![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
PI0017150 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGCCGATAGTTGCGACATTTGCGGCTACATTTTCCGGATCCCTTCTTGATTTGGCTGACAAAGGCTCTGCGGTTCGATTCCATCGCTGTGTCAGTTGGCCTGCTAATCCTGCCAGTTTCAACTGCCATTTCCAGGTACTTCCTTTTCCTCATTCTTTTTTCCTCAGGTACTTGTTTTTATATTTTTCTCTCTTCACCGTTCTGTTGTACCAACATTTCTTGCCAAAACATAGCTCAAATGGTCTTATGGTCGTGGGTTCGAAACGCCTTAGTATTCCTAAAGAAGAAAAACCAAACATGCTAAATTACGCTTGGTCTGTGTTTGTTTGTTTCGATCTTTTGTCTGTTTTCTCCGAAGTATTCAGTTCACGAAAGGACCTAGAAAGGATGGAGCGAGCGCCACAATTTACCCTGATTACCTTAATCTGGTTTGGTTCGACCCGGGCCGACCAGTAAATACATCAGTTTCGCATGCAGGATTAGTGTGAAAGTCGTTTACCTGCCCCGCCACTTTTTGAAATTACACGATTCAATTTAATTTATAAATTGCAAGTATGGTGTTTCTTTAACTAAAAAAAATGCAACTGTGGCGTAGATTTCTTTTTAGTTCATAAGTCACCGGGAGATTGTATGGATGTTGGTCCTCGGTTAAAATACAGGGACATTTACAAATAAATCAGACCAAAACATTAGTAGATAGCATAATGACAAAAGAATTTGTAAATATAACAAAATTTAGATTAAGTTCTCGGAGTCTTTTAGTGTTTAGACTATATCAAACTTAGCTTCTGTAGATTTTGTTATATTTGCAAATATTTAAAAATGTTGCTATACACTTAACTTAATTATTAGCCATAAAAGTGCTATCCATTACAATTACCTTAAGATATAGGGCTATTTTTAAATATGACAAAATGAACCAAAATGTTTACAAATATAGCAAAATATCACAATAGACAGGTAGTAAAAATAGACTACTATAAAAAATATTTATCTATATACTTTATCCCTTTTTTATTGGTGCTCTAATTTTTCTAAACTATCATTTTTTGTTTTTGAAATTTGCATTTTGTATGTATTTGATCGCAAGGGGTTTCAAACATCAAGATTTAAATTTAATTTCTATTTCATCTTTGAAGTTTGAGTTTGGCTTTTAGTTTTTTTGAAACGGAATCGAGTGTAACGACCCAACGAGCCTTGACTAAGAAGACCGTTACAACCCAAAGCGGAAGACTTAAAGAAGAAGAAAAAAAAGAGAAAGAAATTTGACAAAGAAGATAGCAGGAACTTTACACAAAAGAAATCGATTCAGAAAGTTAAAATTTCACCAAAACTTAGTTCGGGCCCTACCTAAGAAGTTAACAATACAAAACAAAAGAGGAAGAAGTACACAAGAACAGAATTGTAGCTGACTAGTGTAAACACAAAAGGAATGACATAAAAGCAGAAGAAAAGGGCATGGTTCCCGTATGGCCAGTCACAGAGCCTTCCTGTCGCTCGCCAGTTTGCCTCCGCCTCTCCCTCTACCCCTACCTGCCAAAGAAACAAAGAAAGAGTGAGCACAAAAGTACGCTCAGTAAGGGCCTCTACTAGCCCACTAAATGACGGTCAATCTTCTGTTAGGCCCCCTAAGGAGAGGTACTCAGTAATATTGTGTGCCCGATGGAACACACTTAACTCGTGACCCTGTAGGGACACTCATGAAAATCGGGCTGTGGGCGACCCCATCGGGCCGCTATCGATCATGGCATGACAGACTGAGGCCCTTCGGCGCATACAGTCCTAACAGTAAGGATGGTGATCCTGAGGGACACCGTACATGCAAGTACCCCTAACAACCAAGGTCAACCAACACTTCTAGCATGACAATGTAAAATAGCAAATTCAACTTGTAACCAGAACATGGCAGAGAATCAATAAAGTAACCATAACCAATAACAACTTAGCCGTATAACCTGATCGTGGCAGAGAACAAAGAAAAGCGATATAAATATACCATAAAATCACATCACCGACAGTACTCACCATCTAAGACCCTCACCCTTAAAATTATAAGGCATTCTGTATAATAAGCTTCATGACAGTTATCATTCCAATCAATCACTAAGTTCCAAAGGAAAGTTGGGGTCTAGCAAAAAAATCCTCTTACCTGAGAGGCTAGCTGAAAACGCTCCCTACTCTGACGACCTTGAGTGGGAGGAGAATTGCGGCTCAAACTCTGCTGCTTGGCTTCAAAACCTTCACAACAAGCCCAAAATTAAAACCAAGACCAAACAATGACAACCAAGCAATTGTAGTGATGGGCATACCCAGAAATCCCTCAATACTTACCAAAATGACCCCAAATGGCTTAAATGGCTCACAAAGAGGAGGAAGCAAAACACTTGGCTTGGCTGGGGGAAAGGAGGACGAGTGGCTCGGACAGGAAGCAGAAGACGACGCGATCTGGAAGCGGCGCGGCGGCGGGGTGGTTCGCGAACAGGCAGCGGCGCGGCGGCGCGGGGTGGTTCGGTGGAGGCTGTCTCACACGGACTCCTCGGCACGGGACAGGCTGCGTGAAGGGTGGCTCGCGGACTGAAGCGGCGCGGGGCTGGCGGGGTGGTTCGCGAACGGAGCGGCAGGCGCGGCGCGAGAGGGTTCGCGGCGGCTGGATCTGGGTTGGCTTCGGCTTGCGCAAACGGAGCGGCAGGCGCGGCGGCTGGCGGCGGTTGAGGAGGCGGCGGCTAGGGTTTCGCTTGGATGAAAAGAAGAAGAAGAAGAAGAAGTGGTGGAGATGATGGCACGCTGAACGAGGCCCTATTTAACAATTAATAAAGATATTAATAATCAATTTACTCTTTTCCTTTTCCTTTTTCTTTTCTACAAACAACAACTTTCTCTTTCCACAATTAATCCTAAGTTAAAAAGGCTAAAGCATTCCAAAACAACCAACACAAAAGTCAAATAGTTGAGGATTACCTTAAATCTTGGGGCCTTACATCGAGCCTCTTTATTAATGATAATAAGAAAAACTAAAGCTCAAAGTACAAGAGAATTATACTAAGAGCAAAAAGGATAGAAAAAGACTTAAAAGAACAATCACAACAAAAGTACAACTGAGTTAATCAAAACCTTCAACACCCCGAACAAAACAAAGAAAATCTGAAAAACAAAGCAAAACTTAAAAACTTCAAAAGTTGAGTTTGGCTTCTAGTTGTACAATGAGTATTAAAAGAAGAAAAATACACATCTACAAAGTTGAGTTAGCATATTTTGATTGTCATGTCATCATTTCTTCAGTCAGCAACCATTTAAAAATGAATTTTGAACTCGTGAAAAATCGAATCCAAACTTTAGGAACCATGTCAAGTTCAAGTGCACCTCCTGATCCTTGGTTTATATGCTCATTGTATAATCTTCTTATTCTATGAGCTTCTGTCTCATTATTAATATATTAATAAAGAGGCTGTTTCCTTTTAAAAAAAAGGAACTGGGTCAAGTTAAAAACTAAAGTCAAATATCAACGGCTAAGCATTGGTTGGTAATTATTTGGTTTTTAGTTTTTGGTGTTTGAAAGTTAAACCTATTTCTTCTTAGATATTATACGATGATTTTCATCTTTTTAAGTAAAGGAGTTCAATTTGTAGCTAAATTCCAAAAGCAAAACAAGATTTTAAAAACTAAGGTTTTCAAAAACATTGTTAAAACATAGAAAATAGATAACAAATTTAGAAATGTGGAGGTGTTTATAGGCTAACTAAAAGTGAGTTTTGAAAATAGGAACCAAATAGAAGTAAATTAAAATCCTAGGACAGAAAGTTTATTTTACCCTGGATGTTTTTTTTGTTATGATAGTTCATTCAAACAAAAGTTACTGTTTTATTTATGTTCTGAATAAATAAGTAAGCTTCTTCACATTTATTTTGTTTGCCGGAGACAAATGGTTTCACTTTGCTAGAGCACTGCCAGCCGTTCTAAGGTTAAACTTTGCTCCGTTAGGATAGGAGGTTCTTTGTAGATAAGCCACTTCTGCATTCACGCCATATTGCCTATTCTTCTTCGTGCTTCCTATTTGAGGAAAGCATATCGAGTTGACATTTTAATTTTTGTTAATGCTTACGAGCAGCAGCTCGTAGATCACCTAAAAAGGAATATTTATTATTGGATTCGTATCCTGACATAAGAAGTCCGATGGAGCAACAGTTGAAATGGTAATCCATAAAAGGACCCCACTCTATTGTCCTACTTGCTTAAAGAATAAAATATGAAACTTCATACACTTTAAAGTTGTGCATAAGATAGGACGAAAGATCATTCTTTTGAGGTCCTGATACTCATTATGCCTAGCATTGAATAGACTGTGGGTATTCACCTTATCAATATCTCAAATCAATAACGGACTTTTTTAGGGCCTAAATGGGACACTCGATTCAGACCGAACTCTTTGTCTACTGTTCTCTTGTTTTGTTCCCTAAAAGTAATAGAGTAAGACATCGATTTCTTAATAAGATCAACTTTTTTTATTACATGACGTACTTTGAAATCATTGGCACGCATGTAAACGAGGTGCTCTACCAACTGAGCTATAGCCCTTGTGCTTGTGATACATATTTTATCATGTAGATAATTTCTTGTCGAGATGAATAATCTATGATCTATTTTGTTGATTTTTTGATTGGTATTGCTTATCAATAGTATTATATTTATAACCTATCGATGTGATGCAATAGGGCCCCTTTGTTTTTCTTTGTGATGATAAATTACCTGCTTAACTTAGTAGTTAGTGTATCGCTTTCATACGGCCGGAGTCATTGGTTCAAATCCAATAGTAGGTAGAACTTATTCGATACCACAGAAGCAATGGTATCTAATAAGTTTTCCTACTCAACTTTTTGGATACTAAATGCAATTATGCTCAATCACTCAGACCGGATGATTGAGTTTTTATTACTGCTAATTGGTGTGAAATTCATATCACAATTTTTATGTACAGTTAACTTGCTACTTAAACAGAACTCATCTGTGTGGCTTTAGTGGAAGACGTACCCAAGAAACTGTGTTGGAAAATGATAAGTATGTTTTATATTGTGCTTTCTGCAGAATGGCATGCACTTGCCCCGATTTGCTCATGGTCGTTCAAGCATTGCAGTTAAACATTCATCTATCCGTGCTGCATTGTTGGATGAGACAGTTTCACATCAAAATCTCGGAAAAATGGCTTCTGAAATATTGGTATCTATTCTCCTCTAAAGCTTACAAGGCTAATGCCATTGCCAGTCCGTTTTAAACTCTCTGTTGATTTAGTCCTCTTTAATGTCAAAGAAATTAAACTCTACCTTTCTGTTTTTCATTTAACCTGGCAATTATTCTTTTTTACAGGCTTTTGATCTTGTTCAAGGAGCACTCGTAAGTTTTATGAATCTCTTTTACTCTTCATGGGTCCTGTATGTAGATGTTTTCTTCACTATTCATGTATTTAGATTTTAGCGGCAGGACTGACTGGGTGAAATTCAGTTCTGAGTTTTGAGTTGTTTTGAGAAACTAGTTAAACTTATTTTGTTTTCTATTCTACACGTGGGTTCTTTGAGCCTTCCTAACACATGCCAAAGAAAATTTGGATCATTACAAATATTTACCTTTTCAAATCATAAATGTACAGTAGAGTTTCAATCACTCACGCCTACTAAAGTTCTTATTCTCAATAGACAAGGGTACATAAAATGTTTTAGAATTTCTTTTCTTTTCAGTGATCTTACACAAAAGTGTGTTTTTAGTGAGTTTCCTTTTATATTTTTAAGAAACGGGGATTATGCAAAGGTTCTGGTGCAATCTGATTTATCTTTTTATGTATGAATAATTTCTGAATATCAGGGTGTATGATACCGCTGTCACATGCTTTGTGGGAGTCTGCTATTAAATTGTGTTTCTGTATGCTCTGAGCAGGTAAAGTGGAGTAATGTAATGGATCGATCACCCGATCCACCAACAGCAGTCTTTCTGCATGGAATTCTAGGCAGCAGAAAGAACTGGGGTATGCACTTGACTTTTTTGGTTGTATTGAATGGTTTTCTTAACCTGCACATGCTTGCTGAATAGTTTAGTGGCATGGTGCATGAGTATGTTTGATCTTTTTTTCATGCTAGATGGGCTGGGTTGATGGCAAAGTGTTTAGCCACAGACTCACATGATGTTATCAGTATCACAATGGCTTAATGTCAAGTCAAACAAACTAAATATGAAAAGTTTGAAGCCTTAAAAGATGATTATCACTTAGAGAGCACTGATGAAGTTTCTTCTTTCTTTTCTTCATCTCAATGATCTTATGTAATTTGAAGATTCAATTAAATAAAAATTGACTTCATTATTTTGTGAATATCATTATTTTGTGTTTGGCCTTTTGTAACTGTAGTTTTGAATCTTTGATAGTTGGAGTTCTCACTTAGTACCTTATGCTACAGGAACCTTTGCTAGAAGATTGGCAAAAGAATTTCCAGCATGGCAGGTAGCTTTTCCAGTGTTGTTAGGGCTTGGGAATGGGGGTAGCTACTTTCATTTTTTGTTCTTAAAAATATAACTTTTCTTTGATTGAAAAAGGTTGATTCTTTCCCTGGAAAATTACAACCTAGAGCCATGTGTTAATTTGCTTTTTGGTGTTTCTCATAAGACAAATCCTTTCATGTTTGCATTAGCATTAAAATTCACGTGGTAACACCTAACTCATGCTCGCTCAGTGTTCTTGTATCTTCTCAATTATAGTTCTCTTCTCTTACTATTTAGGTTGCAATCATAAATTTTAATATCTAAATGTCGTAGGCTTCAGTAAGGAGGGCACCTTGGTTTAAGTTTTAACAATGTCGAGCTTACATTCATTCATTTGTTGTTAATTTGCAGTTTCTTTTGGTCGATTTGCGATGTCATGGCGATTCAACCTTAACTACGAAGATGAGCCCTCATACTGTTTCTGCTACTGCTCTTGATGTATTGAAGCTGGTGTGTGGCCTTCAGACATTAAATCAAATTATTAATTGCATTCGTTTCTTGAAAATTAGGCCTCTCTGTTTTGGTTTCTTTTAATGACCTTACTTAACAAGATCTGTTCTAGAGGTTGTACAACTGTGTCCTATTTTAACTTTTATAATGCACATGACATGTATTTTGGTGAGTTCGCACTCGTGCTTGCTTGAATTTATACATATGTAGCTAAAGGATAAAATGTTCTGTGCCATCCCCTGCCTAAAATTGGTTATACAGAGAATTTGAAACTAATGTGCTTGACGATAATAGGTTGTTCTCATATTTGGCATCAGCTGTCTAGTTTCCAATTAAATTATGTACCTTTACTCCTCCACGAGGATACTAGATGTTGTATTTTAAATGTGATGTAAGAAAGATACACGACTGTTTTCTGAACTCCATTAATTGTTTATTAGGTTCGACAGTTGAAAATAACACCTCGAGTTCTAGTTGGGCACAGCTTTGGAGGAAAAGGTATTTTGTAACTAACAAGCAAAGTACACTAGCCTTTGTGCAATTTGACATGAAATCTTATTCATTTTTCAGGTGCTAATGGTACTGGTGCATACTGCACCTTAAATTATCTTTGCAGTTGTCTTGAGTATGGTAGAACAGGCTGCTAAACCTCTTGCCCGGCCAGTGAGAGTAGGTTCTTACCTACCAAGTTTATTTTAGCTCTCGAGTTTTGTATACTTAATACGTAGGTATTAGGAATTTTAACATAAAGAAATTTAGAGAAGTAATTAATTAAGATTTTATTCTGGAGTAGAAGGTAATCAAATGCAATAAATTATGTTCTTATGTGGAGACTTTTTTTTCCTCTCTCTCTCTCCAAAGAATCTAAATAGAGCTTATGTGCTTTCTCTTTATGTTCCTTTCTTTTTATAATGCTTATTTTCTTCTCTCTCTATCTCTCTCTCTCTCTCTTGTCTTTTTCTATTTTGTTTCCTGTAGGTTTGGGTTCTGGATGCCACTCCTGGAATAGTTCGACCTGGTGGAGATGGAGAGGACCATCCTGAACAATTAATATCTTTCCTAAGTACGCTGGGAAATGAGGTAAAATTGCAGTGTACTGTTTTATCCCACTCGTATCTCTCTCTTTTTTGGGGGTAAAGGAAATAGTCCACTGATTGATTTTCTTTATCTTTTTGTTTTAGTATTTGAACCATTCTAATATTCTTGTTACAGTTGCAATATCTACATTCCAAAGCAGGATATTTCATGCTTTCTTTTGTTCGTTCACATCATTTACATATTTTTGGGTAATAGGTATCCTCAAAGCAGGATGTCGTGAATGCTCTAGTTCAACATGGATTTTCTAAGGATGTAGCACAGGTATCAATGGCACTTTCTCTTAAACTATTTAGTGTGCAGTTTGTTTGAGCTTCTGTTGTCATGCCAAGATTATTTTTTGGGCATTTAGTTTTAAGCAGGTTTTTTTTGCTTCTATCTTCACACGAAGTCTTCATTCAGTATTTGGGTGTTTAAATAAGGTTCCACTCATGCATCATCCTGATTCAGCCTCCTTTTTTTCATTTCATATATTACATGATTGTGCAGTACTACCCTTAGTCCTAAATATTTATTCAACTTTCCAAATATTCACCTTATTAATGGGAACAGATTCAACGGTTCTTTTTCCTATGTAAAAAAATGCTGAATCAATCTCTTCCCTTTATATTTCTTCTACTTCTAAACAAGTCTTGGTTGAGGAACTCTTTTGACTTTTTGAAGTTGTGTAGCATGGAGTATACCTTCTACTGATAAATGTACGTGTTATGTTGGAAAGTTTTGCATTTTTCCTCCTCCATATTGAAGTGGCTTAGTTGGTTACTTTCCAAGTAAAATGCTGGTAAACAGTTAGAGCTTTGCATTTTTCTTCGTTTTTTGTAGTGGCCAAGGAGGGACATTACTATCTCTGAAGTTTGTTTCATAATATTGGAAAATAAGTTTCTAAAACAACTAATTTACAGTCATTTCGAATACAAAATAAGTTTCTAGAACAACTAATTTAAAGTCATTTCGAATACATCTTATATGTTGTACTAAGTTCTGTAATTAGATCACACATTTGTAAACCATCAACTACTGACAACTTTCAAGGTTCCTCGTGCTTACTGCCTGGCGGTAAAAGGTGAATGAATGTGCATGTATGAGGATTGGCTTCATACTTGATGTTCCCAAATAAGTGCCCAAGTCAATCATCATTCAGGCAATTCTTACTTTTTTTTATTTAATTTAATTTATCCAAGGATTTCATTGATGAGATGAAATATACAAATGAAGGGGAAGTAATGCCCAAACTAACGAAATTACAAAAGATTTCCAGTTAACATTAACTAAATCCAAAAGCATATCAAAAGAGAACCCCTTAAGAAGGACAGTTAATTCTTCTAAGCCATAATAATAACAAGAAAATTACGTAGGTGTATCCCGGGCATCATCTATCTTTGTGCATCCCACTAAATTGTCCAATCAAATTTTGTCATGTTGCAAATTCTTTTCTTTTCTTATTTTCTTTTATGAAATATTTTAATTATTTGTTTGACATGAGGTATGGAAAATGGATGCATAAAGATGGAAGATGTACTTGATAATAATAATAATATGCATCAATAAATAGATCCAAAGAACCTTCTCATCAGGTGGAACATGTCATATCTTAGTTATTTAAATTTAATTTCCACATTGCTAGAAAAGGACAATTTTATGTTAAAATTCTGATCAGTATAAGAGACTAAGTTAAATCCTGACACACGATTGAAAATTTTGTGGATAATGTATTTGAATGGGGCATCGAAGTTAAAGAACATTTTGTAAGAGTTATTTGTTTGTGATAAACTGATACTACATACTTATATGTTTGTAACAACAAACAAATATCTCCACGGTGGTATGATATTGCTCATATTGGGATACACTCTCATGACTCTACTTTTGGTTTCACCCAAAAGACCTCATAGCATTGGGAAATAGTTGTCCTCCCTTATAAGTTACAAGCCCATTATCATTTCCTTATTTAAGGGATGTGGGACTTTGATAGTATTCTCAACAATTCTCCTTTTGAACAAAGGACCATTGAGCCCTCCTTCAAATAGTCAATTGATTTCCGAATTGTACTTAAGCGCACGGCTAACTCAACCAAGAAGTAGTCATCCATCCGAATTACCTTTGAGCAATCTGCCTGTTTGAAGGCTCAACCAGGGTTGGATACTCTGCCATGACTACATCTTTCGAGGCTCCCACTTCTCTGGGATCAATTTGTTGTGAACAACAATCCTCTAAATATCTCTACAGTGGTATGATATTGTCCCTTTTGGACATAAACTCTCGTCGTTTTGTTTGGTTTCACCCAAAAAGCCTCACACTATTGGTAATAGTTGTCCTCCCTTATAAACTCATGACATCCTCTTATTTAATGGATGTATGACTTTGATTGCATTCCCAACAATATATATATATACTTTCTTCTAGAGATACATATATTTTTCAAGATATCATTTCAGGGATTGGATATGTGAATGATGCTATGCTATATTTCACTGTCTTTTGCTTTGGTTTGTGACTTCAGCGTTCTTGATATTCTGTGTTGTTTACAGAAGGGGGTTTACCAATCCTGCTGAAATTCCTTACCTGATGTGTAACATATCAATATTGTTTTCTAATAAGATGTCAACTTTGGCTATATGTTTGTCATGTCATGTCTTCAGTTTTTGGTTTGGAATTGTAACTTTTCTGAAAATTTTGTTGGTTCACAGTGGGTCGTTACAAACCTCCGACCTATTGGGCCTCATAGTTCATCATCGTCTGGCTTCTCATGGGCGTTTGATCTCAAGGGCATCGCTGAAATGTATCAGTCCTATGAAGAGACAAATTTATGGTAGTGACTTTAGATACTTTTTGGTTATCAATATATTCTTTTCCCTTTCAGAAAGCCTTAAGTTTGATCAGGTAAGTAGACCATGCAACCTCATATGATTGTTTTGCAGGAAAATTGTGGAAGATGTTCCACGTGGTGTGCATATCAATTTCTTGAAAGCCGAAAGAAGCTTGCACCGTTGGGCACTCGAAGACATTCGGAGAATTCATGCTGCAGAGGAACTGGCTGTTGAAGAGGGAGGTGGGGTTGAAATGCACGTTCTTGAGGATGCCGGTCATTGGGTATGGTTTTTTTCTTTTTACCTATCTTTTCCGCACTCATTTTCTGCACTCATTTTCTGTAAAATTATGATATAACAAAGAGTAATACTATATGGTGTTTTATGTATTAACAGGTGCATGCTGATAACCCAGATGGTCTCTTTCGGATCTTGTCATCCTCTTTCAAAGGGATTAGAACTTGA ATGCCGATAGTTGCGACATTTGCGGCTACATTTTCCGGATCCCTTCTTGATTTGGCTGACAAAGGCTCTGCGGTTCGATTCCATCGCTGTGTCAGTTGGCCTGCTAATCCTGCCAGTTTCAACTGCCATTTCCAGAATGGCATGCACTTGCCCCGATTTGCTCATGGTCGTTCAAGCATTGCAGTTAAACATTCATCTATCCGTGCTGCATTGTTGGATGAGACAGTTTCACATCAAAATCTCGGAAAAATGGCTTCTGAAATATTGGCTTTTGATCTTGTTCAAGGAGCACTCGTAAAGTGGAGTAATGTAATGGATCGATCACCCGATCCACCAACAGCAGTCTTTCTGCATGGAATTCTAGGCAGCAGAAAGAACTGGGGAACCTTTGCTAGAAGATTGGCAAAAGAATTTCCAGCATGGCAGTTTCTTTTGGTCGATTTGCGATGTCATGGCGATTCAACCTTAACTACGAAGATGAGCCCTCATACTGTTTCTGCTACTGCTCTTGATGTATTGAAGCTGGTTCGACAGTTGAAAATAACACCTCGAGTTCTAGTTGGGCACAGCTTTGGAGGAAAAGTTGTCTTGAGTATGGTAGAACAGGCTGCTAAACCTCTTGCCCGGCCAGTGAGAGTTTGGGTTCTGGATGCCACTCCTGGAATAGTTCGACCTGGTGGAGATGGAGAGGACCATCCTGAACAATTAATATCTTTCCTAAGTACGCTGGGAAATGAGGTATCCTCAAAGCAGGATGTCGTGAATGCTCTAGTTCAACATGGATTTTCTAAGGATGTAGCACAGTGGGTCGTTACAAACCTCCGACCTATTGGGCCTCATAGTTCATCATCGTCTGGCTTCTCATGGGCGTTTGATCTCAAGGGCATCGCTGAAATGTATCAGTCCTATGAAGAGACAAATTTATGGAAAATTGTGGAAGATGTTCCACGTGGTGTGCATATCAATTTCTTGAAAGCCGAAAGAAGCTTGCACCGTTGGGCACTCGAAGACATTCGGAGAATTCATGCTGCAGAGGAACTGGCTGTTGAAGAGGGAGGTGGGGTTGAAATGCACGTTCTTGAGGATGCCGGTCATTGGGTGCATGCTGATAACCCAGATGGTCTCTTTCGGATCTTGTCATCCTCTTTCAAAGGGATTAGAACTTGA ATGCCGATAGTTGCGACATTTGCGGCTACATTTTCCGGATCCCTTCTTGATTTGGCTGACAAAGGCTCTGCGGTTCGATTCCATCGCTGTGTCAGTTGGCCTGCTAATCCTGCCAGTTTCAACTGCCATTTCCAGAATGGCATGCACTTGCCCCGATTTGCTCATGGTCGTTCAAGCATTGCAGTTAAACATTCATCTATCCGTGCTGCATTGTTGGATGAGACAGTTTCACATCAAAATCTCGGAAAAATGGCTTCTGAAATATTGGCTTTTGATCTTGTTCAAGGAGCACTCGTAAAGTGGAGTAATGTAATGGATCGATCACCCGATCCACCAACAGCAGTCTTTCTGCATGGAATTCTAGGCAGCAGAAAGAACTGGGGAACCTTTGCTAGAAGATTGGCAAAAGAATTTCCAGCATGGCAGTTTCTTTTGGTCGATTTGCGATGTCATGGCGATTCAACCTTAACTACGAAGATGAGCCCTCATACTGTTTCTGCTACTGCTCTTGATGTATTGAAGCTGGTTCGACAGTTGAAAATAACACCTCGAGTTCTAGTTGGGCACAGCTTTGGAGGAAAAGTTGTCTTGAGTATGGTAGAACAGGCTGCTAAACCTCTTGCCCGGCCAGTGAGAGTTTGGGTTCTGGATGCCACTCCTGGAATAGTTCGACCTGGTGGAGATGGAGAGGACCATCCTGAACAATTAATATCTTTCCTAAGTACGCTGGGAAATGAGGTATCCTCAAAGCAGGATGTCGTGAATGCTCTAGTTCAACATGGATTTTCTAAGGATGTAGCACAGTGGGTCGTTACAAACCTCCGACCTATTGGGCCTCATAGTTCATCATCGTCTGGCTTCTCATGGGCGTTTGATCTCAAGGGCATCGCTGAAATGTATCAGTCCTATGAAGAGACAAATTTATGGAAAATTGTGGAAGATGTTCCACGTGGTGTGCATATCAATTTCTTGAAAGCCGAAAGAAGCTTGCACCGTTGGGCACTCGAAGACATTCGGAGAATTCATGCTGCAGAGGAACTGGCTGTTGAAGAGGGAGGTGGGGTTGAAATGCACGTTCTTGAGGATGCCGGTCATTGGGTGCATGCTGATAACCCAGATGGTCTCTTTCGGATCTTGTCATCCTCTTTCAAAGGGATTAGAACTTGA MPIVATFAATFSGSLLDLADKGSAVRFHRCVSWPANPASFNCHFQNGMHLPRFAHGRSSIAVKHSSIRAALLDETVSHQNLGKMASEILAFDLVQGALVKWSNVMDRSPDPPTAVFLHGILGSRKNWGTFARRLAKEFPAWQFLLVDLRCHGDSTLTTKMSPHTVSATALDVLKLVRQLKITPRVLVGHSFGGKVVLSMVEQAAKPLARPVRVWVLDATPGIVRPGGDGEDHPEQLISFLSTLGNEVSSKQDVVNALVQHGFSKDVAQWVVTNLRPIGPHSSSSSGFSWAFDLKGIAEMYQSYEETNLWKIVEDVPRGVHINFLKAERSLHRWALEDIRRIHAAEELAVEEGGGVEMHVLEDAGHWVHADNPDGLFRILSSSFKGIRT Homology
BLAST of PI0017150 vs. ExPASy Swiss-Prot
Match: Q8K4F5 (Protein ABHD11 OS=Mus musculus OX=10090 GN=Abhd11 PE=1 SV=1) HSP 1 Score: 81.6 bits (200), Expect = 2.1e-14 Identity = 77/290 (26.55%), Postives = 121/290 (41.72%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy Swiss-Prot
Match: Q57427 (Putative esterase/lipase HI_0193 OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=HI_0193 PE=3 SV=1) HSP 1 Score: 79.0 bits (193), Expect = 1.4e-13 Identity = 62/273 (22.71%), Postives = 116/273 (42.49%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy Swiss-Prot
Match: Q3SZ73 (Protein ABHD11 OS=Bos taurus OX=9913 GN=ABHD11 PE=2 SV=1) HSP 1 Score: 76.3 bits (186), Expect = 8.8e-13 Identity = 69/289 (23.88%), Postives = 120/289 (41.52%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy Swiss-Prot
Match: Q2TAP9 (Protein ABHD11 OS=Xenopus laevis OX=8355 GN=abhd11 PE=2 SV=1) HSP 1 Score: 75.1 bits (183), Expect = 2.0e-12 Identity = 88/338 (26.04%), Postives = 145/338 (42.90%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy Swiss-Prot
Match: Q0V9K2 (Protein ABHD11 OS=Xenopus tropicalis OX=8364 GN=abhd11 PE=2 SV=2) HSP 1 Score: 73.2 bits (178), Expect = 7.4e-12 Identity = 76/295 (25.76%), Postives = 125/295 (42.37%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy TrEMBL
Match: A0A1S3B3J2 (abhydrolase domain-containing protein C22H12.03 OS=Cucumis melo OX=3656 GN=LOC103485384 PE=4 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 3.6e-219 Identity = 376/388 (96.91%), Postives = 380/388 (97.94%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy TrEMBL
Match: A0A0A0LST2 (AB hydrolase-1 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G401260 PE=4 SV=1) HSP 1 Score: 770.0 bits (1987), Expect = 4.7e-219 Identity = 378/388 (97.42%), Postives = 380/388 (97.94%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy TrEMBL
Match: A0A6J1FIG1 (uncharacterized protein LOC111445615 OS=Cucurbita moschata OX=3662 GN=LOC111445615 PE=4 SV=1) HSP 1 Score: 710.7 bits (1833), Expect = 3.4e-201 Identity = 350/388 (90.21%), Postives = 366/388 (94.33%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy TrEMBL
Match: A0A6J1JSZ5 (uncharacterized protein LOC111489487 OS=Cucurbita maxima OX=3661 GN=LOC111489487 PE=4 SV=1) HSP 1 Score: 706.1 bits (1821), Expect = 8.3e-200 Identity = 348/388 (89.69%), Postives = 363/388 (93.56%), Query Frame = 0
BLAST of PI0017150 vs. ExPASy TrEMBL
Match: A0A6J1DG19 (protein ABHD11 OS=Momordica charantia OX=3673 GN=LOC111020178 PE=4 SV=1) HSP 1 Score: 696.0 bits (1795), Expect = 8.6e-197 Identity = 345/389 (88.69%), Postives = 358/389 (92.03%), Query Frame = 0
BLAST of PI0017150 vs. NCBI nr
Match: XP_031737177.1 (uncharacterized protein LOC101222550 isoform X2 [Cucumis sativus]) HSP 1 Score: 778.5 bits (2009), Expect = 2.7e-221 Identity = 380/388 (97.94%), Postives = 382/388 (98.45%), Query Frame = 0
BLAST of PI0017150 vs. NCBI nr
Match: XP_031737176.1 (uncharacterized protein LOC101222550 isoform X1 [Cucumis sativus] >KAE8652237.1 hypothetical protein Csa_022478 [Cucumis sativus]) HSP 1 Score: 773.9 bits (1997), Expect = 6.7e-220 Identity = 380/389 (97.69%), Postives = 382/389 (98.20%), Query Frame = 0
BLAST of PI0017150 vs. NCBI nr
Match: XP_008441164.1 (PREDICTED: abhydrolase domain-containing protein C22H12.03 [Cucumis melo]) HSP 1 Score: 770.4 bits (1988), Expect = 7.4e-219 Identity = 376/388 (96.91%), Postives = 380/388 (97.94%), Query Frame = 0
BLAST of PI0017150 vs. NCBI nr
Match: XP_038886786.1 (protein ABHD11 [Benincasa hispida]) HSP 1 Score: 747.3 bits (1928), Expect = 6.7e-212 Identity = 363/388 (93.56%), Postives = 373/388 (96.13%), Query Frame = 0
BLAST of PI0017150 vs. NCBI nr
Match: XP_023551617.1 (uncharacterized protein LOC111809397 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 712.2 bits (1837), Expect = 2.4e-201 Identity = 351/388 (90.46%), Postives = 366/388 (94.33%), Query Frame = 0
BLAST of PI0017150 vs. TAIR 10
Match: AT4G10030.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 491.5 bits (1264), Expect = 6.2e-139 Identity = 245/340 (72.06%), Postives = 271/340 (79.71%), Query Frame = 0
BLAST of PI0017150 vs. TAIR 10
Match: AT3G52570.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 184.5 bits (467), Expect = 1.6e-46 Identity = 104/285 (36.49%), Postives = 165/285 (57.89%), 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.
|