HG10018002 (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.ATGGAGAATTACGAAGTTGTTAAGGATTTGGAAGCTGGAACTTCTGTTGTTACAACACTTATGAGGCATAAACAGACCAAAGAACTTGTTGCCATGAAGCTCATTGAACGTGGTCCTAAGGTTATTTCTATTTCTCCATTCAATAATTCTTTCAAATCAATCCTTATTTCTCATGCTTTATTGGTATATTCACAGATGATTGAGTATATGGAAAGAGAGATTATAAAGCATCGATGGCTTCCGCATCCAAATATCGTTCGTTTCAAGGAGGCAAGTTTTCTTTTTTACTTCAAATTTTGGTTCTCATTACTCAAAAAAATGCATCAAGTTTTAGATTAAGAAATAGAGGAAACTAATAAAGATGGGATTTGAAGTTGAAGGTTGGTTTCATATTTTCAGGTTACTTTTACCAAAACCCATTTGGCTATGGTGATGGAATATACTGATGGAGGAGAAAGTTTCGAAAAAGTTCACAATTCTAGTCGTTTTAAAGAAGATGAGGTCTATTGTCTATCTACTCTTTCTCTCTCTGTCTCTAATAATATAGAATGAATTGCTAGGTTTATTCTTGAGGAGTTTCCTTTAGTGGGTAAGGGCTTGAATGTTTTTAGATATCTCCCAATCTCTACATTCAATCCCCATACTCAAAACCCAAGCTATCACACACCTCAAGTCACACACTAAGAACTAAGCTTCGCACATATACTTCTTGGTGTGTGATCCCGTAACTTTCGCTGTACGATTTTGTTGTTGTCACATCGGATCTCTCCTTCCAATTCAACTTCTTTTTACTTAAATGACCACTTGTTCATATGTTTTTTTTTCGTGTTTTCCAAATATACTTATCAAATGAGCAAATTTTTAAAGTATATTGACTTTTAAAATGACATCACAAAGTTTAAGTTTAGACGATTTTGGCTTTTGGGTATTAAAGTCAATTAATTTTTTTTTTTTCGTTTGAGCATGGTTGTTGTTGATGCTAAAAAATGGATCAATTGTGAATTTGTTTTCTTTGGGAGAGATTCGTTCGAGTGCCGGCAAGACAAAAGCAAATGAATACCAGTGCGGTGTCTAGCCACACACACTCCGATGCTCAAGTCAGTCTTGTGTTTATGAGTAAATAGATAGTAGAGAAAAAGTAAGTATTTTCGCCGTATTTAGGCGTACCTTCGACCAATTTTCTCGGTCATTTTTATAGGGTAGTAAAATGTAACTGATGTAAGAGGGTCATGATGCCCTTGTTTAATCCTTGAAACCGTCGAGTTAATTATTTGAGTAGTTACACTATTATTGCTGCAACTAATGCATCACTTAAATTCTCAACATCTTATTAAAGGTTTGTCCGTTATGAATATGGATGACTTAGGCCACAATCATTCAACCGAACTCGACTATCCTAAGCTTTCTTCTAGGCATAGACTCCTTTGAGCTGTCCTGACCTGAACTCTTCTAGGTTTAAGCTTAACTCTTCTAAACCTTCTTCTATGCTTAGGCTCCTCTAAGCTCACTCATACTCTCCTAATCTCTCTTCTAGGCTTAGGCTTATTTGAGCTACCCTAAGCTTACCTCACGAGTCCCATTGAGCTCTTTCTAGCTCTCTTGAGCTCTCCCGTGGGTCTTCTTGAGTTCTCTTCTAGGCTTAGGCTCATCTGAGCTACACTAAGCTAATCTCTAAGCTCACTTTAAGTTCTCCTGGGCTTTTTGTTCCGTGCTTGTCTCATAGTCTCTTGGCCAACCACGAGTTTTGAGTACCATCACGTGGGCGGCTGACTCAAAATGTGTGGAGAAAACAAATAAACAAATTTTTTGCACTTCTCATGGTTTAAACCCCAACCTAGGTTATGCCAAAGTCATTCCAAAGTCAACTACTCCACCTACATGTTTTGGGTCTTTAATTGGAACATTATGTATGTATGTATGTATGTGTGTATGTATGGACATTCCTGATAACACTCCACTTTTGAGTCATGATTCTAGTTACTTTCCATTTATGTCTCTTCGCATCTGTTACTTTTGTATTCCAAAGCTTCTATATTCTTTCCGAATTATCTTGTACTTTTCCTTTGGATGACAATGACAATTTTTTTTTTTTTTTTTTTTGCATTGTGTTTTTGCTGATCTTTCATACTTACTTGCCTCCATACTCAAATAAGTATAATGTATAATGATATATTATAATATAAAGTTTATTTTATAAATCAAAATTTATAAATCTAATTTTGGATATGATTCAAAATTAATTCATGAGAGAATTAAATATTTGAAATAATTCAAATATTAATTTAATATGAATTAGATTTATATTAAAACTATAGGTTAAAATTAATGCGCATTAGATGCACATTAGAACTATAGGTTATGTGAGAGAAATTTATTTAAATATGATTTAAATGAATATATTAATTAAATTAGATTTAATTAAATATTAATTTCATTAATGGGGAAGTTTTAAAAATAGAAAAATAAAGAAAATTATTTACACAAAATAGCAAAATTTTTAAATAGTTTTGATAGACGCTGATAGAAGTCTATCAGGACCTATCAGTGATAGAAAGGTAGAAGTCTATCACTGATAGATGCTGATAGAAGTCTATCAATGTCTATCAGTATTTTTTTTGCTATTTTATGTAAATAGTTTGACTTTTTTTTATTTGTGAAAATTTCCCTTCAATAATTAGTTGTTTTTTTAATTAATTAATTAAATTAATATATTTATATTTAATTCAATTCATATTAAACCAAATTAGTTATAGGGAAGGGAGTTACCTGAAACATGGGATTGATACCACGTTCTCCTTTTCGATCTCCATATTCCTCTCTGGGTACCTTTCAAAAAGGGATTAAGAGAAGAAGATTGGGAGTTGTTTTTGGTTTATTTTTTTCCAGAAAGGTTCTATAAAATTGCTCTCTCAAATTTTCTCTACCCAAAAAGAATTTTTTCAAAAATTTCAAGGAAAGTTCCAACAAAGCTTAACCTCAATTATTTAGAGTTTAGGGAGGTCTCCCTTTGGTGGTGTTCGATTTCATCAAAAGGTATTTTCTTTTCATTCTATATTTTATGCATGACCTAGATAATAGAGTAGGTTTCTCCTGTATAATTGCATTGTATTATTTTTCCCAACTTCTAAATTATAAATCAAAATTGGCCCTCTATATTTTTCCGCTGCGCTAGGGTTTATATCCTTGCACGTAGATGTATATCGCTCAAACTTACTGGGTGGCAGGCATTTATGACTTGGTCATTCTTGTCAGGCAACCCGTCTTTTAATCTTCATCTTCTTCAAATTTGAACGGTCTTCTTCCTTATGGCTTTTTTCCTTATGGCCTTCTCCTCTAATTCTTTTCTTCTTCAATTCTTCTAGAGTGAAGTAGCTGCTTTCTTACTGAGTGACCATAGGAATCGCTCATTTCTAAGCCCCGCAACTATGGTGGTCAAGGCTGCCCCATCAGTGTAGCCTTCGATCTGAAGTGCCTCACTATTAAACCTTGAGACGTATTCTCTCAGCGTCCATGCCTCTCTTGTTATTTAATCGTAAGAAGGTGAGTTGATGGCTTCCTCTAATTTTGTCCTCCAAGAAATTGAGTAACCAAAGCACGAGCCAACTCACGAAAGGAGGCTATTGATTTTCTCTTAAGCTTATAGAATTGTTTTCGCGCAGCTCCAGCAAGCATGAATGAGAAAACCCGACACTTTATGGCATCTCAGACTCCATGGAGCTCCATCTATGACTGAAAGGTGTCCAAGTGCTCCATTGGATCTTTTAATCCATCATAGACTTTCATTATAGGCAACTTAAACTTCAGAGGTGCCTCTTCCTACATGATCTCTTCAGTAAAGGGTGAATCTACTTGATCCAGCAGATTCTCCAGGTTTAACCTATCGTGACCTTGTGCTCGCTTCACGTCCCCTAGCTAGTTCTAGATTTGCCCACGGTCGATTTTCAACCTCTTTGTCTTCCTCTTGATGTATTCTTCTCTTCGATTAATGAGCTCACGTAGGTTCATGCCTTGGTTAGACCGTTCTGATCAACCAGCCTTTCGGGCTATAGATTGTTTATAGGCAACTCGCGATCTTTAGCTTAAGCTTTTTCTGCGACTGCCAGCTCATTCAGTTTGCGTCTTGGATTGACGATCGACAATCAACCGCTTCCTCAAGTTTGGACGGGCTATCCTTTTGTCGTTACCTTCTAGGATCAATCTCTCTATTTGTTTTGGCCCTCTATTCTAGGACTCCCTGACCCCCTCATCTGTCGGAGCTTTTCCCTTGGCTCGATCTCGTACATTGGGAGTGGCGTCTTGAGGTGCAGGTACCAACGGGTTTTGCCTCTGTCGCTCCCATTGTTGACTTCCCTCTAGGTATTCCTCGGCACCCTTGCCAAGGCATCCATTATGGGATTGGGACGCTTGAGTAACTCCATAATTTCACTCAAACCTTGATCCAATCCTTTCACCTTATCTACTAGAGCAACATATTCATCGGTAGGTTTCTCCATCGGCTGACGGGTCTCTGTCGGCGGTGTGACATTCTGATTTAAGCCAGTATCCTCTTCGGGTAGTGATAATGATCAGATTCATCATCAATATTTTTAGCTAAGTTCTGGCAATTCATCTCGTTACCTATATTGTTGACTCAAATCTTGTCACACCCCCTTCCAGATTTCCCTTAAACCTAGAAGAAGATGTGAAGATACTAAAAATCACCCCTCTTGGCAACACTTAACATCCAACTCACTAGCTCAACCTATATTTAACCCTAAACAGTTACAATATGACCACTCATTAGATTAAAGAACCATTCTTTAACGTACTTTATAACCCCTTGATAAATTCAAACTCAGATCGAACACATTATTTTTTAAAAAAAAGTATACACATATGCATGCTATCCACAACGTTTAAGTACGACAGAAGCACTAATACAATTGCACAACCCACCCCCTATTACAAGTCTCATGACCCCAAAACATGTACAACTAGTTACAAGTGTCTAGTGCATCAAAAACAAGACTCCACATACGTACACCTACAATGTAGGGGTAAACTATCGTCATGGGGCAGTGACAGCTCAGCTCGATCCTAGAACTTGATTGCTACCTGGATGCATCATATATGCAGAGTTATGAGCTTCATCTAAAATCTCAATCTTTAACTCAGTTTTATTAGGAACACACAAACGACTGAATCTCATCACTACTCAATCACTTCTTACTTCATAGTTAGTCTGTTGTCCCTGTACTATGACCTCTTTTATCTGTTTCAGCAGCTCGTTCTCTCGTTGTGCTTTGATAATTCTGTCAATCAGGATAGATCTCACTTGAAACTGTGCCAATAATCCTCCCTGGTCGTCTGTTGACAACTTTGCATTACAACTTTTTAATTCACACAACAAGGAAGCACTAACCGCATTCTGAGAAATTCTTGAGCGCAAAGCCAATGAACACAATGAAAAATTGATCTAGATAAGGATGAGGAAAGACAAGGATGCATAAACAAGACTTGCAAACATCGGTGGTGAAAGATAGCAGTCAAGCTTCTGGTGTTCAAGTTATAAATAGGTTAATAGTTGTGGAATGATCTGTAAGTGATATATGATGTGTATAAATAAGTTTTAATCAGAAGCTTTAAGTTTTGTGGCTTTGTCAGTGTGATGATGTTTTTTTTTAAAGTCTGGAGGACTTCCGCCGAATTTCGAGGACGAACCCACCTGAAGTGGAGTTGTGAGATATATTACGATGCTTTAAATCAAGGTTTGGGTTGTGTTTTGATGCAACAGGATAAGGTGATAGCATATGCATCCAGACAGTTGAAGAAACATGAATGCAACTATCCAACCCATGATCTTGAACTTGCAGCAGTGGTTCTAGCTCTGATACCAACTTGTCACACCCCCTCCCAGATTATTTACCTAACCTAGGAAGGAATGTGAAGATAGCAAATGCCAACCTCTTTATGACATCTACTATCTATCTGTACCTTCTTTTCTCAAATCAATTACGACAACCAAATCCTCCTTGAATCACATTTTAGCCCTAAAATTAGTAATTTGAAATTTTTGGGATAATGCAAGGGTATTTTAGGAAATTTTGAAAATTAGAAGCAAAAATTCCGAATTATGAATAATTAGGGATTAACTGTGATTTAAGGAGGATGTGGTTGTCGTAATTGATTTGAGAAAAACAGGTACAAATAGATAGTAGATGTCAAAAAAGGGTTGACATTTTTTATCTTCACATTCCTTCATAGGTTAGGTAAGTAATCTGGGAGGGGGTGTGATAAATCTTCACACAACAGTGCCAACTGTTGATGCCAAAAAATGGATCAATTGTGAATTTATTTTCTTTGGGAGAGATTCGTTCGAGTGTCTGCAAGACAAAAGCAAATGAACACCGGTGTGGTGTTTACCACATACACCCCGACGCTCAAGTCGGTCTTTTGTTTTTGAGTAATTAGACAGTAGAGAAAAGGTAAGTATTTTCAGCGTATTTAGGCGTACCTTCGACCAATAGTCTCGGTCATTTTTATAGGGTAGTAGAATGTAACTGATCTAAGAGGGTCATGATGCCCTTGTTTAATCCTTGAAACCGCCGAGATAATTATTTGAGTAGTTACACTATTATTGCTGCGCCTAATGCATCACTTAAATTCTCAACATCTTATTAAAGGCTTTATCTGTTATGAATATGGTCGGCTTCAGCCACAATCACTCAACCGAGCTCGACTCTCCTAAGCTTTCTTCTAGGCATAGGCTCCTTTAAGCTCTCCTGACCTGAACTCTTCTAGGTTTAAGCTCGACTCTCCTAAGCCTTCTTCTATTCTTAGGCTCCTCTAAGCTCACTCATACTCTCATATACTCTCTTATAGGCTTAGGCTCATCTGAGCTACCCTAAGCTTATCTGACGGGTCCCATTGAGCTTTCTCTAGCTCTTTTGGGCTCTCCCGTAGGTCTTCTTGAGTTCTCTTCTAGGCTTAGGCTCATTTGAGCTACACTAAGCTTACCCCACGAGTCTCATTGAGCTTTATCTAGACTCTCTTGGGCTCTCCCTTAGGTTTCCTTGAGTTCTCTCCTAGGCTCTTAGCTCCATTAAACTTGTCTCATGGGTCCCACTCAGCTATCTGTAAGTTCACTTAGGCTCTCCCATGGGTCTTCCCACATGGGTTCCACTGAGCTATCTCTAAGCTCATTTAGACTCTCCTATGGGTCCTCTTGCGCTCCATTATGCTTGTCTCATGGGTTCCACTGAGCTATCTCTAAGCTTGCTTTAGGCTCTCCCATGTGTCTCTCTTGAGCTCCATTATATGCTTGCCTCATGGGTCCCACTGAGCTATCTCTAATCTCGCTTAAGCTCTCCCATGGGTCCTCTTGAGCTCCACTACACTTACCTCATGGGTTTCACTGAACTATCTCTAAGCTCACTTTAGGTTCTCCCATGGGTCTCTCCTAGGCTCTTTAGCTCACCTCATTTAATTTTATAGGTCCCACTGAGCTTTCTTTAAGCTCATTTAGGCTCTCCCATAAGTCGTGGCTAATTGTGCCCATAACAGTTGTAAAGAACACAAAAAATTATATGAAAACAAATAGTCATTTAATTAGCAAAAAGGGAATTGTATTGGGAGAGATTTGATCAAATTTATGAAATTTGATGTTTGATATTTTGGTAATATATGTATAAATGTTCACGCTTCGCCAGGGTCCAAAATGTTTTGGGTCATTTCGAGCGATTTTGTTTTTTTTTTTCTTTAAATTTTTAAAAACACTAGCTAGAAGATCAAGAGAAATAGAGAGAGATAGAGAGATAATGGAGGTTTCATTTTAAGGTTTCAACCTCACTATACAATGATATTGAAATAAACTTAAATACTACATGACTAAGAGAGGTCAAATTGCGTTTTACATATGAGATATTAACATAAACTAAATAACATAACATAATCTAAAACACTATAACACAAAAAAATTAAAGGAGAATATGGAGTGTGAAATGGAGAGATAAAATAAGAGACTGAGAGAAATTAGAGAGAAAAGAGTTGTTTCAATTGATTAGATCAGAAAAAAAAAAGTGTGTTTTCAAACTGTCATTTTCATTTAAAGTCTTTTGATAAAAAGAGTTTAAAATAAAATTTGAAAGTTTTCCAAAAGTCATTTATAAAGTGGGAGAGAAAAATCAAAATTGATAAAGAACATGAGAGATATATGAGGAATTTGAGATTTCGATTGATAAAAAAACCTTTGTGCACTCCAACCTATATCCAAACAATATGTCTTGAATATATCTTGTGAGAAAAAAAATTTAAAATTTTAATTAAACTTTATTTTAAGGAAAAATTTTACCGATAGAAAAAATGTCAAACTATTTACAGAAAATAACAAAAAAATACTGATAGACATTGATAAACCTCTATCAACATCTATTAGTGATAGACTTCTATTATTTCTATCACTGATAGACCCTGATAGACTTCTATCAGCGTCTATCACAACTATCTAAAAATTTTGCTATTTTGTGTAAATAGTTTCTCTTATTTTTCTATTTTGAAAATTTTCCCTTATTTTTATCGTGTTAAAAAAAAAAAAAAAGGAGAGCATTGTTTTAGATTCCCATAATTTATCCTACAAATACCTCCACGAAATCACTTCTTCCACACCACTCTCAAATTTTAAGTTCTCTAGTATTCCTCTCATTTTCTCTCAAGTTCTATCTACTTGTAAAATTTTCTTTTTCTCCTTTCTTTTTTATTATGTTGTGTTATATTTAATGTTAATCTTTTTGTATCTTTCTCATGCTTAATGTTATAATTTTTATATTCTTATTATGTTATGTAAATATAATTCTATAATTTTTGTATCCACTTCATCTTATAATAAACAATTTACAATTATTTTGTATGCAAATATTTCATGTTCTTTAATTTCGTAATAATTACCAATATGTGATATTATTTTGTAGGATTATTTTCAAATATAGCAAAATGTCACTATAGCAGTGGTAGACACCGATAGACACTAATAGACAACTTTCAGTAATAGATAATAGTAGTCTATCAATGTCTATCACTGATACATAATGACATTTTGTTGTGTTCGAACTTTGATATAAACACGCTTCCTATATTATATTAAAAAGAAGATTTTTTTCCCATTCTTTCCAGTTATTAGTTGACTTCAAATTTGATTCCTGAAGCCTATTTCCAATTCTTCATTGCTATAGAATTTTGATGGAATGGAGAAGTACGAATTTGTTAAGGATTTGGGTGCTGGAAGTTTTGGTGTTACTAAACTTATGAGGAACAAACAGACCAAAGAACTTGTTGCCATGAAGTTCATAGAACGTGGTCCTACAGTTAAGTCTGCTTCTTCATTCAATAATTGTTTCAAATCATTCTTTGTTTCTCATGGTTTATTGGTATTGATAGATAGATGAGAATGTAGAAAGAGAGATTATAAACCATCGATCGCTTCAACATCAAAATATCGTTCGTTTCAAGGAGGCAAGTTTCTAATTTTTACTTCAAATTTTTGGTTAAAAAATGCATGATGTTTTTAGATTAAGAAACAGAAGAAATCAAAGATGGAATTGAAATTGAAGGTTGGTTTAATATTTGCAGGTTATTCTAACCCCAACCCATTTGGGTATGGCAATGGAATATGCTGCTGGGGGTGAACTTTTCGAAAGAATTTACTATTCTGGTTGTTTTATAGAAGATGAGGTCTATTAACTATCTACTCTCTCTCTCTCTTTCATATAATATGAATTAATTGTTACCTTTTACTTTTGAGGAGTTTCCTTAATGGTAAGGACATTAGAAACTTAATACCCCAAGTTAGAACGACTCAAAGATTGAAACTTGCTTGATGAATCATGGAGAAGATGTTCTGTGGGTACAGAAATTTGTAGAGATAGAGATGTTGAAAATAAAAGACAATAAACGAATATATGAAGTGTGAAATACTAAAAATAAAATACTTATTTGTTACAGGCAAGATATTTCTTCCAGCAGCTGATTTCTGGAGTCAATTATATTCATTCAATGGTAGGATAAAAAAAACATACTAAACCTTATATGGTTTGTTGTTTAAAAATGTTATACCATATTTTTGTCTGACACAAAATGGTTTATACAGCAAATATGTCATAGAGATTTGAAGCTAGACAATATCCTTTTAGATGGAAGCAGAGCCCCGCGCTTGAAGATCTGTGATTTTGGCTACTCCAAGGTCTCTTTGAATATATGATAATTTTGTTTGCTCATTCCAAGTTAACATGCTTTTGCCTCAATTTTTTTTTTGGTAGTCATCCATGTTGTATTCAAAACCAAATACAACCATTGGTTCTACAATATACGCAGCACCAGTGGATCTAGCAGGAGGAAAATACGATGGGAAGGTATCTGAGATAATCAAACTGTAACTAGATTATTGCAAAGTCTACTGCTAAATTCCTTTGACCTTGTTTCAAGCTATAATCATATCTACACTGGATTCTTTTTCGGCGTGTGGTTTAGATGGTAGATGTGTGGTCATGTGAAGTTACTCTCTGCTATGAAATCGACAAATAAAGATAAGCAGAAAAGTGTAAACAGTAGAGAATCGACACAAAGATTTATATGGTTCATAACAATTTGTTAGCTACGTCATCAGGTAGAAGAAGAACATTTTTTTTTATTATAGAGAATGATATAGATTAAAAATAGAAATGCCTTTAGGATTAGAAAGTTTATATTGCGCACATTTCTAAACCCTAGAGTTAAAATCGTAAATAACAAAAATATGAAAAGTACGAGGACAAGGCATTCCAACACTCTGTATGTTATGCCATTGTATTGTCAAATTGTTTTGTAGTTATACCCATTGCATTCAACACCAAATACAAATGTCGGTTCTCCAACATATGCAGCACCAGAGGTTCTAGTAGAAGGACAATATGATGGAAAGGTATATGAGATAATCATTGTAATTACATTATTGCAATTACATCATATGTACATGCTTTTCTTCTTTGATGTATGTTTCAGATGGCAGATGTATGGTCATGTGGAGTTACTCTTTATATTATGTTGTTCGCTGCTTATCCTTTCGAAGACCCAAATGATCCTAAGAACTTCCAGAAAACTATTATGGTTCATTGCTTCCCTTGCTGTTACTAATTCTATTAATGTCATCATCTTTCTCACTTTTGTTTTGTTCTTTTGCAGCGAATAAAGGATGTATATTACAAAATACCAAACAATATTCCCATATCTAAAGATTGTCGACACCTACTCTCTCGAATCTTTGTCCGAAATCCCTCGAGGGTATTGTTCTATGACAAACTAATATATTTTTCTCATTTCCTTATTTTGGAGTTCTAAATACAAAATTATATTCACTTTATCTTACATCACATAGTTAGTACAAAAAAAAAAGCAAGAACAGCTAAAGTATGAGAAAAATTCATTTGTAAAAAGTAGTGGAGTCACCTCCTTTCTTTCCAATTTTTACCTTCATGTTAAGGTGTTGGGTTATATCGCTTCTCTTCAATATAATTCTTACAATCTTGACATATTATGACAGAGAATTTCGCTAAAAGAGATCAGGAGTCACCCATGGTTCTTAAAGAACCTGCCATGGGAACTGACAGAGCGAATGCAAGCAATCTATTACAAGAAGGATAATCCAACCTTCTCTCATCAAAATGTGGAAGAAATCATGAAGATCGTGGGGGAGGCGAGAAAGCAGCTACTCCCATCATCGACAACCATCATGCACTACGGATCAAAAATTGAAGAGGATGACGAGACAAAATTGGTTGAAGAGGTGGAAGACGAAGAAGCTGACATGGTAGAAGAGGAGGAAGATGAAAAAGATGAGGTGGAAGAAGAGGAAGAGGAAGAAGATGAGGTGGAAGAAGAGAAATATGAAGAACATGAGGTGGAAGAAGAGGAGGACGATGAAGAAGATGAGTTCGTATGA ATGGAGAATTACGAAGTTGTTAAGGATTTGGAAGCTGGAACTTCTGTTGTTACAACACTTATGAGGCATAAACAGACCAAAGAACTTGTTGCCATGAAGCTCATTGAACGTGGTCCTAAGGTTACTTTTACCAAAACCCATTTGGCTATGGTGATGGAATATACTGATGGAGGAGAAAGTTTCGAAAAAGTTCACAATTCTAGTCGTTTTAAAGAAGATGAGAATTTTGATGGAATGGAGAAGTACGAATTTGTTAAGGATTTGGGTGCTGGAAGTTTTGGTGTTACTAAACTTATGAGGAACAAACAGACCAAAGAACTTGTTGCCATGAAGTTCATAGAACGTGGTCCTACAGTTAAGTCTGCTTCTTCATTCAATAATTGTTTCAAATCATTCTTTGTTTCTCATGGTTTATTGGTTATTCTAACCCCAACCCATTTGGGTATGGCAATGGAATATGCTGCTGGGGGTGAACTTTTCGAAAGAATTTACTATTCTGGTTGTTTTATAGAAGATGAGCAAATATGTCATAGAGATTTGAAGCTAGACAATATCCTTTTAGATGGAAGCAGAGCCCCGCGCTTGAAGATCTGTGATTTTGGCTACTCCAAGTCATCCATGTTGTATTCAAAACCAAATACAACCATTGGTTCTACAATATACGCAGCACCAGTGGATCTAGCAGGAGGAAAATACGATGGGAAGTTATACCCATTGCATTCAACACCAAATACAAATGTCGGTTCTCCAACATATGCAGCACCAGAGGTTCTAGTAGAAGGACAATATGATGGAAAGATGGCAGATGTATGGTCATGTGGAGTTACTCTTTATATTATGTTGTTCGCTGCTTATCCTTTCGAAGACCCAAATGATCCTAAGAACTTCCAGAAAACTATTATGCGAATAAAGGATGTATATTACAAAATACCAAACAATATTCCCATATCTAAAGATTGTCGACACCTACTCTCTCGAATCTTTGTCCGAAATCCCTCGAGGAGAATTTCGCTAAAAGAGATCAGGAGTCACCCATGGTTCTTAAAGAACCTGCCATGGGAACTGACAGAGCGAATGCAAGCAATCTATTACAAGAAGGATAATCCAACCTTCTCTCATCAAAATGTGGAAGAAATCATGAAGATCGTGGGGGAGGCGAGAAAGCAGCTACTCCCATCATCGACAACCATCATGCACTACGGATCAAAAATTGAAGAGGATGACGAGACAAAATTGGTTGAAGAGGTGGAAGACGAAGAAGCTGACATGGTAGAAGAGGAGGAAGATGAAAAAGATGAGGTGGAAGAAGAGGAAGAGGAAGAAGATGAGGTGGAAGAAGAGAAATATGAAGAACATGAGGTGGAAGAAGAGGAGGACGATGAAGAAGATGAGTTCGTATGA ATGGAGAATTACGAAGTTGTTAAGGATTTGGAAGCTGGAACTTCTGTTGTTACAACACTTATGAGGCATAAACAGACCAAAGAACTTGTTGCCATGAAGCTCATTGAACGTGGTCCTAAGGTTACTTTTACCAAAACCCATTTGGCTATGGTGATGGAATATACTGATGGAGGAGAAAGTTTCGAAAAAGTTCACAATTCTAGTCGTTTTAAAGAAGATGAGAATTTTGATGGAATGGAGAAGTACGAATTTGTTAAGGATTTGGGTGCTGGAAGTTTTGGTGTTACTAAACTTATGAGGAACAAACAGACCAAAGAACTTGTTGCCATGAAGTTCATAGAACGTGGTCCTACAGTTAAGTCTGCTTCTTCATTCAATAATTGTTTCAAATCATTCTTTGTTTCTCATGGTTTATTGGTTATTCTAACCCCAACCCATTTGGGTATGGCAATGGAATATGCTGCTGGGGGTGAACTTTTCGAAAGAATTTACTATTCTGGTTGTTTTATAGAAGATGAGCAAATATGTCATAGAGATTTGAAGCTAGACAATATCCTTTTAGATGGAAGCAGAGCCCCGCGCTTGAAGATCTGTGATTTTGGCTACTCCAAGTCATCCATGTTGTATTCAAAACCAAATACAACCATTGGTTCTACAATATACGCAGCACCAGTGGATCTAGCAGGAGGAAAATACGATGGGAAGTTATACCCATTGCATTCAACACCAAATACAAATGTCGGTTCTCCAACATATGCAGCACCAGAGGTTCTAGTAGAAGGACAATATGATGGAAAGATGGCAGATGTATGGTCATGTGGAGTTACTCTTTATATTATGTTGTTCGCTGCTTATCCTTTCGAAGACCCAAATGATCCTAAGAACTTCCAGAAAACTATTATGCGAATAAAGGATGTATATTACAAAATACCAAACAATATTCCCATATCTAAAGATTGTCGACACCTACTCTCTCGAATCTTTGTCCGAAATCCCTCGAGGAGAATTTCGCTAAAAGAGATCAGGAGTCACCCATGGTTCTTAAAGAACCTGCCATGGGAACTGACAGAGCGAATGCAAGCAATCTATTACAAGAAGGATAATCCAACCTTCTCTCATCAAAATGTGGAAGAAATCATGAAGATCGTGGGGGAGGCGAGAAAGCAGCTACTCCCATCATCGACAACCATCATGCACTACGGATCAAAAATTGAAGAGGATGACGAGACAAAATTGGTTGAAGAGGTGGAAGACGAAGAAGCTGACATGGTAGAAGAGGAGGAAGATGAAAAAGATGAGGTGGAAGAAGAGGAAGAGGAAGAAGATGAGGTGGAAGAAGAGAAATATGAAGAACATGAGGTGGAAGAAGAGGAGGACGATGAAGAAGATGAGTTCGTATGA MENYEVVKDLEAGTSVVTTLMRHKQTKELVAMKLIERGPKVTFTKTHLAMVMEYTDGGESFEKVHNSSRFKEDENFDGMEKYEFVKDLGAGSFGVTKLMRNKQTKELVAMKFIERGPTVKSASSFNNCFKSFFVSHGLLVILTPTHLGMAMEYAAGGELFERIYYSGCFIEDEQICHRDLKLDNILLDGSRAPRLKICDFGYSKSSMLYSKPNTTIGSTIYAAPVDLAGGKYDGKLYPLHSTPNTNVGSPTYAAPEVLVEGQYDGKMADVWSCGVTLYIMLFAAYPFEDPNDPKNFQKTIMRIKDVYYKIPNNIPISKDCRHLLSRIFVRNPSRRISLKEIRSHPWFLKNLPWELTERMQAIYYKKDNPTFSHQNVEEIMKIVGEARKQLLPSSTTIMHYGSKIEEDDETKLVEEVEDEEADMVEEEEDEKDEVEEEEEEEDEVEEEKYEEHEVEEEEDDEEDEFV Homology
BLAST of HG10018002 vs. NCBI nr
Match: KAE8649702.1 (hypothetical protein Csa_012923 [Cucumis sativus]) HSP 1 Score: 488.8 bits (1257), Expect = 5.2e-134 Identity = 281/496 (56.65%), Postives = 330/496 (66.53%), Query Frame = 0
BLAST of HG10018002 vs. NCBI nr
Match: XP_008442071.2 (PREDICTED: serine/threonine-protein kinase SAPK2-like [Cucumis melo]) HSP 1 Score: 469.9 bits (1208), Expect = 2.5e-128 Identity = 252/434 (58.06%), Postives = 304/434 (70.05%), Query Frame = 0
BLAST of HG10018002 vs. NCBI nr
Match: XP_008456157.1 (PREDICTED: serine/threonine-protein kinase SRK2H-like isoform X1 [Cucumis melo]) HSP 1 Score: 467.6 bits (1202), Expect = 1.2e-127 Identity = 266/413 (64.41%), Postives = 311/413 (75.30%), Query Frame = 0
BLAST of HG10018002 vs. NCBI nr
Match: XP_008456158.1 (PREDICTED: serine/threonine-protein kinase SRK2H-like isoform X2 [Cucumis melo]) HSP 1 Score: 461.8 bits (1187), Expect = 6.8e-126 Identity = 266/413 (64.41%), Postives = 310/413 (75.06%), Query Frame = 0
BLAST of HG10018002 vs. NCBI nr
Match: XP_038897207.1 (serine/threonine-protein kinase SRK2G-like isoform X1 [Benincasa hispida]) HSP 1 Score: 455.7 bits (1171), Expect = 4.9e-124 Identity = 268/414 (64.73%), Postives = 310/414 (74.88%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy Swiss-Prot
Match: Q9C958 (Serine/threonine-protein kinase SRK2B OS=Arabidopsis thaliana OX=3702 GN=SRK2B PE=1 SV=1) HSP 1 Score: 357.8 bits (917), Expect = 1.8e-97 Identity = 210/386 (54.40%), Postives = 252/386 (65.28%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy Swiss-Prot
Match: Q9FFP9 (Serine/threonine-protein kinase SRK2H OS=Arabidopsis thaliana OX=3702 GN=SRK2H PE=1 SV=1) HSP 1 Score: 350.1 bits (897), Expect = 3.8e-95 Identity = 216/406 (53.20%), Postives = 265/406 (65.27%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy Swiss-Prot
Match: Q7XQP4 (Serine/threonine-protein kinase SAPK7 OS=Oryza sativa subsp. japonica OX=39947 GN=SAPK7 PE=2 SV=2) HSP 1 Score: 348.6 bits (893), Expect = 1.1e-94 Identity = 206/392 (52.55%), Postives = 259/392 (66.07%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy Swiss-Prot
Match: Q6ZI44 (Serine/threonine-protein kinase SAPK6 OS=Oryza sativa subsp. japonica OX=39947 GN=SAPK6 PE=1 SV=1) HSP 1 Score: 339.3 bits (869), Expect = 6.7e-92 Identity = 209/405 (51.60%), Postives = 257/405 (63.46%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy Swiss-Prot
Match: P43291 (Serine/threonine-protein kinase SRK2A OS=Arabidopsis thaliana OX=3702 GN=SRK2A PE=1 SV=1) HSP 1 Score: 338.2 bits (866), Expect = 1.5e-91 Identity = 209/404 (51.73%), Postives = 259/404 (64.11%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy TrEMBL
Match: A0A1S3B5L7 (serine/threonine-protein kinase SAPK2-like OS=Cucumis melo OX=3656 GN=LOC103486039 PE=3 SV=1) HSP 1 Score: 469.9 bits (1208), Expect = 1.2e-128 Identity = 252/434 (58.06%), Postives = 304/434 (70.05%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy TrEMBL
Match: A0A1S3C2K4 (serine/threonine-protein kinase SRK2H-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103496177 PE=3 SV=1) HSP 1 Score: 467.6 bits (1202), Expect = 6.0e-128 Identity = 266/413 (64.41%), Postives = 311/413 (75.30%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy TrEMBL
Match: A0A1S3C399 (serine/threonine-protein kinase SRK2H-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103496177 PE=3 SV=1) HSP 1 Score: 461.8 bits (1187), Expect = 3.3e-126 Identity = 266/413 (64.41%), Postives = 310/413 (75.06%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy TrEMBL
Match: A0A5D3C0T0 (Serine/threonine-protein kinase SRK2G-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold83G00760 PE=4 SV=1) HSP 1 Score: 426.4 bits (1095), Expect = 1.5e-115 Identity = 229/381 (60.10%), Postives = 266/381 (69.82%), Query Frame = 0
BLAST of HG10018002 vs. ExPASy TrEMBL
Match: A0A5D3C0T0 (Serine/threonine-protein kinase SRK2G-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold83G00760 PE=4 SV=1) HSP 1 Score: 79.7 bits (195), Expect = 3.5e-11 Identity = 49/103 (47.57%), Postives = 56/103 (54.37%), Query Frame = 0
HSP 2 Score: 406.0 bits (1042), Expect = 2.1e-109 Identity = 238/462 (51.52%), Postives = 282/462 (61.04%), Query Frame = 0
BLAST of HG10018002 vs. TAIR 10
Match: AT1G60940.1 (SNF1-related protein kinase 2.10 ) HSP 1 Score: 357.8 bits (917), Expect = 1.3e-98 Identity = 210/386 (54.40%), Postives = 252/386 (65.28%), Query Frame = 0
BLAST of HG10018002 vs. TAIR 10
Match: AT1G60940.2 (SNF1-related protein kinase 2.10 ) HSP 1 Score: 357.8 bits (917), Expect = 1.3e-98 Identity = 210/386 (54.40%), Postives = 252/386 (65.28%), Query Frame = 0
BLAST of HG10018002 vs. TAIR 10
Match: AT5G63650.1 (SNF1-related protein kinase 2.5 ) HSP 1 Score: 350.1 bits (897), Expect = 2.7e-96 Identity = 216/406 (53.20%), Postives = 265/406 (65.27%), Query Frame = 0
BLAST of HG10018002 vs. TAIR 10
Match: AT1G10940.1 (Protein kinase superfamily protein ) HSP 1 Score: 338.2 bits (866), Expect = 1.1e-92 Identity = 209/404 (51.73%), Postives = 259/404 (64.11%), Query Frame = 0
BLAST of HG10018002 vs. TAIR 10
Match: AT1G10940.2 (Protein kinase superfamily protein ) HSP 1 Score: 335.1 bits (858), Expect = 8.9e-92 Identity = 209/412 (50.73%), Postives = 259/412 (62.86%), 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.
|