGCCACTCAAAGATAACCTAAACCTAAACCCTAATGGAGAGGGAAGCTATCAAGTGAATATTTTCAAACCTTCTAAACTCTAGAAGGCTCTGATACCATGTAATCACCATTTTGGAGAGAAGTATATATTATTTAATATTGAATTAGAGTATATATATATATATATATATATATAAAAAAAGAATATAGAAACCCTAGACAAGGATATACAGGACACATATAATATAAATATATATTATAACACAGGTGTTAAAGGATGTTAAAGGATTTTCTTGATTCATTCTTCCCTTGACTAGAAGGGATAGCAGCTAAAGTCTGCTAAACAGGTCATATTGGAAAAAATTAGTGTGTGACAACCACTTCAAAATCCTTTTGAAGTGTATTTAAAACAATTTTGATCAAACGAATTTAAATAAAAGTGAGTTTTTCGAAAAATACTTTTTTTTAAAACCAATTCAAACGGGTCCTAAATCTCTGGAGTCATGTTTTACTAACATCTGTGCTCTGTTTTAGGTTTCACTTTTAAGGTAATGATATTTCAATATGGAGTTTGATTTTTGTTATGGCAAACTGAGAGGCCGTGGATGAATCCTCCATTGTGTTTGATGGAATTGGCAGCAGTAGTTAGGAGGAAACTTTTGGTCTACCTTAGAACCTCCAGCTTAAATTTTGGGATGTTTGGCATTGTTTGCCTCGAGGTCTCTTAAATTTTGATTTTTGTGTTAATTGGAAATACTGTCCAATAAAAGATGCACACATTGTTGAAATTGATTGATTCATAGATCAATTATTAAAATGAAAAGAGTTTGTATTGCCCTAGGATGTAGCATTCCTGACCTTTTCATCCTTCATTCTTATCCAGGATTAGGAGAAAAGTGCAACTTGAGCCTCTATATGAAACTTGATCGAATCTCATGGTTTGTTTCTTCTCTACATCTTCATAAAAAGAGGGGGAAAAACACTTGCCCCCGGTGTTTCGACAAACACAGCTGTCACGAAGGTGCTGAAATTTAATAAGATATGTAATCTTTCTAGCTTAAAGAGTTTCCTTACTATTGTTGCTAATTGTTCAAAACTTTCCAAGCTTTATATATATATATATTTTAGTTTTGAACAATATTTTCACAACCCAGGATAGACCACGAATCTGCTGGTGGAGAGAGCTCAATTCACCTGTCCAAAACACCAACACATCGGATAGGTTCCATTAGTACACTCAAATCTAATTATCAGATGAGTCAGGAAGGGGTTTCAAAAAAAGAAAATTATGATTCAACCTATAAACATTAGAAAAGTACCTTAAACTTCTTATACCTATAGTATTTGCACGTACTTTGTATCAGACATTGAAGGCTAGAAAAAGTGTGTTAAAGGCATTGAGATATACTGCTAGCATATTTGAGTTTAGTTGCAATTCTAAGCATGCCATGTGTCACAATCTAGATAACACTTCAGATTAAAATAATCTGGAGATTATAATAGTTTGCTTTTAAGGTGTAGGCTATTAGCTGGGGTGTAGATTTAAGGGGAGTGGAGTGGGTTATTTTAGCCTAACTCCACGTTCGAGGCATGGATTAAGCAAGAGGGGATTAATGTTATTTTACTCCTTATTTTATGCCGAAATCCTTGGCACACATTGTTACACTCCCTTCCACATATTGTTCCACTCTCTCGGTCGGGTGCATCTCAGAATAACTGATTTTTTTTTTCTCGAGGTCAATCTTGGTCGAGATCGATTCTGATATTCTTTCCAAATTTAAAAAACTCTTTGGATTTTAGGGTCAATGATACTGAGTTGCCCCGAGGTAGCCTCAAGCTAAAGAACATAAGCATTATATAGTATGATCTTGTATAGAAATTTCTTTCAAAGAGTTCTTTAAATTTGGGAAGAATCTCGAGGTCGATCTTGGAGATCAATTCCGAGAAAAACAAAATTTTCAGTGGTCTCAAAATGCACTCGACTGAACGAATGAAACAGTATGCGGTAGGG GCCAATATTTTGGAAAAGTGCAATATTCATACCATTTTCCTAATTGATAAACACGTTGTATATAATCTTTTTTTAAAAAAAATTGAAGAGGAATTATCGGTCGAGTTCTTCCTATTTCTCTTCTTTCATTTCTTTCAGTTTGAGCGAAAATCCAATAGGTAGTGATTGGAGTCAACTCCACCATGGGAATTGTTCCTAATCTCAATTCCGATCAACTCCAATTCTTTCACTCTCACGGTTATCTTGTGATTGAATCATTCGCCACTCCTGATGAAGTTCATGCCATGAGAAACCGGATGGAACTGTTGCTTCATGGATTTGACTGCTCCACTTCCTCTGTTTTCTCTACTGTTAATCAGCAGCTGTCTACCGACGATTACTTCCTCCAAAGCGCTGAGAATATTTCCTTCTTTTTTGAGGAAAAAGCATTTGGAGAGAATGGAAACTTGAAACAAGGAAAGGAGCTCTCAATTAACAAAGTTGGTCATGCATTACATGAGTTAGACCCAGTTTTCAAAAGCTTCTCCGACTCTGAGAAGTTTTCAGGTTTATTGTTGTCATTGGGATACAAGAGGCCGATAGCCATTCAGTCTATGTACATATTTAAGCAACCAGGTATTGGAGGTGAAGTAGTGCCTCACCAGGATAACTCGTTTCTTTACACTGAACCAACTACATGCACAGGGCTGTGGCTGGCACTTGAAGATGCAAATACGACAAATGGCTGTCTTTGGGCTATTCCTGGATCACATAAAAATGGACTTGTTAGAAGGTTTCTTAGAGGCGACAAAGGAGTGTACTTTGATCAGCCTTCTCCTACTTACGACAAGAAAGATTTTGTGCCTATTGAAGTGAAAGCTGGATCTTTGGTTGTCATTCATGGAGACGTTATTCATCAAAGCTTTGAGAATCAGTCTCCAAAATCAAGACATGCGTATAGCCTGCACGTGGTTGATACAGAAGGTTGTGTATGGGCTCAAGATAATTGGATTAGGAGAAAAGTGCAACTTGAGCCTCTATATGAAACTTGATCGAATCTCATGGTTTGTTTCTTCTCTACATCTTCATAAAAAGAGGGGGAAAAACACTTGCCCCCGGTGTTTCGACAAACACAGCTGTCACGAAGGATAGACCACGAATCTGCTGGTGGAGAGAGCTCAATTCACCTGTCCAAAACACCAACACATCGGATAGGTTCCATTAGTACACTCAAATCTAATTATCAGATGAGTCAGGAAGGGGTTTCAAAAAAAGAAAATTATGATTCAACCTATAAACATTAGAAAAGTACCTTAAACTTCTTATACCTATAGTATTTGCACGTACTTTGTATCAGACATTGAAGGCTAGAAAAAGTGTGTTAAAGGCATTGAGATATACTGCTAGCATATTTGAGTTTAGTTGCAATTCTAAGCATGCCATGTGTCACAATCTAGATAACACTTCAGATTAAAATAATCTGGAGATTATAATAGTTTGCTTTTAAGGTGTAGGCTATTAGCTGGGGTGTAGATTTAAGGGGAGTGGAGTGGGTTATTTTAGCCTAACTCCACGTTCGAGGCATGGATTAAGCAAGAGGGGATTAATGTTATTTTACTCCTTATTTTATGCCGAAATCCTTGGCACACATTGTTACACTCCCTTCCACATATTGTTCCACTCTCTCGGTCGGGTGCATCTCAGAATAACTGATTTTTTTTTTCTCGAGGTCAATCTTGGTCGAGATCGATTCTGATATTCTTTCCAAATTTAAAAAACTCTTTGGATTTTAGGGTCAATGATACTGAGTTGCCCCGAGGTAGCCTCAAGCTAAAGAACATAAGCATTATATAGTATGATCTTGTATAGAAATTTCTTTCAAAGAGTTCTTTAAATTTGGGAAGAATCTCGAGGTCGATCTTGGAGATCAATTCCGAGAAAAACAAAATTTTCAGTGGTCTCAAAATGCACTCGACTGAACGAATGAAACAGTATGCGGTAGGG ATGGGAATTGTTCCTAATCTCAATTCCGATCAACTCCAATTCTTTCACTCTCACGGTTATCTTGTGATTGAATCATTCGCCACTCCTGATGAAGTTCATGCCATGAGAAACCGGATGGAACTGTTGCTTCATGGATTTGACTGCTCCACTTCCTCTGTTTTCTCTACTGTTAATCAGCAGCTGTCTACCGACGATTACTTCCTCCAAAGCGCTGAGAATATTTCCTTCTTTTTTGAGGAAAAAGCATTTGGAGAGAATGGAAACTTGAAACAAGGAAAGGAGCTCTCAATTAACAAAGTTGGTCATGCATTACATGAGTTAGACCCAGTTTTCAAAAGCTTCTCCGACTCTGAGAAGTTTTCAGGTTTATTGTTGTCATTGGGATACAAGAGGCCGATAGCCATTCAGTCTATGTACATATTTAAGCAACCAGGTATTGGAGGTGAAGTAGTGCCTCACCAGGATAACTCGTTTCTTTACACTGAACCAACTACATGCACAGGGCTGTGGCTGGCACTTGAAGATGCAAATACGACAAATGGCTGTCTTTGGGCTATTCCTGGATCACATAAAAATGGACTTGTTAGAAGGTTTCTTAGAGGCGACAAAGGAGTGTACTTTGATCAGCCTTCTCCTACTTACGACAAGAAAGATTTTGTGCCTATTGAAGTGAAAGCTGGATCTTTGGTTGTCATTCATGGAGACGTTATTCATCAAAGCTTTGAGAATCAGTCTCCAAAATCAAGACATGCGTATAGCCTGCACGTGGTTGATACAGAAGGTTGTGTATGGGCTCAAGATAATTGGATTAGGAGAAAAGTGCAACTTGAGCCTCTATATGAAACTTGA MGIVPNLNSDQLQFFHSHGYLVIESFATPDEVHAMRNRMELLLHGFDCSTSSVFSTVNQQLSTDDYFLQSAENISFFFEEKAFGENGNLKQGKELSINKVGHALHELDPVFKSFSDSEKFSGLLLSLGYKRPIAIQSMYIFKQPGIGGEVVPHQDNSFLYTEPTTCTGLWLALEDANTTNGCLWAIPGSHKNGLVRRFLRGDKGVYFDQPSPTYDKKDFVPIEVKAGSLVVIHGDVIHQSFENQSPKSRHAYSLHVVDTEGCVWAQDNWIRRKVQLEPLYET Homology
BLAST of Cmc10g0275961 vs. NCBI nr
Match: XP_008465221.1 (PREDICTED: phytanoyl-CoA dioxygenase isoform X3 [Cucumis melo]) HSP 1 Score: 588.2 bits (1515), Expect = 3.8e-164 Identity = 280/282 (99.29%), Postives = 282/282 (100.00%), Query Frame = 0
BLAST of Cmc10g0275961 vs. NCBI nr
Match: XP_011655108.1 (phytanoyl-CoA dioxygenase isoform X1 [Cucumis sativus] >KAE8648114.1 hypothetical protein Csa_004707 [Cucumis sativus]) HSP 1 Score: 571.2 bits (1471), Expect = 4.8e-159 Identity = 272/282 (96.45%), Postives = 276/282 (97.87%), Query Frame = 0
BLAST of Cmc10g0275961 vs. NCBI nr
Match: XP_011655109.1 (phytanoyl-CoA dioxygenase isoform X2 [Cucumis sativus]) HSP 1 Score: 567.4 bits (1461), Expect = 7.0e-158 Identity = 272/282 (96.45%), Postives = 276/282 (97.87%), Query Frame = 0
BLAST of Cmc10g0275961 vs. NCBI nr
Match: KAA0065706.1 (phytanoyl-CoA dioxygenase isoform X3 [Cucumis melo var. makuwa] >TYK14457.1 phytanoyl-CoA dioxygenase isoform X3 [Cucumis melo var. makuwa]) HSP 1 Score: 562.0 bits (1447), Expect = 2.9e-156 Identity = 267/269 (99.26%), Postives = 269/269 (100.00%), Query Frame = 0
BLAST of Cmc10g0275961 vs. NCBI nr
Match: XP_016903345.1 (PREDICTED: phytanoyl-CoA dioxygenase isoform X1 [Cucumis melo]) HSP 1 Score: 558.1 bits (1437), Expect = 4.2e-155 Identity = 266/270 (98.52%), Postives = 269/270 (99.63%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy Swiss-Prot
Match: Q9ZVF6 (Phytanoyl-CoA dioxygenase OS=Arabidopsis thaliana OX=3702 GN=PAHX PE=2 SV=2) HSP 1 Score: 443.0 bits (1138), Expect = 2.6e-123 Identity = 201/280 (71.79%), Postives = 239/280 (85.36%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy Swiss-Prot
Match: Q10E49 (Phytanoyl-CoA dioxygenase 1 OS=Oryza sativa subsp. japonica OX=39947 GN=Os03g0708100 PE=2 SV=1) HSP 1 Score: 401.0 bits (1029), Expect = 1.1e-110 Identity = 188/276 (68.12%), Postives = 223/276 (80.80%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy Swiss-Prot
Match: Q65WW7 (Phytanoyl-CoA dioxygenase 2 OS=Oryza sativa subsp. japonica OX=39947 GN=Os05g0473900 PE=2 SV=1) HSP 1 Score: 399.4 bits (1025), Expect = 3.3e-110 Identity = 187/276 (67.75%), Postives = 221/276 (80.07%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy Swiss-Prot
Match: Q0IIB1 (Phytanoyl-CoA dioxygenase domain-containing protein 1 OS=Bos taurus OX=9913 GN=PHYHD1 PE=2 SV=1) HSP 1 Score: 256.1 bits (653), Expect = 4.5e-67 Identity = 134/289 (46.37%), Postives = 175/289 (60.55%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy Swiss-Prot
Match: Q5U3U0 (Phytanoyl-CoA dioxygenase domain-containing protein 1 OS=Danio rerio OX=7955 GN=phyhd1 PE=2 SV=1) HSP 1 Score: 253.4 bits (646), Expect = 2.9e-66 Identity = 128/283 (45.23%), Postives = 171/283 (60.42%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy TrEMBL
Match: A0A1S3CNE4 (phytanoyl-CoA dioxygenase isoform X3 OS=Cucumis melo OX=3656 GN=LOC103502875 PE=4 SV=1) HSP 1 Score: 588.2 bits (1515), Expect = 1.8e-164 Identity = 280/282 (99.29%), Postives = 282/282 (100.00%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy TrEMBL
Match: A0A5D3CR94 (Phytanoyl-CoA dioxygenase isoform X3 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold186G001210 PE=4 SV=1) HSP 1 Score: 562.0 bits (1447), Expect = 1.4e-156 Identity = 267/269 (99.26%), Postives = 269/269 (100.00%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy TrEMBL
Match: A0A1S4E5U1 (phytanoyl-CoA dioxygenase isoform X1 OS=Cucumis melo OX=3656 GN=LOC103502875 PE=4 SV=1) HSP 1 Score: 558.1 bits (1437), Expect = 2.0e-155 Identity = 266/270 (98.52%), Postives = 269/270 (99.63%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy TrEMBL
Match: A0A1S4E537 (phytanoyl-CoA dioxygenase isoform X2 OS=Cucumis melo OX=3656 GN=LOC103502875 PE=4 SV=1) HSP 1 Score: 551.6 bits (1420), Expect = 1.9e-153 Identity = 265/270 (98.15%), Postives = 268/270 (99.26%), Query Frame = 0
BLAST of Cmc10g0275961 vs. ExPASy TrEMBL
Match: A0A0A0KPM7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G289600 PE=4 SV=1) HSP 1 Score: 549.3 bits (1414), Expect = 9.5e-153 Identity = 261/269 (97.03%), Postives = 264/269 (98.14%), Query Frame = 0
BLAST of Cmc10g0275961 vs. TAIR 10
Match: AT2G01490.1 (phytanoyl-CoA dioxygenase (PhyH) family protein ) HSP 1 Score: 443.0 bits (1138), Expect = 1.8e-124 Identity = 201/280 (71.79%), Postives = 239/280 (85.36%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13
Relationships
The following mRNA feature(s) are a part of this gene:
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