![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
HG10001525 (gene) Bottle gourd (Hangzhou Gourd) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGCCAACCATTACTCGAGCAAATCACTGTAAGATCGAGAGTGGAGCGAATTTGAACGATGTTATGGTTGCGAGAGTGACTGATGGAGGTTCTGTAATGGAAACCACTCCTCCGAAGCGGAAACTGAGATCCAGTGATGCACAGAGGCAACAAAGCCCTGTCTCTGCGCCGGTGAATTGGAAATCGCCTCGTCGGCGCCTTAATTCGAGTCCAAAAAGCCCTCCACAGGTAAGTTTGATACGATCGTTTCAGAACAGTATGCATTTTCTCATTGTCTTTAGGTTACTGCCATTCTTTGAGTGGATATGATGATGAGTAAGATTAATTGGAAGAATTTGAAGTTTCTTAGTCTAGTTAGATATACAAATTAATTGAAGATCTTCTGGAAATGAATGCATCATTTCATAGCCTCGTATGTGATCAAATGATGCGCGCGTTTGAGGTATCTTGGAAGTACAATAATACAGTTTTTTTTCTAACCACATGCAGAGCGATGGGAAAACGTTTAATGGTGGCTTGTCCAACTTACATAGTTCACCGATAAGATGCTTGTTGAAGGACCTTATTGTCAAACCAGATTGGAATCCTAAAGGTGAGAATTAGTCTGTAGTTGTAGCATCAAGTTGCAGTACACAATTGTTTTTCTCCTGCACTTCAAACAGGCTTTCATTTACTGGTTTTCAATTTGTTAGATACTGAACATATAAAAACAGCAAAAGAAGCATTGCACGTATCGACAGCACCAACTACAATCATGTGCCGTGAAGACGAACAAAGTAAAATCTTCAATTTCTGCAAGGCTTGTGTGGAGCAAGAAAAAGCTGGTAGTCTGTATGTTTGCGGGTGTCCAGGAACTGGCAAATCTTTGTCCATGGAAAAAGTGAAAGAGCAGTTGGCCGCTTGGGTGAAAGAGGTAGGCTCTCTTACCTGTTAAGTAAAGCCGTATTCATGAGATATACTGTTCAAGTCTAAGCTAAAAGGTTTGCTTGTTGAAGATTCAATTCATCACACATTCTTCATGCTACCAGTCAGGTCTTCAGCTTCCAGATATTTTGTCCATAAACTGCACTTCGTTAGCTAATACATCCGATATTTTCATTAAGGTATGAATGTAAAAACTTAAAATATTTCAGCCTTTAGTGTTTCATACGCTTATCTACTAATTTTTTTTTTTTTGGTAGATGATGGGTGAAGCCCAACCACAAAAGAAAAGGAATGGCTCTTTAACACCCTTGCAACATCTTCAACGCCTGTACTCCCAAAAGGCAGAGTCATCTTGCATGAAGATGATGTAAAAACTTACTTACTGCAATTTGAATTTATTATCATCATTTATTAACACCACTTTTCTTAAATCAGGTTGATAATAGCTGATGAATTGGATTATTTAATTACCAAGGATAAAGCAGTGCTACATGATCTGTTCATGCTCACAACTTTCCCATTTTCAAGATGTATTTTGATAGGTATGCCACGGCTATACTCAGGATCTCTCATTGTTATTTCATGAATTGTAAATTTAAAAAAATTGGTTGATCTTCAACGTATTTTGTAGGAATTGCAAATGCTATTGACTTAGCAGATCGCTTTCTTCCAAGACTTCAGGCATTGAATTGTGAGTTACAAGTAGGCGTACAGTTTTGCTTATGGTCCTACTAAATTGATCCATATATAACAAAGGTATAGTAGTTAATTGGATTTCACATGATACTATTACTAATTGTCGCTTTTGCCAATTGCATCTTCCTAGGCAAACCTCAGGTCGTAACTTATAGGGCATATTCCAAGGAACAGATCCTCAAGATTCTTCAACAAAGGTTAATTGTAAGTTCTATCTCCTTATTTTAGTACTCCAGAATTTGACGATCGTTTTTAAAAGTTCAATCAACATTTCTTTACATTTTTTTAACATATGCTAAATAATATTCTGTGCAGGTGCTTCCTTTCATTGTCTTTCAGTCGCCAGCACTGGAGCTTTGTGCTAGAGTACGTTTGATAATATTTCTGCGATTGACTCTTCTTTTCTAAATCAGCTCCTCAGGACACAGAATGTTTATTTTATTTATTTATTATTATTGTTTTGCGTATTTCACCTCTAATTTGTATATTTTTTAAAGCTCACATCTAGAAACATTATAATTATTTCAATTTTTTGTTCTTAAGAATGATGCTTAGGTTTTTATGAATCTATCTTGCATAGAAAAGTGCTCGCCTGATAATGACGTTGTTTCTAAATGATCATGCTTGTCTACTAATAATATTTTTTGATTTGCAGTTAACGTTTAAAATACTAACTAAATTTTAAAAACAAAATTGTTAAATGAGCCTGAATGTTAGATTTCATTTATCATTGATCGATGGCCCATCTTTTGAAAATTAACTGTCTATTATGTGACTAATTCAATTATTAGTTTGTTGCTTATTGATCTATATGGAATCTGGATACAAGTTTTATCCTTCAACTGATGGAAAATACATTGCAGAAAGTTGCAGCTGTATCTGGAGATATGAGAAAAGCTCTCTGTATTTGCAGGTTAGTGTGTTTACGTTTACTACCTTAACTTTGTGATATCACAGCCTACGAACTTTAAGATTATAATTTTCAGTGTTCGCATCATAGGTGATGTAATATCATTGTGCATGGGAGTATTTACTTTTTTCAAACCATTTTTTTAGTTAAACAATTGTAGGGGTGGAGGTCAAACCATATTCTCAAATTATTTTCTTTTAGGACATTTTTTGCTATTGTATTCCCAGATGTTTGAGCTTGCATTTTAACAAATCTTGTCTAGCACCAATATGTAATTAAAATCTTCTTTGAACAGGAATGCAATTGAATTATTGGAGGTGGAACTCAAAGCATCCTCTAAGGAGCTGAACCATAATGACGCATGTGATGCTTCAGCACCACCTGAGCTTGTCAAAAGACAAGAGTCTCAAATTGTAAGTGCTCGGCATTGCCACAATAAATCTTCCATGTCTCATTTGTCCATTCAAAAATTCCATATTTTTTAAACTCTTGAAAGTTTTTTCTTACAAAAGAAAAGGTGGTAGTATAACGTTTGAAGAACTTACTTTTATATAGACTGATCTAATTGAAATGGAGTGATTCTGTTCTCAATATATATATATTTTTCATTTGTTCTCATCGTACATATAAAAATTGATAAACTAAATACTTCTCCCAAATGTTCTACAACTCTTTATTAATGATAATTCTCTTTTAAGTTTTATCCTTTTCCCTTCTTACCGAAAAAGCTTTACCCTTTTCCCCATTGCTCCTGTGCACTTCATGTATCTACTTTTATTATTATGTCTTGGGGTTTGAATTGTAGTAACCGGTTGTATTATAGGTAAGGTTGGACCATATGGCTATTGCCTTATCCAAGACTTTTAAATCACCAGCAGTGGAAACCATACAATCTCTTCCTCAGCATCAACAGGTATAATCCAGAATCTCTAAACAAACAATTGGCCAAGTAATAATATATTAAAAATTTGTAGATTTATCATTTGTTTTTTTTCCTTTTATAGGAAAGTTATGATTGCAATGGCTGTTATTTATGAAAATAACCTAGAAGACACATGTGACTTTACAAACGATACAATAGAGGTGTCACCTAAAATGATTTATCTGGTTCTGATATTAACTAATTGACTTTTGGAATTAGACTACATGTTTTCTATCATAATCGATTAGCAAACATTAGGTGAAACGTATAAGTGAAAGCCTCTTCAACTCAATTTATGGCTTATACTTCGTCGATACATGTGATTGTTTCAATGTTCAATAAATATTTTTCTTTTAGACTTATAAATATTGTATCCAGATCATTTTATGCTCTCTTGTGAAACTTGTTCGTGGAGGAAAGAAGGATACAACTATAGGAGAGGTGGGTTCTCTCAATTTTTCTTGAGATAACATTTTTTAATGACAAATAACAATTATTGAACATTTTTTGTTACTGTTATTTAATGTAGCTAAATAAATCATACATAGAGATATGTAAATCAACACTAATCCCACCAGTGGGGAGCTTGGAACTTTCAAATATGTTCACAGTGCTAAACGACCAGGTCTACCGACTATCATTGAATTTTTGACATTCTTATCTTTGATCAATTCAATTCAATTCTTCAAACCTTTTGACATTGAACTTTGCAGGGGCTTCTCAAACTTGGACAATCTCGAGATGATAAAATGAGACGGGTGTTGTTGAAAGTTGATGAAGCTGATGTCATGTTCGCATTACAGGTAAATGCTAGACACATCTATTTTTCTCAACCTGATGCTCTATGTTAAGTTGTTAAGAGAGACACTTCTCTAATTGAATCAGGGAATACGCTTCTTTCGAAATTGCCTACAATAAATTTGCCGTTCTCCAGGACATCGAGTATAGATTGGTGTGGTGAACACCTTACTTTCTGGCTTTTTCCCACCACTCAAAGGTAAACCGAACAATATATATATATATAATTATAATTATTAGAGAAAATTACCTTTTTTAGTATTGAGTTTTGAAGAATATGTATATTTGGTATCTATTTCTAAATGTAGCTTTTTAGTCTTTAAGTATTTAAGAATATGTGCATTTGATCTTAAATTTTTATAATGTACCTTTTTAGTCTGTCAGTTTTCAAAGTAAGTTTAAAAAGTCTTTGAATTTTTTTTTTTTTAATTTTGTAAAATTATTATATGATATTTAAAATTAGAAAAAAAATTTTAAACAATTTTAGAGAGAAGAGATAATTTTTAAAAACTATTTTTCTAATTTAAAATGACATAATTATTTGGAATAATAATAAAAAATTGTTTTAGGGATCTTTTAAATCCATTTTTAAAAATTCGGCAACTAAAAAGGTACAATTTGAAAATCTAGCGACCAAATGCACATATTCTTAAAAATTTAGGGACTAAAAAGGTACGTTTTGAAAATTTAGAGGCCAAAAATAGGGGTCTTTTAAAAAATAGAAAAAAACCAAAACTAATTACACATATGAAAAAAACAGTGGGAAATAGAAAAGAATGGGCTGAGCTTTTTACTATATGTGTAATTAGTTTTGTTTTTTTCTATACACAACAATTTCTCCCAAAAATACATATTTTTTACAACTGGAGGACTAAATAGGTAATTTTTCCTAATTATTATTATAAAAATTCCTTCACGTGAAAAGGGGTAGTCATTAACCTACGCTACTCTGCTGATTAGTCAAAAAGGGGCTTAAATTTAAAAGTATTTCATATGGAAGCTTATTATTATTATTATTTTATAAAGCCTCATCTTAGAATATTTCCAAAATATATTTTATTTTATGTCTATCTATCACCACATTTTCTTTTGTTTTAAAAATGAAAAGCAACCCACACATTTTTGTGAGATTTTAATTTCTCTCAATTTCACAATTTTATTCATTTATTTTTTTAAAAAAAGCATTTCAAATTTAACATTTTTATCGAGGATTTTGTTTGCTTACATTTAATTAAATAATATCCATTACAAAATACACGGTTTATTTTAAAATAAATTTGTTGAATTTGACTTGTCATTTAAAATATTGAAACATAAAATTATTATTTAATTATTGAATATCAAAAGTTTTGCAATTTTTCCATTTCCTATATCCTACTGTTATAGCATGGGTGAGTGCTTTTCTCATCCTTAACATCTTGAGGGTTCTCATTGTTTTATTTTTATAGCCATTTTTCACTTTGTGAAAATGATACCCCTCAATCTCTCTTATATATGAATTGGTTATCCATTTTAGGGTTGCCATCAACCAATCCTCCTATTTTCATTTTTTATTTTTTTTCATCTTTCTAAAATTTACACACGTATATGAAACTCGATCATAACATCAAAATCATTTATAAATATATTTCTGGACTCATTCTCATATTTTCGTCTCTATTGGTTTCATCTTTTTTTTTTTCTTTTTAATGAAATTGCTTGTGTATATTGATTTATTTTTCAGACAGGTAGAAAGACACACCCCATAATAATTTATTACTTTTCCAGCCACAATGACAAGAAGTCTTCAACTAGAACTCATACGAAATGCTCCATTATAGCAAATGTTGTATTGTAATGAATGAGGAAGTTTTGATTGAATATATATATATATATATATTTTCATGTTTATGGCTTTTATTAAGTTTATTTTTTTACGAAAAGCTTGAATTTAATTTTTTAACTTCTTTTTAATAAACAATAGAATTCAAAAGTTTTGGAACTTTAAAACCATTTAACATTTGTAAGATTTTAAATAAAACATTTAAAACTTTATGTAAAACTAAATTGAGGAAAAAAATAGGCACTACAACAATACAAATATTGAAAAAAATATAATATAATAATAAAAAATATATAAAATAACTTAAAATGAGAAACTCTCCAAATTTCTCCACTATTATTTTCAAAGTTTTTGGATTTCTCACCAATATGTGTATTTTTACACAAACCACTAATGACCACTATTTATAGAAATTTTGGTAAGAAGGATGTGGCACACTTGGACACTAAGCCTTGGTAGTTATATAACACATGGAGAGCACATGAGATAGTGGGAGTGTGACACTTGTCTTTGGACACTAAGCATGGGTATCTACATTACACATATATTATGATATTTATAATAAAGTTGTAGATTAATGTCACATATTGACCTAACACAATGTTCTAGCATTTATTAAGTGTCTAAGCATATATGAATTGTATAATTATGTCGTGTGCAATTAGATATCATTCAATCTTGTAAAGTGCTTTGATCCATAAACATCAATAAAAGAAAATTAAACACATTATTTAAAGAGAAATTGTAAATGCACTTATTAGTTATTTTCTACTTAGAGATGTTCATTTTCTCTACGGAAGTGGGTCTCTATGCTGAACGGGACGGGATTCTCCATTTAGGTGAGAAATGGGAGAGGAAAAAGTTCCTATGAGATAGATAGGGACGGGGACGGAGAACCGTCTTTATTTATTTATTATAATAATAATTTTATGTTATGTTATTATTATTATTATTATATAAATATTTATATCTAAATTTCAAGTTTTATTGTTTAATGATTAAGATATTGAATATATTTGAATTCAACCTTTAAATTTAGATTATATTTATGAATAATTTGATTGGTAGTTATTTTTTTCTACTCGAAAATTTGAGTCATTTCTCTCTAAATTCAAATTGTTCATGTGGAACTAATCATATTAAAAAATTTAGTGAGAAATTAAACTATTTAATTAAAATTCGTCCTTAATAGCGATTTTGACTTAATCATTTTTTTATAAAATAAAAAAAAATCAAACAAGAAAAAAAATTTCGCGGAGAATCAGATCCCTGCAAATTCTTAATGGGAAATATTGTGGGTATGGGGAATGAATTAATGGAGAGCGGGGATGGGGACATGGAAGCCATCTCCGACCCCACCTCACCCCATGGATATCCCTATTTTTACCTATGTTTTTATAATTTTATTTTATATTAATATCGTTATTAGTTGTATATTATAAGTTGTTTGTGCATAGTTATACCTTTTTTATATATATATATATAGTTTTGATTATATTTTTTATCTTATCAATCTAATAGGATATTTTTCATCCCAAACAAAGAAAGAATTGATACTCTTTTTACTTTGTTTACTTTTTTTTATGAGACTTTTAAATAGCATATATTATATAAACTAAAGCTAGTTTTTGAGATACTCGTGTATAATCTTTTATTGTAATTATTATTATTATTACTAATCTACCTTTAATTTTACATTTTAAGAATTATTCTAATTTTAACAGAATATATATTATTATTAGAAAAATTATTATAAACATACAAAATATCAAACTATTTACAAATATAAAAAAATTTAACTGTGTTTTAGAAATCACCATTATTATTATTAAAAATTAAATTTTAGTTAAAAAATTTATTAAAACATGTGCAGAAAATCTTGTGTAAAATTTTGAATAAAATGTTGGAAACGAAAGTGTCATTGTGTATAAAATTCTGAAGAAGAGGTTGGAAACAAAAACTCCATTTTGCGTATTGTATTAAATTTCTGTTGATATTTAGGATGGGAGATCAAACTTCCAATCTATAAAGTCAATTACGATTGAGCTAAGTATTGACATATATTTTAGATTTATAGTCTCAACATCGTGAATCGATACTTTTATTATATTGTAAAAGAATTTATAAAATATAAAAGATAAGTAATAAGATGATGTATAATATAAATATAATATAGAGAAATTTTCACAGATAGAAAAATGTCAAACTATTTACAAAAAAAAGTAAAAAAAAACCATCAATAAACATTGATGACTTCTATCGTTTCTATCACTGATACACCCTAATAAACTTCTATCAACTTATATCACAACCATCTACAAATTTTGCTATTTTGTGTAAATAGTTATTTTTATTTTTTTTATTTTTAAAATTTTCTTACAATATATTATAAATAATTAAGATGCTAACTTGTTAAAAGAAGATATTTTCATCGACTTTTAACATTTTAAAGCTTGATGGTAGGTTGGAATGAATTTGTACTTGCTTATTCTCACTCATCCATTATCGGTTCGATGAAGCTTCTCTGCCTTTCAATTCAATCGCCATTACAGTAAAGGTCAGTCTCCTCAGAATGGCTAAGCAATTGGCGTTGTGTGTATTTGCATTTTGATTCTTCTTTTGTAGGTTTTATTTGATAAACTCCATGAATGAATTGGTTCATCTTCATCATTATGCAATTCCACTGTTCTCTGATTCTTCCCAAACTCAGGTTTCTTTCATTTTAGTTGAACCGAGTAAAAAGATGAAGAGAGAGTGAGGCCATTGTCAAATTCCATATCGATCTTCAAATGAACTAGAAAATTCTCTCTCTAAAACCTTTTCTCTCACTCGAATTCGTTCTGTGTATTCAATGAACTAGAAATTTCGATATTGAAAGTAACTTTATTTTTTTATTATTATTGTTATTATTATTTTATTATTATTATAATATTATCTATTAATCAGGAAGCTGATTTGATTTCAAGGCATAAGTTATGTCGACCACGAAGATATACATAGTGTAAGTTTCTTCCTTACCTTTTCCATTTCTTACTCTTTCGCTTGAATTTTCTGAATCCTCAAAATCAACCCTAAAGTTTAAGATGATTTGTTATGATAAATTTTAATTATGTCAACACTTCTCTTACTTGTAGGCTTGAAAATTTGTAAGACCTAACAAATGTAAATCAATATTGATTGAGGAGGAAATGATATTACAAGAGTTTGAACAGATGGCTTACTGCTCTAATGTTAAGTCACCTCATAAGCTTAAGTTGATGGGTTATAGTGAATTTTTAATTATATTCAACACTTCAGCAGTTTGGATTCCTGCTTTTGTTTCCATGGAATCCCCTACTCTATGATTCAAACTTCACTTTGATTTACTGCTGACATATCAAAGGGTTACAGGTACTATTCTTTACATGGCCATGTTGGGACCATGGCAAGGAGAATTCAACAGGGAGCTAATTCAGTTCAAGGGGTTGAAGCCTCTCTGTGGCAGGTACTATGGCTCTTAATGAAATAAGAAAAGGCAGCACTGTTTTATGTCACAAGTGATACTGAATTTGGGATGAATTTTGAATGTAGTGTTCTTAAGTGAAACCAAATGCTTCTTCCATAGATTTTCCAATATCACTTTTGAATATATAACCAAATGTTGACAATTAAGACTGCAATTTGTTTTCCCCAAATCTTTGGTTAGTTATAAGCTTTGCCTGACTTGAGACTGACTGGTTTGGAGAAGGTGCCTGAGACATTGTCTGATGTGATAATGAAAAAGATCAAAGCTCCTCCAAAAGCAGATGATGTGCAAGAGATCAGGCCAGAACAACTGCTGGAAGCAGATGGTTTTCTCTTTGGGTTTCCATCGCGATTTGGGGTTATGGCTGCTCAATTCAAGGCATTCTTTGATGCAACAAGCGAGATATGGCAGTCTCAAGCACTTGCTGGTAAACCTGCAGGAATTTTCTGGAGTACTGGTTTTCATGGTGGAGGTCAGGAGCTTACTGCGTAAGATCTCGTTCTCGTTAGCTTTCGGCATTTTTCTTTCATCAACCTGTGTTTTTGAACGAAGAACAACTCTAATTGTTAAGACAAGTTTGAATCATAGTTTTACATAAGGACCTCCTACAGATCTTATTTTGCTAAATCAAGTTTTGGCTAGTTTTTAGTTCCTTTTCCTATTAGCTTTTGATTTACCTATATAGGAAACCTTGTTTAGAACAGTTAGTTACAGAAATCAAATTGCACTTAAAGATTGGGATAAACTTCTTCTTCTTCTTGGAAGGATAAACTTCATTTCATATCTTTCATTGATTGTCTTTTTGCCCATATCTGATTGGACTGACTTATCCACTTCATATACCTTCACATGAAAGTTGTTTTTTCTGAGTGTTGTCTCTATTCTATTGATAACCAATGACACAAACCAAGAGACAATTGCCCTTTGGTTCTGTTTTACATTTTAAATAATTAAAACTTCTCTTCTAAGTTGTTCTTTGTTAGCTTGGTATGTTGTTATCTATCATATTTGGCGTTGAGCATAACTTTGTATCCATGGGCTACCATTTCTTGTAAAAATTTCTGACTCTTCCCCTAATAATTGTTATGGTTATTACGCGTAGATTGACAGCAATAACGCAGCTAGCACATCATGGAATGATATTTGTACCTCTTGGTTACACATTTGGAAGTAAGATGATGGAGATGAATGAGGTGAAAGGTGGCTCTCCTTATGGCGCTGGAACTTTTGCAGCCGATGGAACTCGACACCCGACAGAGCTGGAGCTTGAACAGGCCTTTTACCAAGGTAAGTATGTTGCTGAATTAACCAAGAAACTCAAAAACTAA ATGCCAACCATTACTCGAGCAAATCACTGTAAGATCGAGAGTGGAGCGAATTTGAACGATGTTATGGTTGCGAGAGTGACTGATGGAGGTTCTGTAATGGAAACCACTCCTCCGAAGCGGAAACTGAGATCCAGTGATGCACAGAGGCAACAAAGCCCTGTCTCTGCGCCGGTGAATTGGAAATCGCCTCGTCGGCGCCTTAATTCGAGTCCAAAAAGCCCTCCACAGAGCGATGGGAAAACGTTTAATGGTGGCTTGTCCAACTTACATAGTTCACCGATAAGATGCTTGTTGAAGGACCTTATTGTCAAACCAGATTGGAATCCTAAAGATACTGAACATATAAAAACAGCAAAAGAAGCATTGCACGTATCGACAGCACCAACTACAATCATGTGCCGTGAAGACGAACAAAGTAAAATCTTCAATTTCTGCAAGGCTTGTGTGGAGCAAGAAAAAGCTGGTAGTCTGTATGTTTGCGGGTGTCCAGGAACTGGCAAATCTTTGTCCATGGAAAAAGTGAAAGAGCAGTTGGCCGCTTGGGTGAAAGAGTCAGGTCTTCAGCTTCCAGATATTTTGTCCATAAACTGCACTTCGTTAGCTAATACATCCGATATTTTCATTAAGATGATGGGTGAAGCCCAACCACAAAAGAAAAGGAATGGCTCTTTAACACCCTTGCAACATCTTCAACGCCTGTACTCCCAAAAGGCAGAGTCATCTTGCATGAAGATGATGTTGATAATAGCTGATGAATTGGATTATTTAATTACCAAGGATAAAGCAGTGCTACATGATCTGTTCATGCTCACAACTTTCCCATTTTCAAGATGTATTTTGATAGGAATTGCAAATGCTATTGACTTAGCAGATCGCTTTCTTCCAAGACTTCAGGCATTGAATTGCAAACCTCAGGTCGTAACTTATAGGGCATATTCCAAGGAACAGATCCTCAAGATTCTTCAACAAAGGTTAATTGTGCTTCCTTTCATTGTCTTTCAGTCGCCAGCACTGGAGCTTTGTGCTAGAAAAGTTGCAGCTGTATCTGGAGATATGAGAAAAGCTCTCTGTATTTGCAGGAATGCAATTGAATTATTGGAGGTGGAACTCAAAGCATCCTCTAAGGAGCTGAACCATAATGACGCATGTGATGCTTCAGCACCACCTGAGCTTGTCAAAAGACAAGAGTCTCAAATTGTAAGGTTGGACCATATGGCTATTGCCTTATCCAAGACTTTTAAATCACCAGCAGTGGAAACCATACAATCTCTTCCTCAGCATCAACAGATCATTTTATGCTCTCTTGTGAAACTTGTTCGTGGAGGAAAGAAGGATACAACTATAGGAGAGGGGCTTCTCAAACTTGGACAATCTCGAGATGATAAAATGAGACGGGTGTTGTTGAAAGTTGATGAAGCTGATGTCATGTTCGCATTACAGGGTTACAGGTACTATTCTTTACATGGCCATGTTGGGACCATGGCAAGGAGAATTCAACAGGGAGCTAATTCAGTTCAAGGGGTTGAAGCCTCTCTGTGGCAGGTGCCTGAGACATTGTCTGATGTGATAATGAAAAAGATCAAAGCTCCTCCAAAAGCAGATGATGTGCAAGAGATCAGGCCAGAACAACTGCTGGAAGCAGATGGTTTTCTCTTTGGGTTTCCATCGCGATTTGGGGTTATGGCTGCTCAATTCAAGGCATTCTTTGATGCAACAAGCGAGATATGGCAGTCTCAAGCACTTGCTGGTAAACCTGCAGGAATTTTCTGGAGTACTGGTTTTCATGGTGGAGGTCAGGAGCTTACTGCATTGACAGCAATAACGCAGCTAGCACATCATGGAATGATATTTGTACCTCTTGGTTACACATTTGGAAGTAAGATGATGGAGATGAATGAGGTGAAAGGTGGCTCTCCTTATGGCGCTGGAACTTTTGCAGCCGATGGAACTCGACACCCGACAGAGCTGGAGCTTGAACAGGCCTTTTACCAAGGTAAGTATGTTGCTGAATTAACCAAGAAACTCAAAAACTAA ATGCCAACCATTACTCGAGCAAATCACTGTAAGATCGAGAGTGGAGCGAATTTGAACGATGTTATGGTTGCGAGAGTGACTGATGGAGGTTCTGTAATGGAAACCACTCCTCCGAAGCGGAAACTGAGATCCAGTGATGCACAGAGGCAACAAAGCCCTGTCTCTGCGCCGGTGAATTGGAAATCGCCTCGTCGGCGCCTTAATTCGAGTCCAAAAAGCCCTCCACAGAGCGATGGGAAAACGTTTAATGGTGGCTTGTCCAACTTACATAGTTCACCGATAAGATGCTTGTTGAAGGACCTTATTGTCAAACCAGATTGGAATCCTAAAGATACTGAACATATAAAAACAGCAAAAGAAGCATTGCACGTATCGACAGCACCAACTACAATCATGTGCCGTGAAGACGAACAAAGTAAAATCTTCAATTTCTGCAAGGCTTGTGTGGAGCAAGAAAAAGCTGGTAGTCTGTATGTTTGCGGGTGTCCAGGAACTGGCAAATCTTTGTCCATGGAAAAAGTGAAAGAGCAGTTGGCCGCTTGGGTGAAAGAGTCAGGTCTTCAGCTTCCAGATATTTTGTCCATAAACTGCACTTCGTTAGCTAATACATCCGATATTTTCATTAAGATGATGGGTGAAGCCCAACCACAAAAGAAAAGGAATGGCTCTTTAACACCCTTGCAACATCTTCAACGCCTGTACTCCCAAAAGGCAGAGTCATCTTGCATGAAGATGATGTTGATAATAGCTGATGAATTGGATTATTTAATTACCAAGGATAAAGCAGTGCTACATGATCTGTTCATGCTCACAACTTTCCCATTTTCAAGATGTATTTTGATAGGAATTGCAAATGCTATTGACTTAGCAGATCGCTTTCTTCCAAGACTTCAGGCATTGAATTGCAAACCTCAGGTCGTAACTTATAGGGCATATTCCAAGGAACAGATCCTCAAGATTCTTCAACAAAGGTTAATTGTGCTTCCTTTCATTGTCTTTCAGTCGCCAGCACTGGAGCTTTGTGCTAGAAAAGTTGCAGCTGTATCTGGAGATATGAGAAAAGCTCTCTGTATTTGCAGGAATGCAATTGAATTATTGGAGGTGGAACTCAAAGCATCCTCTAAGGAGCTGAACCATAATGACGCATGTGATGCTTCAGCACCACCTGAGCTTGTCAAAAGACAAGAGTCTCAAATTGTAAGGTTGGACCATATGGCTATTGCCTTATCCAAGACTTTTAAATCACCAGCAGTGGAAACCATACAATCTCTTCCTCAGCATCAACAGATCATTTTATGCTCTCTTGTGAAACTTGTTCGTGGAGGAAAGAAGGATACAACTATAGGAGAGGGGCTTCTCAAACTTGGACAATCTCGAGATGATAAAATGAGACGGGTGTTGTTGAAAGTTGATGAAGCTGATGTCATGTTCGCATTACAGGGTTACAGGTACTATTCTTTACATGGCCATGTTGGGACCATGGCAAGGAGAATTCAACAGGGAGCTAATTCAGTTCAAGGGGTTGAAGCCTCTCTGTGGCAGGTGCCTGAGACATTGTCTGATGTGATAATGAAAAAGATCAAAGCTCCTCCAAAAGCAGATGATGTGCAAGAGATCAGGCCAGAACAACTGCTGGAAGCAGATGGTTTTCTCTTTGGGTTTCCATCGCGATTTGGGGTTATGGCTGCTCAATTCAAGGCATTCTTTGATGCAACAAGCGAGATATGGCAGTCTCAAGCACTTGCTGGTAAACCTGCAGGAATTTTCTGGAGTACTGGTTTTCATGGTGGAGGTCAGGAGCTTACTGCATTGACAGCAATAACGCAGCTAGCACATCATGGAATGATATTTGTACCTCTTGGTTACACATTTGGAAGTAAGATGATGGAGATGAATGAGGTGAAAGGTGGCTCTCCTTATGGCGCTGGAACTTTTGCAGCCGATGGAACTCGACACCCGACAGAGCTGGAGCTTGAACAGGCCTTTTACCAAGGTAAGTATGTTGCTGAATTAACCAAGAAACTCAAAAACTAA MPTITRANHCKIESGANLNDVMVARVTDGGSVMETTPPKRKLRSSDAQRQQSPVSAPVNWKSPRRRLNSSPKSPPQSDGKTFNGGLSNLHSSPIRCLLKDLIVKPDWNPKDTEHIKTAKEALHVSTAPTTIMCREDEQSKIFNFCKACVEQEKAGSLYVCGCPGTGKSLSMEKVKEQLAAWVKESGLQLPDILSINCTSLANTSDIFIKMMGEAQPQKKRNGSLTPLQHLQRLYSQKAESSCMKMMLIIADELDYLITKDKAVLHDLFMLTTFPFSRCILIGIANAIDLADRFLPRLQALNCKPQVVTYRAYSKEQILKILQQRLIVLPFIVFQSPALELCARKVAAVSGDMRKALCICRNAIELLEVELKASSKELNHNDACDASAPPELVKRQESQIVRLDHMAIALSKTFKSPAVETIQSLPQHQQIILCSLVKLVRGGKKDTTIGEGLLKLGQSRDDKMRRVLLKVDEADVMFALQGYRYYSLHGHVGTMARRIQQGANSVQGVEASLWQVPETLSDVIMKKIKAPPKADDVQEIRPEQLLEADGFLFGFPSRFGVMAAQFKAFFDATSEIWQSQALAGKPAGIFWSTGFHGGGQELTALTAITQLAHHGMIFVPLGYTFGSKMMEMNEVKGGSPYGAGTFAADGTRHPTELELEQAFYQGKYVAELTKKLKN Homology
BLAST of HG10001525 vs. NCBI nr
Match: XP_038902033.1 (cell division control protein 6 homolog B [Benincasa hispida]) HSP 1 Score: 873.6 bits (2256), Expect = 1.1e-249 Identity = 456/517 (88.20%), Postives = 467/517 (90.33%), Query Frame = 0
BLAST of HG10001525 vs. NCBI nr
Match: XP_022986848.1 (cell division control protein 6 homolog B-like [Cucurbita maxima]) HSP 1 Score: 806.2 bits (2081), Expect = 2.1e-229 Identity = 423/517 (81.82%), Postives = 445/517 (86.07%), Query Frame = 0
BLAST of HG10001525 vs. NCBI nr
Match: XP_023512124.1 (cell division control protein 6 homolog B-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 799.3 bits (2063), Expect = 2.6e-227 Identity = 421/517 (81.43%), Postives = 443/517 (85.69%), Query Frame = 0
BLAST of HG10001525 vs. NCBI nr
Match: XP_022943426.1 (cell division control protein 6 homolog B-like [Cucurbita moschata]) HSP 1 Score: 799.3 bits (2063), Expect = 2.6e-227 Identity = 422/517 (81.62%), Postives = 442/517 (85.49%), Query Frame = 0
BLAST of HG10001525 vs. NCBI nr
Match: KAG6570661.1 (Cell division control protein 6-like B, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 798.9 bits (2062), Expect = 3.4e-227 Identity = 422/517 (81.62%), Postives = 442/517 (85.49%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy Swiss-Prot
Match: Q8W032 (Cell division control protein 6 homolog B OS=Arabidopsis thaliana OX=3702 GN=CDC6B PE=2 SV=1) HSP 1 Score: 492.7 bits (1267), Expect = 6.8e-138 Identity = 261/482 (54.15%), Postives = 333/482 (69.09%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy Swiss-Prot
Match: O82387 (Cell division control protein 6 homolog OS=Arabidopsis thaliana OX=3702 GN=CDC6 PE=2 SV=2) HSP 1 Score: 481.1 bits (1237), Expect = 2.1e-134 Identity = 268/520 (51.54%), Postives = 336/520 (64.62%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy Swiss-Prot
Match: Q5N897 (Cell division control protein 6 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=CDC6 PE=2 SV=1) HSP 1 Score: 410.2 bits (1053), Expect = 4.5e-113 Identity = 238/503 (47.32%), Postives = 310/503 (61.63%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy Swiss-Prot
Match: Q9LUX9 (Probable NAD(P)H dehydrogenase (quinone) FQR1-like 3 OS=Arabidopsis thaliana OX=3702 GN=At5g58800 PE=1 SV=1) HSP 1 Score: 304.7 bits (779), Expect = 2.6e-81 Identity = 142/193 (73.58%), Postives = 166/193 (86.01%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy Swiss-Prot
Match: Q9LSQ5 (NAD(P)H dehydrogenase (quinone) FQR1 OS=Arabidopsis thaliana OX=3702 GN=FQR1 PE=1 SV=1) HSP 1 Score: 280.8 bits (717), Expect = 4.1e-74 Identity = 133/193 (68.91%), Postives = 161/193 (83.42%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy TrEMBL
Match: A0A6J1JHQ9 (Cell division control protein OS=Cucurbita maxima OX=3661 GN=LOC111484463 PE=3 SV=1) HSP 1 Score: 806.2 bits (2081), Expect = 1.0e-229 Identity = 423/517 (81.82%), Postives = 445/517 (86.07%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy TrEMBL
Match: A0A6J1FRP0 (Cell division control protein OS=Cucurbita moschata OX=3662 GN=LOC111448195 PE=3 SV=1) HSP 1 Score: 799.3 bits (2063), Expect = 1.3e-227 Identity = 422/517 (81.62%), Postives = 442/517 (85.49%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy TrEMBL
Match: A0A5D3CU49 (Cell division control protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold571G00570 PE=3 SV=1) HSP 1 Score: 781.6 bits (2017), Expect = 2.7e-222 Identity = 404/480 (84.17%), Postives = 421/480 (87.71%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy TrEMBL
Match: A0A0A0KFB2 (Cell division control protein OS=Cucumis sativus OX=3659 GN=Csa_6G186380 PE=3 SV=1) HSP 1 Score: 775.8 bits (2002), Expect = 1.5e-220 Identity = 407/517 (78.72%), Postives = 433/517 (83.75%), Query Frame = 0
BLAST of HG10001525 vs. ExPASy TrEMBL
Match: A0A6J1CUK0 (Cell division control protein OS=Momordica charantia OX=3673 GN=LOC111014417 PE=3 SV=1) HSP 1 Score: 722.6 bits (1864), Expect = 1.5e-204 Identity = 381/495 (76.97%), Postives = 413/495 (83.43%), Query Frame = 0
BLAST of HG10001525 vs. TAIR 10
Match: AT2G29680.2 (cell division control 6 ) HSP 1 Score: 497.3 bits (1279), Expect = 2.0e-140 Identity = 268/489 (54.81%), Postives = 336/489 (68.71%), Query Frame = 0
BLAST of HG10001525 vs. TAIR 10
Match: AT1G07270.1 (Cell division control, Cdc6 ) HSP 1 Score: 492.7 bits (1267), Expect = 4.9e-139 Identity = 261/482 (54.15%), Postives = 333/482 (69.09%), Query Frame = 0
BLAST of HG10001525 vs. TAIR 10
Match: AT2G29680.1 (cell division control 6 ) HSP 1 Score: 481.1 bits (1237), Expect = 1.5e-135 Identity = 268/520 (51.54%), Postives = 336/520 (64.62%), Query Frame = 0
BLAST of HG10001525 vs. TAIR 10
Match: AT5G58800.1 (Quinone reductase family protein ) HSP 1 Score: 304.7 bits (779), Expect = 1.9e-82 Identity = 142/193 (73.58%), Postives = 166/193 (86.01%), Query Frame = 0
BLAST of HG10001525 vs. TAIR 10
Match: AT5G58800.2 (Quinone reductase family protein ) HSP 1 Score: 304.7 bits (779), Expect = 1.9e-82 Identity = 142/193 (73.58%), Postives = 166/193 (86.01%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01
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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