HG10005616 (gene) Bottle gourd (Hangzhou Gourd) v1
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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.ATGGTTATGGAGGATAACGAGAGCTGTGGGAGTAGAGCGTACGACTCGTTGTCGCCGGCGCAGAGTCGGCAACAGAGGCAGAAGTTTGAGGTCTACAATGAGGTTCTACGGCGTTTGAAGGATTCAAACAACGAGGAGGCTATGCAGCCTGGTTTCGATGACGAACTATGGGTCCACTTCAATCGTCTTCCCACTCGGTATCTTTAACCTACTCCTTGCTTCCGTACTATCTCCTACATTCTTTCTTTCTTTTTCGTTTTGACTCGTTTGTCGCATTTTGTGATCGAGGTTTTCGTTTTTCTTCAATCCATCGTTTACAAGCTGGTTAGCCGGTTGTTGATTTCTGGATTACGTCTTCGTTTTGTTTGTTTTTGCTAATCAATGTTGTTTTTGCATGTATTGTTTGGATTTTTATTTTTTATTTTTTATCTTTAATTATTTGTTTTATCGGATTAGTATCGGATCAGGTTATAAGTTTTGGAGTAGAGCAGACGGATTGTGTATTGATATTGATCAGTCTACATTCCTTCTCATGTTCTCTTGAATGAATAGATTCGATATGAGTTTGATTTGAAAGTTCTTTTTTGCTACCAATGCTAATTACGGTCATCCTGAACACTTCCTGAGTTTGGTAGATGACTTTAACCGCTTAGTCTTTGTGTATACTATCTTCTTTTTATTCTCCTTGTTCGGTTGACGAATAGTCGATCAATTAGATCCAATGCTATGCAGATATGCTCTAGACGTAAATGTGGAGAGGGCAGAAGATGTTCTCATGCATAAAAGATTATTGCAATTTGCTCACGATCCAGCAAATCGACCTGCAATTGAAGTCCGCCTAGTGCAGGTGAGCAAGAGATACAAATTTAAGTGTCTTGAGCCTTATTCTTTTTCCCCCCTTCCCCCCATTGCGACACGTCATGCACAGTGACTTTTAAGAATGTAGTGTAATATGCATTTTATTGGTTGAGACTGGACTACTGGATGTTATTGGTCTTGTATAGAACGTTTTCTGGTCAATAATGAACGACCAGCAATTATTTATGTATCATTATCAAATTATTTGGTCAGTTCTTGTTGGCAATGGACGGCGCACCGTTTTTTTTATAGCTAGTATTGTGATTTAGGAACAAATAAAAGCAATTTTACTATAGGTTAAATGATCCATCAAATGTGCTTTCACATAATGGCAGGTTGGATTAAATTATTAATATGGAATTTTTGTGTTTATGTTACGAAGTTGAGGGATGTGATTGAATCTAGGAATTTGAAGTATGCAAACCAGCATTCTAGACCACTAGGCCAATTCTTTTAATCTATCTTAGACTTCTGGCTCGAGTTTCCTGAAATTTGCTGCAAATTTTGATCTTATGCGAGTTCACATATTATCCACGGCTGTTTACCTTTGTAACATTCAATGATTTGAGGAGTTGGTTTTGTTTCAATTAGAATATAAATTCTCATCTGAAATCAATGTCACTTATTTGCTTTCCTTTCTTGATTTTAAATTTGCAACTTTCATTTCTATAGGATTATGATTAGTTATTCGTGAAGGGGCCTTTTTATCCTCCTATTTCACTCTCCTTTTAAGTTTTATCCATAGTGAGTTAACTAATTTTTAATAATCGTACTCCTCTAGGTCCAAGCCACTTCTGACGAGAATTCTGCGGAATTTGCTGATTCATGTCCTGCAAAAGACACTGACCATAATTCTGCAAATTTCTTGGGCAGACAGAGGTGTGCTTTTATTTCTTTTGCATCTTATTTCTTTGTTGTATTGATTATGCTATTTGTTGTCTTCTTATTAATGTAAATCTTTGGTTGATTTTCTAAATTGTTAGCATACATCCACCACCTGCCTTTGGGTCATCTCCTAACCTTGAGGCCTTGGCCCTTGAAGCTAATAACGCTCAGGATCTGGAGGTTGATCAGTCTGTACATGCCAGAACACAGTTTTTCCGGTAATCTCTTTTCCCTTGCTTACGGAATTAAACTAGCATAGTTTTCCTGCCTTTGTTGTTTTAGTGCTTTTTAGTTTTTTTTTAATAATTGTGGAACTCCAATTATCTAACTTGTTTTAGAAGCTCTGTACCGGTGCTTCTGTGAGAAGAAAAATCATTTATTGAAACTTAACTGGTTTTATCAAACTTGATTCTTTTTTTTACTCTACCAAGTTTTCTTCGTGTAGTTGACATTTTTTTTTGACAAATAATGTAGGCCAATGCATGAAATCACCTTCTCTACGGATGATAAGCCGAAACTTCTTAGTCAGGTATCTCACATACATTTAATTTCTCTACAGAGTTTGTGTGTATGATAGACAAATGGTATTCTTATGGTGGTATTGACCTATGGTCCTGTCAATGGGTAATTAGTCTAGCAATAAAAGTTAGCATTCTTGGTTTATTATCTTACATTCAAGCTCTTATCAATAGACTCTGTGTATGTGTGTTTATAAGATTTGTTAATGGATACTCAATCAACTGGATTTCGCTAATCCCTAGTCATATAAGCCACACGAATAAGTTTCTGAACTGTTTAGCGTGACAATCTTTTACTTGCTTAGCGTCTGCTGCTGCTTGTTGTATATTTTCAGTTGACTTCCTTGCTTGCGGAGATTGGGCTGAACATCCAGGAGGCACATGCATTTTCCACTGTTGACGGTTACTCATTGGATGTTTTTGTAGTTGATGGTTGGCCCTATGAGGTATATTATTCTTTTAGACACGTCTGTGCTGAAATTGTAGTTTCTCTTTTATATTTTTCCCTTTCCTAAGTAAAAGTAAAATATAGATAATAAGGCATCTTGGTTTAGTCTGTTACTTTCCCTTACGGAAAGGCTTGTATGTGCTTAAACCTTGGGCTTCAATTATGATAATGTTGCGGGTGAAAGTGTATCGCATTCAAGTCCTCCTCTATAATGTATTCAACATTATATTAGGGAAATTCGTATTTGGTGTCCTAATTCTTTTATGTGTTTTTCTTGTGATTTGTTCTTTCAACATTTTTTGGATCCTTCTCTTAAGGAGTTGGTTTTCTCGGTTCTTTGGAAGGTGAAAATCCCAAAAATGGTGAAGTCTTTGTCTGATAGGTTATTCATGGTAGAATCAATACCTTGGATAGTCGATCAAGGAAGTGGCCATCTTCGATACTTGGTAGGATCTTTTTGTTGTATTCTTTGTCAGAGGGTAGAGGAAGATCTAGATCATTTATTTTGGAGTTGTAATTACAGTCGTTCAGATTGGAACTATTTTTTTGGTGTGTTTGGCAACCAGTTAGCCAAACATATAACTCTCAGTGATGATGAGGGAAAAAGAGTATTTTGTGGAAGGTCGGGTTATGTTGCTTTGTTTTGGGGTATTTTGGAGGAGAGAAACAGTATGGTTTGTAGATGGGTTTAGTTGATGTTTGTTCCCCTTTTGTAATTATTCGGTAGATTAGACGCCCTTTCTCTAGGGTGCTCCCTTTGTGTGGGCTTTGTTTTTTTTTGTTTTTGATTTTGTCTTTTTTTTCTATGCCTTGTGTTGTTTCATTTTTTTTTCCTCGATGGAAGTTGGTATTCAATCCAAAAAAAAAAAAAATGTATTATTTTAGGTGCCAATGATTTTTGAACTTGTAATGTTTGTCCTATCAAATCTTTGAACGAGCAATATTAATCAGTAAGGTAATAGTAACTATGGTTTTGGATAGTTTTCTATGATGTACATACGAGTCAAAATTTAAACCAATGCTCAAATTGAACTTGTATTTTGGTATTTAAACAGGAAACAGAGCGATTGAAGACTGCACTAGAGAAGGAAGTCTTACAGGTTGAGGTAGCTCCTTATTTAAGAATTGGTTTATTTAAAACAGTGCATCTAAATTTCATTTTGTTTTAAGATTATTTGGTCGGTCAACCCTTTTTAAAATGTCGTGCTTTCTGCTCTCTATTCAATATTCCATTTCCTTGTCAACTTCTATTTCATCTTGAATCTGTCCTAATTATCTTTGGAATTTTTATTCTCTTTTCAGAGTCATGTTTGGCCAAATCATAAATCCTCGTCTCCTGTGAGGGAACTTGATATAACAGCTAAATGTGAGCCTGATCGGGTGGAAATACCCACAGATGGGACCGATGTATGGGAAATTAATCCTAGACATTTGAAGTTTGAGCATAAAGTTGCATCTGGTTCATATGGGGATCTGTAAGTTGAAAATGGTTTTCTTTTTCAACGCTTCTCTTATGCGTATATGTTTGGTACAGTTTTATGTGAGCCTAAATATCTTTTTCAACAAAACCAGGTATAAAGGTACATACTGCAGTCAGGAAGTGGCTATTAAAGTTCTCAAAACTGAACGTGTAAATACAGATATGCAAAGTGAGTTTGCCCAGGAGGTATATATTATGAGGTAAGTCAAATATCGGCAATCTATTATTTTTAATCTAGGACTTATTTTATGCTGAATTTGATCGATTTTCTTGACATTCTTGACAAGTTGACATTGAAATTATCATTTCTATGAGGTACACAAATTCCTCTCATTTTGTGATTGAAATGGATACAACCATTTTGTGGTTGAGGCGTGGAAACAGGGAACATAAGGGATGGGTTGTAATTTTTATACACAGATTTTGAAATGGAGTAAAATTAATATTTGACAGAATAACTGGTTCCAGTTAAACGTATAGTTAGTCTCCTCAACACGTTTATCCATGCTACCTGCGACACCAAGTGAATTGTACCTTTAGTAAAAATGTGTTTTGAAAATAAATGTTCCGTCCAATTTTTTATTACATGCCTTTTTCTTTTAATACTGTCTTTCATCAATTTTATATTCTGGTGATGTGTGGAGAGGTTGAGCTATATGCTTTATGTTCAGTTCCATGCTTATAATCTTTTGATTAACATTTTTGTGTGGTTTGCAGAAAAGTAAGGCATAAGAATGTCGTACAGTTTATAGGTGCATGTACGAAGCCCCCAAGCTTGTGCATTGTAACAGGTGAGTCAAGCAAATAATCCATTACGTTTTATTTTCTAACCCTATTGGACATAATGAACAGGTAAACGTTATTTATTTGGATTTAATCTGAAAGTTATTTTTCTACTTTTTCACTTCAGAATTTATGTCTGGTGGTAGCGTCTATGACTATCTACATAAACAAAAGGGAACTTTTAGGCTTCCATCTTTGCTCAAGGTAGCTATTGATGTCTCCAAGGGAATGAACTATTTGCACCAAAATAATATAATTCACAGAGATCTAAAGGCTGCCAATCTTCTTATGGATGAAAATGAAGTAAGAACAATTTCTTTTCCAGTCCTTCATTTTGATGTCATGCATGCTCTGCTTGATATTAGTCCTTAATATGCTAACTTTCTAGAAATATTTGCACTTTTTAGCCTTTACGTAAGTTTGTTCAGACCACATTTATTATTTGATGGTTTAATTAATTTACTTTTCTAGAGACTAGCTTTTCAATACCAAATATTTGCATGATGGCAGTCTATTTTAAAAGATGCATAGACAGCAGACCCGATATCTAACGTATTGTTGCCTACTCCTTTGAATCTTGAAAAAAATTTAACGAGCTTTAGGATATTCTTCCAAGAGCATCTTCCAATGACATTTTTCTTCTAGCCAAAGAACCACCCAGACGAATCTTTTTTCTTAAAAATGAATATATTTCTCATAATAATTTTATGCTAAAATGGAACTTTGGAATCTCAATTGCATATAAAAACTGTTTAGCCTAAAGTTAATCTTCCCTCTTTGGAGCACAAGGGATGCTTCGATTTTCAAAATTTTACTTAAATTTTTCCTGACTCATATTGAGACTTATCAGTTTTCCTCGTTAATATTGAGTCTGGAGGTGATCTCAAAATTCTTACATTGTTACAAGAATATTCAACTTCATTGTTAAACAATAATATCTTGTTTGCAAAGTCAAGTGATTCAAGGTTACTTTTTTGTGGCTTGCCTGGAAACTTTTTAGAAAACCATTCACGGAACCTTCTCTAGCTACATTTGTCCGTTGCTACGAGAACCAAAAACTTTGAGAAAAGCATTTAGCTTCTGACATCGATGCTTAACTTCAATGGACTGATAGAACTGTACTTTATTTGACAAATTAAAATTTAGCGATTAAATAATGATGTGACATCAAATTTATTTTATTACTTCAGTTGGAAGTACCTTAGGTCTTAAATGACGAAAAAGATATGATCACCTATAAAATTGAAAATTGCATATTTTATATGACTTACTCTTAATACCTTAGATGAGTCACAATGACTCGAGATTATTGAGAGTGAACCCTGTAAAATGTTGTTGTACTTAAATTGAATACCTCATAGGTGATTGGGGTAGCCTATTCTTGTTGTCAAATTGAATGGGACAATGGCCGATCCTACAACTTCTAGAGTTCAAGATTTGAGGCTATTTAGTCATCTTAGTTAGATGGTCATCGTCCTTTGAAGCTATGAGACTTCTAAAGACTAAAATATGTCTACAATTTGCAGACCATTGAGCCACCCTATGATGTGGTGTATTCAAAAGCTTGATAATTGTAATGGGTTTATACAAAGATTTTTGGTGCATGTAGTTGCGTGTGCATATTGTATAATATTACTCTATATGCTATACAATCCAGAATATGGACATCTCTCTCACACCCACCTTGCACTCCAGGTTGTCAAGGTTGCTGATTTCGGTGTTGCCAGGGTAAAAGCTCAATCAGGAGTTATGACTGCAGAAACTGGGACGTATCGATGGATGGCTCCTGAGGTATGTTCATCGAAGCACTGAGACTATATTTTAGCATTCACGAGGTCACGTTATCATGTTTATTGGAAATGAACTACAGATTACATACTTTGATTGTATGTGGTAACTGGGTAATATATTTCAATGGTACTCTTGATATTGAAAATTAATATTCAATCCCTTGTATTTTTCTGTTTTATGGTAGGTGCAAGTGAGGTGACATATGGTGTGTTGCACCTACAACGTGCACCTTAGATTTTTTAATTTTACCATCGAGTCATAATATTCACAAGATCTTTCTTAGTAAATGAATGATGGATTTTATTTATTTTCTTATTATTATACTAAATCATGTACGTGGAACTTGTTGGGATGACTTTTTTAAAATATAATCTTTAAAACGGGGAGTCCTCAACTTGTTTTTAAAAAGAAATCCTTGCATTTCATGCTTCGTTATATTTATATGATCACCTCACTTAGGCTTGCTTGTGCCTGGCGTTTAAGCTCTAAGGGCTATGCTCTCGGTTGTGTTCCACAATGTAAAAGACAACGACTATATGTGATTTTTTTCTCGACAATTTAAACAATCATTTGAGTAATTGGCTGCTGTGATTCTAATCAATTTGGTATATTGCTGCTGAGTACTCACTTCTTTCTTTTCCCGTTTTTTCCTTCCTTGGGTGGCTTTGAGGTTGATCATTTTCCTTCTCATCAATCTCCAAAAACTAGCTGAATGTTTACTGGAATATATAGTTTACTCATCTTGTCATCTTGTCATCTTCTTACTCCAGTTACTTCGTATTGAAGGTTATTGAACACAAACCCTATGATCACAAGGCTGATGTTTTCAGTTTTGGAATTGTCTTATGGGAGCTGCTAACCGGAAAGGTACAACCAATGGCGATATACGATTTCTCTCCCTTGTTATGGCATGTTTGGGAGTGATTTTAAAATAGTTAAATTTTTTTGTCATGTTCAAAATCATTTCAAAATATGTATGTAATCATTCAAAATGTGATTTTATACTTTTAAACACGATTTTCATGCTACTAAAGTTGCTTTTGAATCAATAAAAGCCTGTTTTTATTATCACTTCAAAACATCACTATGTTCATTCCTTTTCCCTGCAACATAGTTCATAGCTTTTTTGCTTTCTTATAAATGATATTCGTCTGTTTTGCTTTGCCAGCTACCTTATGAATTCCTAACACCATTGCAAGCCGCAGTCGGAGTGGTACAAAAGGTATAATTTGATTCCATAAAATTTAGCTTTATGGTATTTTGAATTATGAATCTTCCATTGTAAAATTCTAGCTAGATTTATATAATCTATCTACAAAAGTTACATTTGAGGAGGCCGGATTTTGAGAGTTTTTTTTTTTTTTTTTTTGAGAGAAAAGGAGAGTATTTTCCTTCCAATCATTAGAATGTGTGCTAGATGTGATGCGATGCGATCATTTAATTCAATTATTTGTAGGATTTTTAGTTTAACAAGATGTGAAATGAGAGATTTAAACTTGTAACCTGTTAATTAAAGGTATATGTCATATCGTTGGCCAAATCTTTGTAGTCTAATTAGTCGTGCATGTTTCTTCAGGGTTTACGGCCTACCATTCCTAAGCACACTAATCCCAAGCTGGCTGAGTTGCTAGAAAAATGTTGGCAGCAAGATCCATCATGCAGGCCTGACTTCTGTGAAATTATTGATATATTGTTGCAGATAAGTAAGGAAGTAAGTTCTCGATGACTTGCCTTTTTATTATTATTATTTTTTTAATCTACAATTTTCTTATGTTTTCTTAAAAAAAAACAAAAACAATATGCTAAAACTTAGTTCGTCACATGATGATGTTTCCTTCAAAATTAAGATCTCTGCTAATTGATTCCGCGGGACGAAATATAACTTTTACACTCCTCTCCGCCTAAGAAACGATGTACTATTTATACCCATACAAAAATTTAGGCCCCATTTGGTAACTGTTTGGTTTTTAAAAATTAAGCTTATTTCTCCTTTCAATTTCATACCATGATTTGCATCTTTCATAAGTAAGAGAGTTGAATTCTTAGTCGAATTCCAAAAACAAAAACAAATTTTTAAAATCCATTATTTTTAGTTTTCAAATTTTGGCTTAGTTTTTTAAAACATTGGTAAAAAAAAAATGTTTTAAAAAATAGTGTTGGAATGGTTGGCTTATAAGCTTAACTTTAAAAATAAAAAACTAAAAACCAAATAGTTACTAAACATGACTTTAATTTGAAATTGTATTTGTTTCGATCTCTTGAACTTTTAAAGCTATGTTTGATAACTATTTGATTATTATTATTTTTTATTTTTATTTTTAAAAGTTGAGTTTGTTTTCTCACATTTTCTTTATCATGATTTTCAACTTTTAAGTAAATATTTGAATTCTTAGTTCACTTCCAAAAACAAAAACTACTATTTTTTTTAGTTTTCAAAATTTAGCTTGGACATTGAAATCATTTCTAAAATGTTAACAATACAAAAAAAAAAATAATAATTGTTTTAGTATTCTATTTAATTCTTTAAACTTTGTATTACAATAGTGTATTATTCCTGGCTAATTTTTTTTATCAATCATCTTACAATAGCTTAAATTCATATGGAACAAATTAGACTAATGAATATAAGATATGTTCTTAAGTTTCTATCAAATAATTTATTAAAAACTGCAGATTATATACACACTAAATGGCTCGTAATATTAATTTAGTTCTTAATTTTTTAAAATTCTCATTTCTCTTGTATTAAAAGCTTTCAATTAGGTAATCTCAAAAAACAGAATTGCTAAATTTTGTCAAATTTTATTTATTATTATTATAATGCTATTAACATGTTTAAAGATTTGGTAAAAAAAAAAATGTTTAAAGCTACTTGAGTCATAAAATCAATTAACCCATCAACAAAATTCATTTATGTATTTTTTTTAAGACAAAAAATTCATTTATTTGAATTAGCATGCGACTGGCCAAATATGTTTACAAAATGATAAATATATAACGAACACAAAACATACTTTTCTATGAATCACTTGATTGAGAATCGTACCATACGAGTAAATTTGAGAGTTTTAAAAGATTCAGTCCAGAATTTAGTCTTTATTTTATTTTAAAAATTAAAAATTACAATAGTTTTTTTCCCCTCTCTTTCTCCCTCGATTTTATTCGACGATTTAAATAGAATAATTGAGGAAATTTCATGATAGGATTTAAAGATTTTTTTATGAATGTCATCTGAAAACGTACTCCGATCTTGAAGTAACATTTGTTCCAAATTAAATATATAATCATAATAATATTTTGAGCAGGTAGCTGAAGACGGCGACGAACGAAGAAAGGAGAAGAGTGGAGGATTATTTTCTGTGTTGAGACGAAACCATCACTGAATGGTTATGGAGGATAACGAGAGCTGTGGGAGTAGAGCGTACGACTCGTTGTCGCCGGCGCAGAGTCGGCAACAGAGGCAGAAGTTTGAGGTCTACAATGAGGTTCTACGGCGTTTGAAGGATTCAAACAACGAGGAGGCTATGCAGCCTGGTTTCGATGACGAACTATGGGTCCACTTCAATCGTCTTCCCACTCGATATGCTCTAGACGTAAATGTGGAGAGGGCAGAAGATGTTCTCATGCATAAAAGATTATTGCAATTTGCTCACGATCCAGCAAATCGACCTGCAATTGAAGTCCGCCTAGTGCAGGTCCAAGCCACTTCTGACGAGAATTCTGCGGAATTTGCTGATTCATGTCCTGCAAAAGACACTGACCATAATTCTGCAAATTTCTTGGGCAGACAGAGCATACATCCACCACCTGCCTTTGGGTCATCTCCTAACCTTGAGGCCTTGGCCCTTGAAGCTAATAACGCTCAGGATCTGGAGGTTGATCAGTCTGTACATGCCAGAACACAGTTTTTCCGGCCAATGCATGAAATCACCTTCTCTACGGATGATAAGCCGAAACTTCTTAGTCAGTTGACTTCCTTGCTTGCGGAGATTGGGCTGAACATCCAGGAGGCACATGCATTTTCCACTGTTGACGGTTACTCATTGGATGTTTTTGTAGTTGATGGTTGGCCCTATGAGGAAACAGAGCGATTGAAGACTGCACTAGAGAAGGAAGTCTTACAGAGTCATGTTTGGCCAAATCATAAATCCTCGTCTCCTGTGAGGGAACTTGATATAACAGCTAAATGTGAGCCTGATCGGGTGGAAATACCCACAGATGGGACCGATGTATGGGAAATTAATCCTAGACATTTGAAGTTTGAGCATAAAGTTGCATCTGGTTCATATGGGGATCTGTATAAAGGTACATACTGCAGTCAGGAAGTGGCTATTAAAGTTCTCAAAACTGAACGTGTAAATACAGATATGCAAAGTGAGTTTGCCCAGGAGGTATATATTATGAGAAAAGTAAGGCATAAGAATGTCGTACAGTTTATAGGTGCATGTACGAAGCCCCCAAGCTTGTGCATTGTAACAGAATTTATGTCTGGTGGTAGCGTCTATGACTATCTACATAAACAAAAGGGAACTTTTAGGCTTCCATCTTTGCTCAAGGTAGCTATTGATGTCTCCAAGGGAATGAACTATTTGCACCAAAATAATATAATTCACAGAGATCTAAAGGCTGCCAATCTTCTTATGGATGAAAATGAACTACCTTATGAATTCCTAACACCATTGCAAGCCGCAGTCGGAGTGGTACAAAAGGGTTTACGGCCTACCATTCCTAAGCACACTAATCCCAAGCTGGCTGAGTTGCTAGAAAAATGTTGGCAGCAAGATCCATCATGCAGGCCTGACTTCTGTGAAATTATTGATATATTGTTGCAGATAAGTAAGGAAGTAGCTGAAGACGGCGACGAACGAAGAAAGGAGAAGAGTGGAGGATTATTTTCTGTGTTGAGACGAAACCATCACTGA ATGGTTATGGAGGATAACGAGAGCTGTGGGAGTAGAGCGTACGACTCGTTGTCGCCGGCGCAGAGTCGGCAACAGAGGCAGAAGTTTGAGGTCTACAATGAGGTTCTACGGCGTTTGAAGGATTCAAACAACGAGGAGGCTATGCAGCCTGGTTTCGATGACGAACTATGGGTCCACTTCAATCGTCTTCCCACTCGATATGCTCTAGACGTAAATGTGGAGAGGGCAGAAGATGTTCTCATGCATAAAAGATTATTGCAATTTGCTCACGATCCAGCAAATCGACCTGCAATTGAAGTCCGCCTAGTGCAGGTCCAAGCCACTTCTGACGAGAATTCTGCGGAATTTGCTGATTCATGTCCTGCAAAAGACACTGACCATAATTCTGCAAATTTCTTGGGCAGACAGAGCATACATCCACCACCTGCCTTTGGGTCATCTCCTAACCTTGAGGCCTTGGCCCTTGAAGCTAATAACGCTCAGGATCTGGAGGTTGATCAGTCTGTACATGCCAGAACACAGTTTTTCCGGCCAATGCATGAAATCACCTTCTCTACGGATGATAAGCCGAAACTTCTTAGTCAGTTGACTTCCTTGCTTGCGGAGATTGGGCTGAACATCCAGGAGGCACATGCATTTTCCACTGTTGACGGTTACTCATTGGATGTTTTTGTAGTTGATGGTTGGCCCTATGAGGAAACAGAGCGATTGAAGACTGCACTAGAGAAGGAAGTCTTACAGAGTCATGTTTGGCCAAATCATAAATCCTCGTCTCCTGTGAGGGAACTTGATATAACAGCTAAATGTGAGCCTGATCGGGTGGAAATACCCACAGATGGGACCGATGTATGGGAAATTAATCCTAGACATTTGAAGTTTGAGCATAAAGTTGCATCTGGTTCATATGGGGATCTGTATAAAGGTACATACTGCAGTCAGGAAGTGGCTATTAAAGTTCTCAAAACTGAACGTGTAAATACAGATATGCAAAGTGAGTTTGCCCAGGAGGTATATATTATGAGAAAAGTAAGGCATAAGAATGTCGTACAGTTTATAGGTGCATGTACGAAGCCCCCAAGCTTGTGCATTGTAACAGAATTTATGTCTGGTGGTAGCGTCTATGACTATCTACATAAACAAAAGGGAACTTTTAGGCTTCCATCTTTGCTCAAGGTAGCTATTGATGTCTCCAAGGGAATGAACTATTTGCACCAAAATAATATAATTCACAGAGATCTAAAGGCTGCCAATCTTCTTATGGATGAAAATGAACTACCTTATGAATTCCTAACACCATTGCAAGCCGCAGTCGGAGTGGTACAAAAGGGTTTACGGCCTACCATTCCTAAGCACACTAATCCCAAGCTGGCTGAGTTGCTAGAAAAATGTTGGCAGCAAGATCCATCATGCAGGCCTGACTTCTGTGAAATTATTGATATATTGTTGCAGATAAGTAAGGAAGTAGCTGAAGACGGCGACGAACGAAGAAAGGAGAAGAGTGGAGGATTATTTTCTGTGTTGAGACGAAACCATCACTGA MVMEDNESCGSRAYDSLSPAQSRQQRQKFEVYNEVLRRLKDSNNEEAMQPGFDDELWVHFNRLPTRYALDVNVERAEDVLMHKRLLQFAHDPANRPAIEVRLVQVQATSDENSAEFADSCPAKDTDHNSANFLGRQSIHPPPAFGSSPNLEALALEANNAQDLEVDQSVHARTQFFRPMHEITFSTDDKPKLLSQLTSLLAEIGLNIQEAHAFSTVDGYSLDVFVVDGWPYEETERLKTALEKEVLQSHVWPNHKSSSPVRELDITAKCEPDRVEIPTDGTDVWEINPRHLKFEHKVASGSYGDLYKGTYCSQEVAIKVLKTERVNTDMQSEFAQEVYIMRKVRHKNVVQFIGACTKPPSLCIVTEFMSGGSVYDYLHKQKGTFRLPSLLKVAIDVSKGMNYLHQNNIIHRDLKAANLLMDENELPYEFLTPLQAAVGVVQKGLRPTIPKHTNPKLAELLEKCWQQDPSCRPDFCEIIDILLQISKEVAEDGDERRKEKSGGLFSVLRRNHH Homology
BLAST of HG10005616 vs. NCBI nr
Match: XP_038888531.1 (serine/threonine-protein kinase STY46 isoform X2 [Benincasa hispida]) HSP 1 Score: 980.7 bits (2534), Expect = 4.8e-282 Identity = 495/571 (86.69%), Postives = 502/571 (87.92%), Query Frame = 0
BLAST of HG10005616 vs. NCBI nr
Match: XP_038888529.1 (serine/threonine-protein kinase STY46 isoform X1 [Benincasa hispida]) HSP 1 Score: 975.7 bits (2521), Expect = 1.5e-280 Identity = 495/573 (86.39%), Postives = 502/573 (87.61%), Query Frame = 0
BLAST of HG10005616 vs. NCBI nr
Match: XP_008447912.1 (PREDICTED: serine/threonine-protein kinase STY46 isoform X1 [Cucumis melo]) HSP 1 Score: 964.1 bits (2491), Expect = 4.6e-277 Identity = 489/573 (85.34%), Postives = 499/573 (87.09%), Query Frame = 0
BLAST of HG10005616 vs. NCBI nr
Match: XP_004144866.1 (serine/threonine-protein kinase STY46 isoform X1 [Cucumis sativus] >KGN43310.2 hypothetical protein Csa_020243 [Cucumis sativus]) HSP 1 Score: 958.7 bits (2477), Expect = 1.9e-275 Identity = 485/573 (84.64%), Postives = 497/573 (86.74%), Query Frame = 0
BLAST of HG10005616 vs. NCBI nr
Match: XP_023553632.1 (serine/threonine-protein kinase STY46-like isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 949.1 bits (2452), Expect = 1.5e-272 Identity = 482/571 (84.41%), Postives = 489/571 (85.64%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy Swiss-Prot
Match: F4JTP5 (Serine/threonine-protein kinase STY46 OS=Arabidopsis thaliana OX=3702 GN=STY46 PE=1 SV=1) HSP 1 Score: 678.7 bits (1750), Expect = 5.1e-194 Identity = 364/584 (62.33%), Postives = 426/584 (72.95%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy Swiss-Prot
Match: Q8RWL6 (Serine/threonine-protein kinase STY17 OS=Arabidopsis thaliana OX=3702 GN=STY17 PE=1 SV=1) HSP 1 Score: 604.7 bits (1558), Expect = 9.4e-172 Identity = 331/570 (58.07%), Postives = 389/570 (68.25%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy Swiss-Prot
Match: O22558 (Serine/threonine-protein kinase STY8 OS=Arabidopsis thaliana OX=3702 GN=STY8 PE=1 SV=2) HSP 1 Score: 560.1 bits (1442), Expect = 2.6e-158 Identity = 312/550 (56.73%), Postives = 372/550 (67.64%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy Swiss-Prot
Match: Q55GU0 (Probable serine/threonine-protein kinase DDB_G0267514 OS=Dictyostelium discoideum OX=44689 GN=DDB_G0267514 PE=3 SV=1) HSP 1 Score: 164.9 bits (416), Expect = 2.5e-39 Identity = 90/260 (34.62%), Postives = 132/260 (50.77%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy Swiss-Prot
Match: Q9ZQ31 (Serine/threonine-protein kinase STY13 OS=Arabidopsis thaliana OX=3702 GN=STY13 PE=1 SV=2) HSP 1 Score: 159.8 bits (403), Expect = 8.0e-38 Identity = 91/279 (32.62%), Postives = 138/279 (49.46%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy TrEMBL
Match: A0A1S3BII9 (serine/threonine-protein kinase STY46 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103490257 PE=4 SV=1) HSP 1 Score: 964.1 bits (2491), Expect = 2.2e-277 Identity = 489/573 (85.34%), Postives = 499/573 (87.09%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy TrEMBL
Match: A0A6J1HYV1 (serine/threonine-protein kinase STY46-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111468158 PE=4 SV=1) HSP 1 Score: 949.1 bits (2452), Expect = 7.5e-273 Identity = 482/571 (84.41%), Postives = 489/571 (85.64%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy TrEMBL
Match: A0A6J1GL21 (serine/threonine-protein kinase STY46-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111454936 PE=4 SV=1) HSP 1 Score: 948.0 bits (2449), Expect = 1.7e-272 Identity = 481/571 (84.24%), Postives = 489/571 (85.64%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy TrEMBL
Match: A0A6J1I1E8 (serine/threonine-protein kinase STY46-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111468158 PE=4 SV=1) HSP 1 Score: 944.1 bits (2439), Expect = 2.4e-271 Identity = 481/573 (83.94%), Postives = 490/573 (85.51%), Query Frame = 0
BLAST of HG10005616 vs. ExPASy TrEMBL
Match: A0A6J1GKW4 (serine/threonine-protein kinase STY46-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111454936 PE=4 SV=1) HSP 1 Score: 943.0 bits (2436), Expect = 5.3e-271 Identity = 480/573 (83.77%), Postives = 490/573 (85.51%), Query Frame = 0
BLAST of HG10005616 vs. TAIR 10
Match: AT4G38470.1 (ACT-like protein tyrosine kinase family protein ) HSP 1 Score: 678.7 bits (1750), Expect = 3.6e-195 Identity = 364/584 (62.33%), Postives = 426/584 (72.95%), Query Frame = 0
BLAST of HG10005616 vs. TAIR 10
Match: AT4G35780.1 (ACT-like protein tyrosine kinase family protein ) HSP 1 Score: 604.7 bits (1558), Expect = 6.6e-173 Identity = 331/570 (58.07%), Postives = 389/570 (68.25%), Query Frame = 0
BLAST of HG10005616 vs. TAIR 10
Match: AT2G17700.1 (ACT-like protein tyrosine kinase family protein ) HSP 1 Score: 560.1 bits (1442), Expect = 1.9e-159 Identity = 312/550 (56.73%), Postives = 372/550 (67.64%), Query Frame = 0
BLAST of HG10005616 vs. TAIR 10
Match: AT2G24360.1 (Protein kinase superfamily protein ) HSP 1 Score: 159.8 bits (403), Expect = 5.7e-39 Identity = 91/279 (32.62%), Postives = 138/279 (49.46%), Query Frame = 0
BLAST of HG10005616 vs. TAIR 10
Match: AT4G31170.1 (Protein kinase superfamily protein ) HSP 1 Score: 158.7 bits (400), Expect = 1.3e-38 Identity = 92/279 (32.97%), Postives = 137/279 (49.10%), 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:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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