HG10017430 (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.ATGGCTTCCATAGAGGGTCTGGTGCCTATTACCAGGCATTTCCTTGCTTCGTACTATGATAAATACCCATTTACGCCTCTATCTGACCATGTCTCTCGCCTTTCGACTGAGATGCTCGCTCTGGCGAACAGTATGCTTGATGAACTCCCGCCTACTTCAGGTTTCACCATTGACTTGTATCTTAATGAATTTTTGTTTGCAGTGTAGGGCATGATCTCACTGGTTGCTGATGATTTGAAGTTTTGAGCTTGTTTGCTTTTAGATCTTCACTTCTGGAGTGTTCCTGTAGTGCGATTCGAGAGCTTATTTGCAGTTATCGCATGTATTTGGATTGTTTTGCATTTAGTAGTTTACTTTAATATATGTTAATATCATGATCTCTACCATTCAAGTTAGGCTGTTATGATTTAAAACTTGATAACTGTGTCACTGAGCAAATATGAAGAGATAACTGGAGTTTTTAATTTCCATCATTGCATTCGTTGTCATTATGTCACAGAAGTTGGTTTTAATACGAAATTATGTCTAGATCTGTTTTGAGATCAGTTCAATTTTTTTCGCTTTTTTTTTTTCATTTGAAATTGTCATCATAATGGATGAATTAACACCTATTGTTGTGCTCTGAATTGTGCTTTCTCATACTAGCTGTTAACCACTTCATTTTAATCTTTGATTACTGATGTTGGTTGCTTTTCCTGTGGGGATCATCATCATTTCAGAGGAAAGCACCCTTCTTGATGAAGCAAACCAACACCCTCCTCATAAAATTGATGAGAATATGTGGAAGAATCGGGAAAATGTGGAAGAAATTCTCTTTCTGCTTGAAAAATCTCGTTTTCCTCAAGAGGTTAGATTTATGGGCCAATCATGTTTAAGAAGACGCATATATTATTCATAGAAGTTCTAACGTTGTAGTGGCAGCTTGAGCTGTTTCTCAATGCATAATTTTAGAAGCTGAGCCCAAACTTATTTACACATGTAAACTGCAGGTTCAGAAGGAGTCTGCAATTGGTGAAGCTGAACTTGCTAATATTATAGGAAAGCTAGAAGAAAAAGTTCGGAATACCTTACATACGTTGGTGGCTTTCCAATCTAAAAATTCTGAGCACGTGTTCAACACAGGTTACTATTCATAGATCATTATTTTCGAAGAGGAAGTTCTTTTGAAGTTATACCTTGTCTCATAACTTTTCACCCGCCATTTGGTTGATGTTTTGATATGTACTGTTATTATGAAACAATGTAGTTTGGTTGAAGATTGTTTGATTTCTATATTTGTTCTGGCTAATAAAGAACTGTTGTATTAAAAGAAACAAATATACAAGAGAAGGATCTGTAGCCAACAACTAAAGGAGGATATCCCATTGGTTTGAACAAAAAATGGGGATCACTTGGAGAATTCTTTATGAAGAGTGAGCTATCTAGAAGCCAAAAAGAAAAATTATAGCCCTCTTCACCCATTATCCTTGAGGTCCCAAAAATTTGGTGTTTCTTTCTATCTAATCCAAAGAATTTTAGACTTTTTAGAAAACCTACACTGCAACCATAATGGAAGGAGGTAAGGTAACTTGTTTCTAGTAGTTCTCCAAGACCAACGACTATAAATGTTCTATTCCAATATGTATGTAATTTTGCATCACCTGAAAAAGTATTTTCTTCCTGTCCTTATGGCATGATGCGGACCAACTACAAAAATGAACAAAATAGGAACTGATTTCTTACTTACCTATATTGAGGGACCACAAGAAAAATTGATTTTTTTAAAATCAGAATAGTAGCTGTAGGCTAAGAATGTTTGGGATGCTTGAAATAGTAGTTGAAACTTTCTTTTAGGATACATTTTTTAAAATTTAAATAATATATGTAAATCTATATCTTTGTATGCGCGTCAATGTGCGTTTGCAGAGAGGGAGGGAGGGAGGGAGGTTTAAAGTTAACTAGAATGTTTGCTGGTCGGATGCATTTGTGCCTTCCTTTGGAAAACTTGTTGGAGTGTGACAAAAAGAAGTATTTTTCCAGCAGAGGAGAAGACTGTATCAAATATGGGATGTTATTATCTATCAAAACTTTTTTCAATTATCAATTTGAGATTGTTTTTGTAACTTCTATATACTTTGATATACTCTCTACCTTCTCGTATAATGATTTATTTTGGTTCTTGTTAAAATAAAGGTCCAACCTTATTTTGCACCTTTAGTTCACTTCATTATCCTTATGTGCCTTTGTCTGCCCAAAATCAAATCATGCTAGATATAGATCTACTTGAGAAGGTTCCTTGTTTCTAGCCCAGAGTCTTCTCCAACATGACTTTACAAAGATTTGTGATATGATACTATTAGGGTGCAAGCCATCATGGGTTGGCCTAGTGGTAGAAAAGGAGACAAAATCTCAATAAATGGCTGAAAGGTCATGGGTTCAATCCATGGTGGCTACCTACCTAAGAATTAATTTCCTTCGAGTTTCCTTGACACCCAAATGTTGTAGGGTCAGGCGGGTTGTCCTGTGAGATTACCCGAGGTATGCGTAAGCTGACCCGGACACTCACAGATATCCGTTGAGTTTTCCCGAGTGCTTCTTGCATGGCTGTTGTATTTGTGTTGATTCCCTTCTCCTACACTTCTTGCATCTCTTATGTATTGTTCATATTGTATTCTATATTCTATCAGTAATTGAAATATTCGATAGTTTCTTATGAAGAAAAATATATTTGCAGTTATGACCTACATGCCTCAAGATTTTCGAGGAACGTTAATTAGACAGCAAAGAGAACGATCAGAGAGAAATAAGCAAGCAGAGGTTGATGCTTTGATTAATTCTGGAGGAAGTATACGTGATCGGTATGCTCTCTTATGGAAACAACAGATGGAAAGGTATTTTTTGTTTGATTTAGGTGCCTTAATCTTGGCTGAGCTTGTAGGTGGGCTTATAATGTAGGCAGTAGTTATTAATTACCTTTTCAGGAGGAGACAGTTAGCACAGCTGGGATCTGCAACAGTTGTCTACAAAACCCTTGTGAAATATTTGGTTGGAGTTCCAGAGGTACAATTTTCTCGGTTACTGTAAATACACCTATGTTTGCTCCCTGACCAATGACTATACCTATTGCGTTTGTTGATAAAGAAAGTAATGATAGAATTAGTCTTCCGCCTTTCGTTAGAAAAGCTTACTTCCATCTGTTGTTTGTTTGTGTGTGTGTTTATTTAGCCCATGAACTTTCACAATCTGTGTCTAATAGGTTCTTGAACTTTAAAAATGTCAAATAGATTCGTAAACTTTCAATTTTGTGTCTAATAAGTCTCTCTAATAAATTTAAAAATTTTCAATAATATCAAATTTTTTAGACATAAAATTGAATTTTGGTTTAATTGAACTTTAAACTTTCAGTTTTTTTGCCAATAGGTTCATGAATGTTTAAAAAATGACATAAAATTTAAACATTCTTGTCTCCCATTTCTCGTTTTTTCGTTTTTTGTTTGTTATTTTTTTTGTTTCTTGTTTTTAAAACAAATGTAAAACCATTATACAGAATTCATAGTATTAAATGCAATTTTGGTTCCAAAGCAAAATAACAATAATAATTAGTGAATTTTATCTTTCAAATATGGTTCAAATTTGATTTGCAATGTCATCTTTCACTCTAACCAATTCACTTTAAATGATGTGGGCTTATTTGAGTTAGTTTAGTTAACTAATTTGTAAATTGTCCACTGTAAAATTTCAACAACCTTAAGTAGGAGAAAGAAGTGATTTTCTTTGAAAATTAATGGTATATATGAAATTTCTCTCTCTCTCTCTCTCTAGCCTTTTTAATTATCCCTTAACATGATCTGTCTAAGTAGCAGCACTGTAAAGGTGCAGAAGACAATTGAGGGGCATTTGATGAAATGGTTTATAAAGGGCATTTTCTGTGATTGAGCACCAATCAATCTTCTAGTCATTGTGCTCTCTGATGAGTGATAAGCAACCTCACAGGTTCACTTATTTGAGGAGGAGAAGGATGTAATAGTGGGGACTTGAAAACTTAATGAAGGTAGTTAGGCCACTTGTGCGGGACTGGCAATAGTATGTGCTAAGAGGGAAACTACTGTGAGAGGCTATTCTATTTAACAGTGTTCTCTTTGTTCATATTCCAAAGAAGGTACATCTGTTTAGTCACTCTGACTGGTGTGGAGAGTTTAATACCAGTGATCGGCCGTTGAAATTTCATCGTTTTATCCATCTTGCCTATTGAGTGTATTTTGTGCGTGGAGACAATGAAACGGTGGATTATATTTTCCTAAATTGTAAATTTTCTTGTAAGTGGTGATGTTTTCTGGTAAAAAGAATATAGGCATTTAATGGTGCTTTCATAAAACAATAAAAAAAACTATGGAGCAATTTTTGTGCGCTAACCCCTTCAGAGGGGAAAAATAATGCCGTGGACTAATGCTGTAAAGCTCTTCTTTAGGATTTGTGGATGGAAAGACATAAACCTAAAGGAAGAATGTCTTGACAGCCCTTCAAAGAATATTCAGGGAAGAAGCCCTGGGAATTTTCGTTGATCTATTTTGCAAGTAGCACCTTGGAATTGTGTTATCGAATCAAAATTATAAACACCATATGTCATAATTGCAATCTCATTACTTTCTAATGCAGGTATTGCTAGAATTCATTCAGAAAATAAATGATGACGATGGGTAACTTCTTTCTCTACAGTCTTTTAAGTTTTATCTAGTTTTAATTTCAATTAATATAAATAACTAGTAAGAACAGTTCCATCCTAGCCACTTCAACTGAGGGTTGTTGAACCATTCAGTATATTATATTTTAAGATAATGTGTGAAAATTAACAGGCCAATGGAAGAACAAAGACAACGCTATGGACCACCTCTGTATAAGCTAACAACAATGATCCGCCTTATTCGACTCTGTATTTCATTATCATGGAGACGCTTTGATGCTGCGAAAGTGTAAGAAATCTTTTCTTCTTTTTATTTTACAGCGGTTCATTGAATTATAGCATTTTTATATAAGGGTAATTTATTTATTTATCTTCCCTGTTGAGGGAACAAACATTCTGCTTCTGTTTTTGGCCTTGATGGTTCATAGTTGCAATTATATTGAGCAGAAGGGAGCATCTTGTTATTTTGGAGCAAGCTGTTGATGTGTACACCTCTGAGCTTGAGAGGTTCCTTGGGTTCATTCGGTAATATTTCTGCCTCTAGTATAACTAGCTTAATGTTTAGTCCTTTTGGGTACTTTGAAGGCCCACAAGGTCGCATGTCACGAATTGTTTTCCATCTATTATTGATTTGAATATTTTGAATCGTACATGGAACTAGTCATCACGTGCTTTAAACGTTAGTTTCTCTGTGGAAGTATAAATATGTTGAAATTATGTAATTGATATAACTTTGGGTGGGGGTGTTGGGGTAGAGTGATATGTCTTGGTTGTTTGTATCTTAAAGGTTAATTCTGGAATAAGTAGATACAAGGATGATTGTTCACGATGTATGGTGACATAATATTTTACTGGAATTCAAGTAGACTAAAATAGTTGTGATTTTGTAAAGAATCATGCCACCTAGTGGTGTTCTCTTTCTAAGTCTTCTTTTTTCCATCTTCATTACTCTTCCAGTGCAATTGACTTTAGTTGGAAGGTTTTTTTGTAATGGTTGTTGGTTTTATATTTTTTTTGTGTTTTTTTGGCAGTTTTGTAATTCAGTAGCTATAAGGGGTCTCTTTTCTCGTAAAGAGAGAATTGAAATCATGTATCTCGATTAGTGTTTCTCTGTCATTTAAGAATAAAATGTCTGTTTCCAAAAAAATTTCACAAGCCCATCAAGGCCATGGTGTATTCTGATTCTGATTGCCAGCATCTCCATTTTTATTAATTTGTCCTCATATTTTTTTCCAGCGAGGTCTTCAACAATGCTCCGTTCTTTATTTCAGCAGATGTGGCCTGTGCAGCAGATGAGAGGTATATTGACATTTTTATGTGCGTGTCTTATGTGGGATAAAAAGCATTGCTTTCATTAAGATAGGTAACAGGCTTAACAGCAAAATCCGAACAAAGAAACAAGGGACAAAGCGCACCAAAAACCAGGAAAACAAACAAAAAACTGAAGGCCGGGAGGGAAACTTACAAATGTGCTCTTAAGGAGTATTTGACCCAAGGAATTGGGGGAGTGGAGTTGTGAACTCCACTCCTTGTTTGATCAAGGAGTTCGTGGGCCCCACGACTAAAGAAAATAATTTTATGCCTTGTTAACTCCTTACATTGGGGGCCTAGGAATTCACAACTCTCCAGACTTAACAACTTCTTAGAGTTCACAACTCCACTCCTTGCCTCAAATAGCCCCTAAAGGGTGAAACTATCATCCGGCGCCATACTAGCTTCCCACATAGAAGTTGAGGACATACAAACTGATGGTAAATGATTCAAATCCTTGCCAAGTATGCACTAGTTTGACCTTACTTGAGAATGGATGAACTTCAAATCACATCAACGATGTTACCTCAAAAATAAAATTGGTGCAAGAGAGCCTTCATCCCAAGATTGATTGACTGATCTTGTCTTGCCGCAGACTTAAAAACAAATCATATGAAGTTTTCACTATTATCTGGAAGTATGTATGTTAGGTATTTAAGCACCTTGGAGAACCACACCCCAAAAGCCAACTATTGAGGTACCTTGGAGAACCACACCCCAAAAGCCAACTATTGAGGTGGGAGAGCCAAGCCACTTAAGTACCAAATTGGCCATCTCATTCTAACTGATGTGGGACAAAGGTAACCCATACTATCTTGATTCCTACAGTGTACAGTCAGGCAAGAAAAGAATTAGACCTTTTTTTCGAACTTCCAGCTTCTAGTGATTGGACAGTGACTTGGATGAGGAAACCAAATTGGTAACCATAGAACTAGAGCAGAAAATTTCAGCAGAATCAAGAGTCAGACGACAAAGATTTTCATCTTCAAATGAGGAACCAACTAGAGTATAATTCAACGCGATGGGGGCATTGGTGTTAGAAGATAAAAAAGTAAAGGTGGGGAAAATAAATAGGCAATGGACCATAGCCAATGGTATTTTCCTCACATAACCGAATGCAAGTCTCATCCCCAATGAATAAAGAAATTACTTGTCTAAACAAATGGAGACTATTTTGAGATACTTTCTATGAGTTTCTACAAGGGACCAAGGGTCACTGTAAATTGCTTTGGAGTCCCCCACATACAAGCGTGAACACATTTTTGCTCACTATTAATTTGTGCTGCAAAATCTTGGCTTTGGAGAGAAATATCAAAGCCATTTAGACAAGAAAGTATTATTCTTATTGACCAGGTTCCAAACGTCGAAATTGCCTAGTTCATGCCTTTTGATGCTTCACCACAATTATGATGAGGCTGTGAGAGTACTAATAGGGGTATCTTGGGAATAGCAGTAGGATATTAGTAAGGGCACAGGAGTAATTAGTTAGAGGTGAATTGATTATAAATTGAGAGTGAGGGAGAACATGGAGGCCATATTATGGTAAATGAGGGGAGAGTACTAATAGGGGCATCTTGGGAATAGTAGTAGGATATTAGTAAGGGCATAGGAGTAATTAGTTAAGGGTGAATTGGTTATAAATTGAGGGAGTGTGGGAGAACATGGAGGCCATATTATGGTAAGTCATTCCTGAGTGGATTGCTTGTGGGAGAGGCATAGTCCTCTCGAAAGGCTATCGATATTGTAATTTCTTCTTGTTATTGCAACATAGTTCCTTTGGTGTTTTCATATATTTTTTGTGTTTTGGTATCCTAATAAATTGGTACCAGAGCATTGATTCTGGCAATAGATCATGATTTGTGGATCGTTTACCGAGGTTAGTGTTTGTTATAGAGATGCTTGGCCAAACATGATGAACATAGGGCAACAATACAACAAATATTGGGAGAAATGCGACAATGGGATAATGATGTTGAGTTTGTGATCTTGATCAACAATGGGATGGGAAATGCGACAAATATTGGGAGAAATGTGACAATCTTTCCAAGGTCAATGAAGTCACTGGCTATGAGGACTGAGGAGTCTTCAGTGCAAGGCAGTAGTGGTTTCCAATGGCAATGGAGGACGTGGAAGTCGTGGTGGAAGGCAGAACGAATATGGTGAAATTCAATCGAAAGATGGAGAAGTTGAGGAGGAATGGAAGAAAGAAAAATACTGGCAGAGAGGGCAAGTGGAGCGGCAACCTGTCAGCTAACACATGGTCGAAAAAGCGTAGAGGCAAGCAGACGGAAAAATGGCGGAGGACAAACTTGCCTATGGTCACATGAAAAAGATGAGGTGTCGAGCAAAGGGGAAACGAAGGAGGGAGAACGTTCTGATAGACACGTAGTTGAAAAAGTGGAGAGACAAATAGAGGAAGAACTTGTGGCTGCTGAAAATGGCAGAAGAGGGATGGAGACGGTGGAAGGATAAACGGAAGAGGAGAGAGAAATTACAAAGTAGTTGATTATGGCTACGGTGGAGAAGAAGTCCCTTCATGGGATGTGAACTAAATAGGCCAAACAGGCTCCATTTAGAAAAGAAGTTATGCTGTTATGTCGGCAATAAAGGGAAGGAAAAAGGTGATGTTCGTTGGTGGGCTACTCCTAAGTGGAGAGTGCAAGCAGAATGTGGACTTAGCCCATTAGAGATAAGCAAGAACGGCAGTGCAAACAGAATTTGGCTTTGCATTTATTGTACTTTCTGATCTTGAATTTGTGGGTGGGTATTTTGTTTTGTGTCTGTACTGGATGCTATACAACCCACACCTTGAGGACAAGTTTGAAGGGTGGGGTAAACTGAAAGTACTAACAGGGGTATCTTGGAAATAGTAGTAGGATGTTAGTAAGAGTATAGGAGCAATTAAGGGGTGAATTGGTTAGAAATAGAGAGATTGAGGTGAGAACAGGGAGGTCATATTTTGGTAAGTCAGTCCTTGGTGTTCATATATATATATATATATTTTGTTTTGGTATCCTAATAGAGTCCCACCTTCATTATAACCATCTCACATGAAGCCTTTCTTGAAGCCTTCCTCCCCAAGGAAAAAAAAAGTAGGTTTCTTCTTGGAAAAAGGTGCGTGTGAATATTTTCCATCACCTTGTCCCAAAAGGAAAGCCTGCATAGCTTATTGTCAACTACAGTTCAACTCTCAACCTTACTAGCAACAATATTGATGCTGAAAATTGTACATTTGGATCTATTAACATTTTATTGATGGATGAAAATAAGGTGATAAGGGATAGAAAACACGAACCAACAATTAGAAAAATGGCCTAAACAACAACGACCTAAAAGGAGGCAAACGGAACCTCGCCTGATGGCATGGAAAGGGCTCTAGTCTAAGAGAATATGACCTGACAAATAATTACAAGATTTTAAATATAGACACCTAAAGCAAGGCATTAAATCTAGCTAAGGACCAACCCTCCTCTCTTGATCTCCTTACTCCCTTAAAGATTCTACTTATTTAACGCAGGGCATTAAATCTACTTATTTGCTTTCTAGCAACTTTTTTGTTCTCTTCCCCTTGAGCCATCTTTCTGTAACGATTTGTCCATCCATCAATCTCACTCTCTACAGGAAAAGTGATAGCTACAAAGAGATTAGTGTTCCAGCTGGAAAGACTTATGAGGTTCATTTTTTTCTTCAGTGTTATTTTATTCTCATTTTTTGCTTATTTATTGGATTCATCAGCTTTGGATTCTGTCCCCTGAGACAAGTGGATAATAATCTATTAATTGTCATTTAAAGGATTTCAAAAGTTAAGGGCTGTCTAGAAGAATATATTTTAAATTTACGAGTTTTGTTCATTCTGGTTTCTGATAAAAAATTATCACTGTTCTTAGCATATACTCTGTTTGATATAAGATCAGATACTCTGTGCTAAGGTAACAGAAGATTTTATTCAGTTCATTTGACCGGAAGAAAACAAGTTTTTAATGATATCATGTTTTGATAAAATTGAGTAGCTAGCGCTAAACTTTTATTTCATTTTCTTTATACTTTTTAATTTTTATTCACAAATGACTTTAGGTTGTTGAGAAAAGAACGCCAAAATGATTAGCAGCATGGTTTCATTGCACACAATTTTATCACCCAGCACCCAGTAATTTGTAAAAATATTATACTAGGTTCTCCTTGTTTGCTTCATCACTTAAAGCCATTGGATATCTTTTTAATATCCTTTGGCTTGGATTCTCTTTTATGGATTTTCTTCTATCAGTGAAACAAAAATACGTCCTGAAAGAGTTTTACTTTGATGGTATTTTTTTATTCATGTTAAAATTTATAAATAGTTATGTACAGTTGACTGCAAGAACATTAATTGATGACTTTTTCTGTAATAAATTCTAATCAGCCCTTTTCATTCATGAACTTTATTGATGGAAGGCTTATGTTTGGAACAGTTATATTATTATATCATTGGTTAATCAAAGTGTTTGCAGTTTCTGGCACGTTTGGATGGTCTAAATCTTAAATCAAAGTGCTTGCATATCTTGCTTCTATTGTGCCTGATAAACCTTTTGTTGCAACTCACTACTCGTGGCATTTTTATTGTGGATTACTTTTATAGGTTTCATTAAGTGTGGAGTCTATCAACTCATATATTGCCTGGGATTTCTCATTGGTTCAAGGCAAGATGAGTATGGTACAGCTACCAAATCCCAGACTTTCTTTGACTTGAATGGCTTCCATAGAGGGTCTGGTGCCTATTACCAGGCATTTCCTTGCTTCGTACTATGATAAATACCCATTTACGCCTCTATCTGACCATGTCTCTCGCCTTTCGACTGAGATGCTCGCTCTGGCGAACAGTATGCTTGATGAACTCCCGCCTACTTCAGAGGAAAGCACCCTTCTTGATGAAGCAAACCAACACCCTCCTCATAAAATTGATGAGAATATGTGGAAGAATCGGGAAAATGTGGAAGAAATTCTCTTTCTGCTTGAAAAATCTCGTTTTCCTCAAGAGGTTCAGAAGGAGTCTGCAATTGGTGAAGCTGAACTTGCTAATATTATAGGAAAGCTAGAAGAAAAAGTTCGGAATACCTTACATACGTTGGTGGCTTTCCAATCTAAAAATTCTGAGCACGTGTTCAACACAGTTATGACCTACATGCCTCAAGATTTTCGAGGAACGTTAATTAGACAGCAAAGAGAACGATCAGAGAGAAATAAGCAAGCAGAGGTTGATGCTTTGATTAATTCTGGAGGAAGTATACGTGATCGGTATGCTCTCTTATGGAAACAACAGATGGAAAGGAGGAGACAGTTAGCACAGCTGGGATCTGCAACAGTTGTCTACAAAACCCTTGTGAAATATTTGGTTGGAGTTCCAGAGGTATTGCTAGAATTCATTCAGAAAATAAATGATGACGATGGGCCAATGGAAGAACAAAGACAACGCTATGGACCACCTCTGTATAAGCTAACAACAATGATCCGCCTTATTCGACTCTGTATTTCATTATCATGGAGACGCTTTGATGCTGCGAAAGTAAGGGAGCATCTTGTTATTTTGGAGCAAGCTGTTGATGTGTACACCTCTGAGCTTGAGAGGTTCCTTGGGTTCATTCGCGAGGTCTTCAACAATGCTCCGTTCTTTATTTCAGCAGATGTGGCCTGTGCAGCAGATGAGAGGGCAACAATACAACAAATATTGGGAGAAATGCGACAATGGGATAATGATGTTGAGTTTGTGATCTTGATCAACAATGGGATGGGAAATGCGACAAATATTGGGAGAAATGTGACAATCTTTCCAAGGTCAATGAAGTCACTGGCTATGAGGACTGAGGAGTCTTCAGTGCAAGGCAGTAGTGGTTTCCAATGGCAATGGAGGACGTGGAAGTCGTGGTGGAAGGCAGAACGAATATGGAAAAGTGATAGCTACAAAGAGATTAGTGTTCCAGCTGGAAAGACTTATGAGGTTTCATTAAGTGTGGAGTCTATCAACTCATATATTGCCTGGGATTTCTCATTGGTTCAAGGCAAGATGAGTATGGTACAGCTACCAAATCCCAGACTTTCTTTGACTTGA ATGGCTTCCATAGAGGGTCTGGTGCCTATTACCAGGCATTTCCTTGCTTCGTACTATGATAAATACCCATTTACGCCTCTATCTGACCATGTCTCTCGCCTTTCGACTGAGATGCTCGCTCTGGCGAACAGTATGCTTGATGAACTCCCGCCTACTTCAGAGGAAAGCACCCTTCTTGATGAAGCAAACCAACACCCTCCTCATAAAATTGATGAGAATATGTGGAAGAATCGGGAAAATGTGGAAGAAATTCTCTTTCTGCTTGAAAAATCTCGTTTTCCTCAAGAGGTTCAGAAGGAGTCTGCAATTGGTGAAGCTGAACTTGCTAATATTATAGGAAAGCTAGAAGAAAAAGTTCGGAATACCTTACATACGTTGGTGGCTTTCCAATCTAAAAATTCTGAGCACGTGTTCAACACAGTTATGACCTACATGCCTCAAGATTTTCGAGGAACGTTAATTAGACAGCAAAGAGAACGATCAGAGAGAAATAAGCAAGCAGAGGTTGATGCTTTGATTAATTCTGGAGGAAGTATACGTGATCGGTATGCTCTCTTATGGAAACAACAGATGGAAAGGAGGAGACAGTTAGCACAGCTGGGATCTGCAACAGTTGTCTACAAAACCCTTGTGAAATATTTGGTTGGAGTTCCAGAGGTATTGCTAGAATTCATTCAGAAAATAAATGATGACGATGGGCCAATGGAAGAACAAAGACAACGCTATGGACCACCTCTGTATAAGCTAACAACAATGATCCGCCTTATTCGACTCTGTATTTCATTATCATGGAGACGCTTTGATGCTGCGAAAGTAAGGGAGCATCTTGTTATTTTGGAGCAAGCTGTTGATGTGTACACCTCTGAGCTTGAGAGGTTCCTTGGGTTCATTCGCGAGGTCTTCAACAATGCTCCGTTCTTTATTTCAGCAGATGTGGCCTGTGCAGCAGATGAGAGGGCAACAATACAACAAATATTGGGAGAAATGCGACAATGGGATAATGATGTTGAGTTTGTGATCTTGATCAACAATGGGATGGGAAATGCGACAAATATTGGGAGAAATGTGACAATCTTTCCAAGGTCAATGAAGTCACTGGCTATGAGGACTGAGGAGTCTTCAGTGCAAGGCAGTAGTGGTTTCCAATGGCAATGGAGGACGTGGAAGTCGTGGTGGAAGGCAGAACGAATATGGAAAAGTGATAGCTACAAAGAGATTAGTGTTCCAGCTGGAAAGACTTATGAGGTTTCATTAAGTGTGGAGTCTATCAACTCATATATTGCCTGGGATTTCTCATTGGTTCAAGGCAAGATGAGTATGGTACAGCTACCAAATCCCAGACTTTCTTTGACTTGA MASIEGLVPITRHFLASYYDKYPFTPLSDHVSRLSTEMLALANSMLDELPPTSEESTLLDEANQHPPHKIDENMWKNRENVEEILFLLEKSRFPQEVQKESAIGEAELANIIGKLEEKVRNTLHTLVAFQSKNSEHVFNTVMTYMPQDFRGTLIRQQRERSERNKQAEVDALINSGGSIRDRYALLWKQQMERRRQLAQLGSATVVYKTLVKYLVGVPEVLLEFIQKINDDDGPMEEQRQRYGPPLYKLTTMIRLIRLCISLSWRRFDAAKVREHLVILEQAVDVYTSELERFLGFIREVFNNAPFFISADVACAADERATIQQILGEMRQWDNDVEFVILINNGMGNATNIGRNVTIFPRSMKSLAMRTEESSVQGSSGFQWQWRTWKSWWKAERIWKSDSYKEISVPAGKTYEVSLSVESINSYIAWDFSLVQGKMSMVQLPNPRLSLT Homology
BLAST of HG10017430 vs. NCBI nr
Match: XP_038881965.1 (uncharacterized protein LOC120073287 isoform X2 [Benincasa hispida]) HSP 1 Score: 646.7 bits (1667), Expect = 1.4e-181 Identity = 348/447 (77.85%), Postives = 357/447 (79.87%), Query Frame = 0
BLAST of HG10017430 vs. NCBI nr
Match: XP_004147520.1 (uncharacterized protein LOC101218161 [Cucumis sativus] >KGN53967.1 hypothetical protein Csa_021572 [Cucumis sativus]) HSP 1 Score: 644.4 bits (1661), Expect = 7.2e-181 Identity = 343/440 (77.95%), Postives = 353/440 (80.23%), Query Frame = 0
BLAST of HG10017430 vs. NCBI nr
Match: XP_008463316.1 (PREDICTED: uncharacterized protein LOC103501503 isoform X1 [Cucumis melo] >KAA0025747.1 Emp24/gp25L/p24 family/GOLD family protein [Cucumis melo var. makuwa] >TYK06178.1 Emp24/gp25L/p24 family/GOLD family protein [Cucumis melo var. makuwa]) HSP 1 Score: 642.5 bits (1656), Expect = 2.7e-180 Identity = 342/440 (77.73%), Postives = 353/440 (80.23%), Query Frame = 0
BLAST of HG10017430 vs. NCBI nr
Match: XP_038881964.1 (uncharacterized protein LOC120073287 isoform X1 [Benincasa hispida]) HSP 1 Score: 641.0 bits (1652), Expect = 7.9e-180 Identity = 345/440 (78.41%), Postives = 352/440 (80.00%), Query Frame = 0
BLAST of HG10017430 vs. NCBI nr
Match: XP_008463317.1 (PREDICTED: uncharacterized protein LOC103501503 isoform X2 [Cucumis melo]) HSP 1 Score: 597.4 bits (1539), Expect = 1.0e-166 Identity = 301/319 (94.36%), Postives = 311/319 (97.49%), Query Frame = 0
BLAST of HG10017430 vs. ExPASy TrEMBL
Match: A0A0A0L040 (GOLD domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G197820 PE=4 SV=1) HSP 1 Score: 644.4 bits (1661), Expect = 3.5e-181 Identity = 343/440 (77.95%), Postives = 353/440 (80.23%), Query Frame = 0
BLAST of HG10017430 vs. ExPASy TrEMBL
Match: A0A5A7SM14 (Emp24/gp25L/p24 family/GOLD family protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold287G00320 PE=4 SV=1) HSP 1 Score: 642.5 bits (1656), Expect = 1.3e-180 Identity = 342/440 (77.73%), Postives = 353/440 (80.23%), Query Frame = 0
BLAST of HG10017430 vs. ExPASy TrEMBL
Match: A0A1S3CKI8 (uncharacterized protein LOC103501503 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501503 PE=4 SV=1) HSP 1 Score: 642.5 bits (1656), Expect = 1.3e-180 Identity = 342/440 (77.73%), Postives = 353/440 (80.23%), Query Frame = 0
BLAST of HG10017430 vs. ExPASy TrEMBL
Match: A0A1S3CJ00 (uncharacterized protein LOC103501503 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103501503 PE=4 SV=1) HSP 1 Score: 597.4 bits (1539), Expect = 4.9e-167 Identity = 301/319 (94.36%), Postives = 311/319 (97.49%), Query Frame = 0
BLAST of HG10017430 vs. ExPASy TrEMBL
Match: A0A6J1EAU1 (uncharacterized protein LOC111432376 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111432376 PE=4 SV=1) HSP 1 Score: 596.3 bits (1536), Expect = 1.1e-166 Identity = 321/440 (72.95%), Postives = 337/440 (76.59%), Query Frame = 0
BLAST of HG10017430 vs. TAIR 10
Match: AT5G01010.2 (EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 14 growth stages; CONTAINS InterPro DOMAIN/s: GOLD (InterPro:IPR009038); Has 85 Blast hits to 85 proteins in 21 species: Archae - 0; Bacteria - 0; Metazoa - 20; Fungi - 0; Plants - 62; Viruses - 0; Other Eukaryotes - 3 (source: NCBI BLink). ) HSP 1 Score: 446.4 bits (1147), Expect = 2.7e-125 Identity = 243/442 (54.98%), Postives = 301/442 (68.10%), Query Frame = 0
BLAST of HG10017430 vs. TAIR 10
Match: AT5G01010.1 (CONTAINS InterPro DOMAIN/s: GOLD (InterPro:IPR009038); Has 172 Blast hits to 172 proteins in 43 species: Archae - 0; Bacteria - 0; Metazoa - 95; Fungi - 0; Plants - 63; Viruses - 0; Other Eukaryotes - 14 (source: NCBI BLink). ) HSP 1 Score: 446.0 bits (1146), Expect = 3.5e-125 Identity = 243/441 (55.10%), Postives = 300/441 (68.03%), Query Frame = 0
BLAST of HG10017430 vs. TAIR 10
Match: AT5G01010.3 (EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 14 growth stages; CONTAINS InterPro DOMAIN/s: GOLD (InterPro:IPR009038); Has 76 Blast hits to 76 proteins in 20 species: Archae - 0; Bacteria - 0; Metazoa - 11; Fungi - 0; Plants - 62; Viruses - 0; Other Eukaryotes - 3 (source: NCBI BLink). ) HSP 1 Score: 446.0 bits (1146), Expect = 3.5e-125 Identity = 243/441 (55.10%), Postives = 300/441 (68.03%), Query Frame = 0
BLAST of HG10017430 vs. TAIR 10
Match: AT5G01010.4 (EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 14 growth stages; CONTAINS InterPro DOMAIN/s: GOLD (InterPro:IPR009038). ) HSP 1 Score: 424.9 bits (1091), Expect = 8.3e-119 Identity = 236/442 (53.39%), Postives = 294/442 (66.52%), 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 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
|