HG10017890 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTGGCTCATGGGGGTTTGAGCGCAAGTGATAGGCTGCGGTCTAGATATCCTTGTCCTTTTGCCAAAAAGGTGCACAATGTGCTACAAGTAGAAAGAATTGCAAAGTTACCTTTTTCTGCTCTTTTCTTTTGCACATCAATATTGGTCCTCTTTCCTTTTGCACAAAAATATTGGTCCTTTAGCTTGAGCACTTCAACTAGAGGAGTGTCTTGCCTATTTGAATAAATGACCTTTCTTATATCTTAGTAGGTCATCCTTTGAACAAAGAAAAAGGAACACGTTGGACTCTAATTGTGGAGCTTCCCTTTGGAAACTATGGTCAGAGAGGAACAATTGCACTTTCACAGATACTAGCAATTCATGTTAGAACTTTGATGCTGTTTGTTGGCCATGTATGAGTGTGAATGTATACATCTTTTTTTGAGTATAGCTTCAATACCTTTTGGGCCTAGGGGAAAAGTTCTCTTATAACCACTCTGGTCGCTTGAATGGTTCCCTCTCGTTTGAACATTTCATTTGATTAATGAAATTCTATTTTCCTCTCATATTTGAAGATTACGACATGTAGGAGTTCATTGGGTGTTATCTCCTTTGGTAGGTGACTCCAGATGGTCACCCCCGCTCTTGCTTGGTTGAATTAACCTATTAAGTTTGCCACTATGCTCAACCTTAAGTGTTGAGAGTTTGGAGCCCTAATCCCTTGGAAGGGTTCTCGTGCAAGTCCTTCTTCCAATGTTTGGTTAATCCTTCTCCTTTGGGTGAGTTGGTCTTTTCGTCGTTGTGGAGGATTAAGATCCCTAGAAAGGTTAGATTCTTTACTTGGCAGGTTCTTCACGGCCGTATTAGTACGTTGGATACGCTTGTTAGGAAGATGTCGTCGATGGTTGGGTCTGTCTGCTGTATTCTTTGTTGAAGGGCGAGGAAAACTGGATCATATCTTGCCGTTGTGAGTTTGCGAGCTTTGTCTGGGACTATTTTTTCCAAACATTTGACATAAAGTGTGCTCATCACAGAAATGTTAGAGATATGATTGAGGAGTTTCTCCTCAATCTGCTGTTTGGGGAGAGAAGTCTTTTTCTCTGGCTTACTAATGTTTGTGCTATTATTTGGGTGTTGTGGGGTGAGAGGAATAGCAAGGTGTTTAGGGGGGTTGAGAAGGATGCTAAAGAAAAGTTGTCTCTTGTTCGTTTTCATGTTTCTCATTGAGCTTCAATTTTGAAGGTTTTTTGTAATTATTCTATAGACCTGATTTTGTATAGTTTGAGTCCCTTCTTGTAGAGGGAGTCTCCTTTTTTGTAGCCTGGATTTTTGTATGCCCGTGTATTCTCTCATTTTTCTCAATGAATGTTGTTGTTCTTTAAAAAAAAAAAAAAAACCCTTAAGTGGTGTGGGGTGTTTGAAATTACTACACCAATATGCCTTTTTCTACTCAAAACATTTTATTATAGGCTTTCAAGATAAAAAAATGTAGAATATTCTAAAATTATGGTAAATCTAAAGGGTAGTCTGCATCTTCTGTTTTTGTTTTAAAACTATTTTTATGAACAATTTTGGAGTGACTTGTAAAAGTAAAGATTATTGTGCACTTGAATCCTATTTATAATATAGTGGTAAATTACCTTCACCTATTTAAAGAAAAATAATTACCTCTGGAAAACAATTATGAGTAAAGAAGAGACAAGAGATTAAAGAAAATAGTTATCTATACAGATTGTGGGCTAGATTGGAGCCCCTTTTTTTTTAGTTTAGCTCCCTTTTATGGGTCTTTTCTTTTGTATGCCCTTGTATTCTTTCAGTTGTTTCTCCATTAGGTTCTGCACTTCATAATTAAAAAAAAATTAAAATCTATACATGTTTTCACTAAATTTTTCTCCTAAAAAATAAAAGACTTTTCCAAGATGCTCCCAAATCTCCTCTATTTTTCAGTATTTGTTTTGAATATGGGAAATGGTTTAAATATATATATACTGATCTTTGTAGCGATGCGAAATTAGTTCTTGAATGGGAGCCCTTTATTTTATTTTCTTTAGTTTACTGTGGTTTTTTTGGCTTCTCTTGGGGTGGTCATTTTTTGTACGCCTTTTTGTATTATTTCATTTTTCTCAATTAAAGCTTGGTTTCTTTTATTAAAAGTGTTAAAGTTAATATTGGCTTATGAATTTTGGTTTCCATTAGGGATGATTGTAATATATACTTAGCTTGTGATTTGTATTATGAAAGTCATGATGTTGTACTTGACGTATGCAGGCTGGTTGCGCCAGGTTTGGGAGCTCAATTTCACTGCCGACCATTATGGTAATATATATTAAAGTACATATGGTGATTACACAGCCAATTTCATTATTATTTTTTGAGGAGGAAATTATTCCGTGTTTGCATGTGCGAAGTATAAAAAATCTATTTCTATTTACTCCATTATGGAGTTTGTATCTTTAGAGCGTTAGTCTCTTTTCATTACATCAATGAAAAGTTTGTTTCTTGTTAAAAAAAATGAAAAGTATAACAGAAGGCATGGACTCAACTGCCAAAAGGAATTGCAGAAAAGTACACTACTTGGCATTTATAACAAGTGGAGTTTCCTGATATTTATTTGATGTATTCAAAATATGTATTGCATGGGTATTGTGATGAGATGGTGTCATATTTTTAAAAAAGTTTTATTTTTAATTTTCAGAATTACCTGCTTGGAGCTTTTAAGCCATCTTGCACCGTATCAATTGCATTTTCGGATGGAAAAACACGCAAGCAGGTATCCCATTTACAGTAATTAGATAATGAGAGAAAATGTTTGTTCCAATTCTCATTTCAGTCGGGTTTTTGAAATAACAACAGGTAGTATCTACATAAGCTGTCTTTGTAAGCCATTGAGTTTTGCAAAGCTTTTTGCTCAGACTTGATACTTTGCAGAATATAGTTATTTTATTTCACTATTTTTCTCAACAAATTTGTTCTTTAGGTTCCACTAAAGAAGGAAAATGGTCAGACAGTTTTGGTTCCCCTCTTCCAAAGTCAAGAGAATATTACTGGGAAGGTATAATTATATTTTTTTGTGATGTAAACATTTTCTTTATCAATCTTTATGAACTTTATTTTTTCTATTGGAGACTGTTAGATTCCAATTGTCATTTTTCATATTGTGCTTCAGATAACTATAGATCCTCTACAAGGAAAGAAAGTTGATCACAATGGTGTTAAAATTGAGCTTCTTGGTCAAATCGGTGTGCACTTCTGCTGCTTTCACATCATGATAATTTTCTTATATTTGTCAATATATACATTTATAACATCAGCAAGTTTCTCTCTTTAGCACCAAATCATTCCCTTTTATCTTCTAGCTTTGAAGTTATTCTTATTGGCTTTATATTTGTGTGTGGATGCCACATGTTATTGAGGATGCTGCTACATGGCCTCGTTATTTTATTATTATTATTATTTTTTTTTTAATTTTTTACCATCACCTTGTGCTACTATCCAATCCAACAACCTTGCTTATATTGACACCGTTTCTCTCTTACTTTGAGTATTTGATATTAAGTTTGTTTTATATTTTATTTATTTATTTTTTTTGCAGAGATGTATTTTGATAGAGGCAACTATTATGACTTTACTTCTCTTGGTAAGTATTATATGTGTTTTATTCTGTCACTGTTTGAACTTCACTCATTACAAGGAAAAGATATTATGGGACTGCAAGGGGAGGCAAATTAAAATTCCATTATTTTTGGATGCGTACATTATGATGTTTTTTGCTTCATTGTTATTGTACATGTGGGACATGTTTGTCAGTATTTAACTTCTATTAATTTTTCCAGTTCGTGAATTGGATGTTCCGGGAGAAATATATGAAAGGAAAACATACCCATTCGAATTTTCTACGGTTGAAATGCCTTATGAGACATATAATGGGGTGAATGTGAGGCTGAGGTACATAGGCTTTTGCAATTAAGATCTTTCTTTAATAATGTGGCTATCATCTTTTCTGCTGGCGACTCTTTTAAATGTTTACAGCTTCACACTGGTAATGCATTTCTTGTTATTGATGCATAATTATTTGTTTGATTGCTATTTATATATTTCGGACATTTGTTAAATGGTGCATCATGATATTAGAACATTTTCTACTTTTAATATTTCAATTTTGTAAACTAAGATTTTTCTGGTCCGTTGTTTTCTGAATTTCCTTTCCTAGGTATGTTCTCAAAGTTACCATCAGTCGCGGTTATGCTGGTAGCATAGTGGAATATCAAGACTTTGTGGTAACACTTACCTCTTTTTCCTCGGGCATAGCATGTTGGTTTTAATAATGGTAGCAGACGAACATGTTGATCATGCATGAACGCCGTAGACTAGTAGTTTCACACGTGCATTGCATGAGGCATATTCTCTAATAATGACATGAAGTCTCCTGGTCTTACGTGTTCTTCATTGAGTTCTCAAAAAATCATAAGATCATTTTGAATTTCAAGAAAAAAAATGTTTCAGTTATTTTATTATTATTTTGAAAATGGCATCATTAGCTCTTGCATCGTTGAAATGTTTGTGTGCCTCATACCTAAATTCCCAACTGTTGAAATTAGGATATTTCTGCCCATTTAGTTTGGCCTCAAGTCTTTGTAAAGTTCTAGTAGAAGTACTCTTTGAAACGTTGTTATGGTGCTTTCGTCAACTATCTCAAGAACCTGTTCGCCGTTGTATGTGGAATGCATATTGCCCTTAACAACCATTTCCGAACACATTTTTCAACAACACATCGGAAAAACTGCTTGTTGTGTTATATAAAACATTTCAGAATGTTAGACAAATTGCGTTATTTTTCCTCATTTAGTATATTTACTGGATTTTCTTTTCTTTATTACTAGTATAATTTTTTTAGGCTAAACTATACAAAATACCCTTAAACTTCCACAAGTAGTTCAAAAATACCCTTACCGTTAGTTTGGATGAAAACTGTTAGTATTTTGTGTCAAAAATACTCTTAAACTTTCAAAAGTTTAAAATTCCCTTAAACTTAAAACAAAAAAAGTTAAAAAATACCCTACTGTTGGTATATGAAATAAAATCGTTAATCCCCTCTCACTTCTCTATTTTCCCTCTTTTTTCTCTCCTATCTTCTTCAATATCCTCCTTACTCCTACTTTTGTTAACTATTTGACCTTTGTTTATCTAAAAACAAACAAACAAACAAACAAATAAATAAAATTGTCCACTTCAGTTAAGATATATAGGCTATAACAAGAAGAAAAAGAATAATGGAAGCACAAAGAGATGTTAGGACTTAAATATTTTAACCAGGTTGTACGTTAGTACATAGTTGAGTGTGTGTAAATAACCAAATACATTTTTTTTTTTTTTTTTTTTTTTTTTGTATTTGGCTATTGATCATTTAGGTATGTTTTAAAGGGAGATTTGGATTTTGGAATTTTGTGAGATTTTGTGGGATTTTATATTTTTTTAAACAGAAACGAACTTTTCATTGATTTAATGAAAAGAGACTAATGCTCCAAATACAAGCTTCAAAATACAACAATACCTAGTAATGATCATAAAAACCATAGTACTATGGATCAGTAGGTGTTTGTGGGCTTTTATGTTTTGGCTTTTGGTTTTTATACTGGTTGCTAAAAAAGTTGGTGTAAGGACTGGATAAATAGGAGAAAAAAGGGAGTATCTATATGAAAAAAAGAGAATATTGGTATAATTTGTTTTAAAATTGGTTCTTTTCAAACTCAAAAAAACTTCAAACAAATTGATCAGTCATCACTATACTAATGGTGGGAGCATTGTTAAACTTTTTTTAATTTTTTTCCCCTAAAATTTTAGAGTTATTTTGCTAGGAGGTATTAACGGTTTATGTTCATATAGTAACAGTAAGGGTATTTTTGATTTTTTTAAGTTTTTTCAAGGGATTTTGATACTTTTGAAAGTGGTTGAGTATTTTTAAAACTAAACACTAAGGTAAAGAGTGTTTTTGAAACCCCTTTTTGGAAGTGTAAGGATATTTTTGAGACTCTTGAAAGTTCAAGAATATTTTTTACACGAAGTATAAGGACATTTTTTACAATTTAACATTTTTTTTATATGTAACCAAGTTCTTATTGAGGAACATGGAAGGATGCACAAGGGAATAGAAAGAACAAGCCCACAAAAGGAGCCATTCACTACCTACAAGAAAGGACCCCAATAGAAAAGAATATGTCCCAACTGATAAATTTATAATTACAAAAAGTTCGGATTGCGGATACCCATAAAGCGGCATTTAGCCTCGCCACCTCTCACATCTCCAAAAACTTCCAACCTCTCTAAAGATTCTACTATTTCTCTCTATCCACACCCCACAAAATAGCGAAGGAAAAAGCTTGGCCACAACATTCTTCTCTTTTTGGGAGAGTTCATTTGGATCACCTCAATCAGAAAACAACAATCCTTGTTCCGCACCTAAGCAACCTCAAACACACTGAAGCAATGGCTCCAAAGAAAATGAGCAAATTGAGAGCTCTACAAAAGATGATCTGGATAGTGCTTATTATATCTACATAGAACACACCATTGCGGGTATGACACATGGGAGGAGTGCTGCTGGATACGGCCTTGAGTGTTACTCTCCAATGCAAGATTTTTCAGGCAAAAAACTTACTTTCTTGGGGATTTTAACCTTCCAATGAGAGAAGAAAACAAAGGCTCCTTGATTGAGAGAAGGGGAACAAAGAATATGGAAATACTAACGGTAAGGGAACTCCTCAAAAGAAAGTGCTCAATAATTGAGCCTTTAATTCGAAATAAGAGAAAGAAGGTTGTGAGGGCTTCTATTTTGTAGACTTATGCAAGGAAAGGTGAAAGTGAGAATTCACCCACTGACGGTTAGTAAGTGGAACGCGTCTGTGTCTGTGTTTGTGTGTTTGTACACGAGGGACAAGAGTATTAGTAGGGGGCAGATCTTATTGTTGTTGCAGTAGAATGGTAAAGGATACCTTTCAAAGCCCACCACCTCTAGAGTCTCTCCATTGGTAAGAGGATGACAAGAGCCCATAGAGAGCGAAGAAGACAACTATGGGGATGCCAAAATATTGGCCACAAAGTACAACCCTATATCAGAAAAGTGATAAAGTTACGGGAACAACACAAACAGGGGCTTCTCGCCTACCCAAAAATCCTCTCAAAATAGGTCTCAGACCCTTCCCTGATAGAGCATTTGATGAATGCGGGAAAAACAATTGAAAGCTCACAACATTAGCAGTCCTAAAATTTTTGCTCAAGCCCTTCAACCCACCACTTGGAAACCACTCAAAAGGGTGCGGTCCATACTTATTATGATCTCATACGAACGAGCATGTGGTTCCCTGAAGAACCACTACAACCACTTAGTTGGCAATTTGGCATAGCTTCATTCCGAAATCTCAGGTTCTTTATGCCTAATCCTCCAGCCTCCACTGGTTTTGAAACCACCTCTCACCTAAGTAAATGAGATCTCCCATCCTTCTCAATTCCTTCCCATAGAAAAGACCTCCCCATCAAATGAGATCCCCCACCCTCGTTAATGTCTCTTATCCTTTTTATGTGTCATTAACTACAAAGAGCCCCCAGTTTTCTACTGTTTTCTGAATATATAACTAGGGAAGCATTTGTAGCTTGGTTGTGTTCTGGCATATATTTGGGTATTGGATAAATAGTAGCAGATGGACGTAGTAGGAGGGCAGCAAGCTATTGGAGTTTCATTCTCTTTGTTTCATTTTATGGACTTCTACTGCTACCGGATTTTAGATTATTTCTTTTGTGATTTCTTGTGATGGGACTTATGCTTGTTAGATTCTTGGGTGTTTAATTCATTTGCTTTTTTACCCCCTCCCCCCCTCTAGGGTCTGTTTTATTTATATTTTTGCCCACACTGTCCTCTTTTCTAGCTTATGCTGTCATATAGTGTACTTGTATCTCTAGCATGGGAAGTTCCATTTTACTAAATTATGGAGGTTGGTGGTACAAGAAGTCTGAACTATTGTTTACCATAGCGTTGTCTCTTAGCATGTTAATTGCACCAATCATCTAGCCTATGTGGATACTGTTACATTTAAGCTTGTAATCGTTGATTTGCATCAGGTTCGCAACTATTCTCCACTTCCATCAATTAATAACGGTATCAAGGTCAGTACAGTAAAATACCTCATACCTTGAACATTTTTGCACAACTACTATGTTTTCTGCCGTTCACTTGTTTCCACAATGGACAAGCATTTAGTTTATGGTTGTTGACTCATCATGGAATTTTCACACTGGATTGAGTGGTATTTACTTCTTTCGAACTTTCTTGTGGATCTTTTTTGGTTTTTGGATAATAAACAACTTCATTCATGTATAAAATTTACCAAAAAAAGATAGGGATAAGAGCCCCAATCTAAGGGAGTTACAATAATCATCTCCTATTGGATAAAAGAGAGGAAAAAGTATAGGGTAAAACATCCAGATAAAGCATGGAAAAGAACACTATAAAAAAAGACCGGATAGACTTTTTCCTTTGATTAAAAAATCCTATGATTTCTTTCCATCCAAATTGACCAAAAGAAAGCCCAAATCAACCGATTGATTGTTTATGCACTGTGTAGATGGAAGTTGGAATTGAAGATTGCCTGCACATTGAGTTTGAGTATAACAAAAGCAAGTAAGTGGTATAGATTTTCTGGCTGAGTTTGAACTATGTTCTTATGAAATCTACCTCAACTTCATATCCGTTTCTTAAAATAGTTTTTTAAAAAGAAAAAAAAAAAGGATGAATTTATTAAATCTTCAAGGAAGTATTGATCCTTTTGTTACCTACAAGATCAAACTTCTATTGGCGTTTTCAGAAGCAGCTTGTTGGGTGTTTCATCACCTATTTTTAAAATTTTAAATTTTTTTGAAACTGGAAGCAATGGTTTTTCCCCTTTTCTAAGAGATGGAAGGTTATAAAATTAGTTTCTTACTAAGTGAAGAAAATTGGTACATACAGGTACCATCTCAAAGATGTTATCATTGGCAAAATTTATTTCCTGCTGGTGAGAATTAAGATAAAGAATATGGATCTGGAGATCAGGCGTCGAGAATCAACAGGATCTGGAGCTAACACTCATGTCGAGACAGAGACACTAGCTAAGTATGAGCTGATGGATGGAGCTCCAGTAAGAGGTGCGCTCCCATACTTACTTTTTTGTTACCTAATGCAGTGAAAGTCACGCATTTGTGTTACCAAACGACAAACCTTGTTTGTTTATTTTTTTCCTAGAAACAAACTTTTCATTTATATTTAAAAAGTAGCAAGGTACTAAACACCTAAAACAAAGCCGAACAAGCCGTAATCCTAAAATAAAAGACTACCGATAACAACGTTAAAAAACACAAGATATTAAACCTTGTTGCTAACATGGTATGTGGAAATGTAGGTTTTATTGTATTCCCCTTATGTGCTTTCATTTGATCCGAAGTTTGGTTACTTCATAAGAATGAGTGTGGAAAAGTGACAAAGATAGTCTGGATTGAAAGTTGTTTTTACTGGTCTTAGTTTTTAGTTGTCAATGAACCTGAAAGCTAAATATATAGCTTGTGCTTTCTTCTGTAGGTGAATCTATTCCAGTCAGACTGTTTCTTAGTCCTTACGAGCTGACACCTACGCATCGTAACATCAACAACAAATTCAGTGTGAAGTATTATTTAAATCTTGTTCTTGTTGATGAAGAAGACAGACGCTATTTCAAGCAGCAGGAGATCACTATATATAGGCTTCAAGAGACAACTTGAATGTTGGCTCATGGGGGTTTGAGCGCAAGTGATAGGCTGCGGTCTAGATATCCTTGTCCTTTTGCCAAAAAGAATTACCTGCTTGGAGCTTTTAAGCCATCTTGCACCGTATCAATTGCATTTTCGGATGGAAAAACACGCAAGCAGGTTCCACTAAAGAAGGAAAATGGTCAGACAGTTTTGGTTCCCCTCTTCCAAAGTCAAGAGAATATTACTGGGAAGATAACTATAGATCCTCTACAAGGAAAGAAAGTTGATCACAATGGTGTTAAAATTGAGCTTCTTGGTCAAATCGAGATGTATTTTGATAGAGGCAACTATTATGACTTTACTTCTCTTGTTCGTGAATTGGATGTTCCGGGAGAAATATATGAAAGGAAAACATACCCATTCGAATTTTCTACGGTTGAAATGCCTTATGAGACATATAATGGGGTGAATGTGAGGCTGAGGTATGTTCTCAAAGTTACCATCAGTCGCGGTTATGCTGGTAGCATAGTGGAATATCAAGACTTTGTGCATGTTAATTGCACCAATCATCTAGCCTATGTGGATACTGTTACATTTAAGCTTGTAATCGTTGATTTGCATCAGGTTCGCAACTATTCTCCACTTCCATCAATTAATAACGGTATCAAGATGGAAGTTGGAATTGAAGATTGCCTGCACATTGAGTTTGAGTATAACAAAAGCAAGTACCATCTCAAAGATGTTATCATTGGCAAAATTTATTTCCTGCTGGTGAGAATTAAGATAAAGAATATGGATCTGGAGATCAGGCGTCGAGAATCAACAGGATCTGGAGCTAACACTCATGTCGAGACAGAGACACTAGCTAAGTATGAGCTGATGGATGGAGCTCCAGTAAGAGGTGAATCTATTCCAGTCAGACTGTTTCTTAGTCCTTACGAGCTGACACCTACGCATCGTAACATCAACAACAAATTCAGTGTGAAGTATTATTTAAATCTTGTTCTTGTTGATGAAGAAGACAGACGCTATTTCAAGCAGCAGGAGATCACTATATATAGGCTTCAAGAGACAACTTGA ATGTTGGCTCATGGGGGTTTGAGCGCAAGTGATAGGCTGCGGTCTAGATATCCTTGTCCTTTTGCCAAAAAGAATTACCTGCTTGGAGCTTTTAAGCCATCTTGCACCGTATCAATTGCATTTTCGGATGGAAAAACACGCAAGCAGGTTCCACTAAAGAAGGAAAATGGTCAGACAGTTTTGGTTCCCCTCTTCCAAAGTCAAGAGAATATTACTGGGAAGATAACTATAGATCCTCTACAAGGAAAGAAAGTTGATCACAATGGTGTTAAAATTGAGCTTCTTGGTCAAATCGAGATGTATTTTGATAGAGGCAACTATTATGACTTTACTTCTCTTGTTCGTGAATTGGATGTTCCGGGAGAAATATATGAAAGGAAAACATACCCATTCGAATTTTCTACGGTTGAAATGCCTTATGAGACATATAATGGGGTGAATGTGAGGCTGAGGTATGTTCTCAAAGTTACCATCAGTCGCGGTTATGCTGGTAGCATAGTGGAATATCAAGACTTTGTGCATGTTAATTGCACCAATCATCTAGCCTATGTGGATACTGTTACATTTAAGCTTGTAATCGTTGATTTGCATCAGGTTCGCAACTATTCTCCACTTCCATCAATTAATAACGGTATCAAGATGGAAGTTGGAATTGAAGATTGCCTGCACATTGAGTTTGAGTATAACAAAAGCAAGTACCATCTCAAAGATGTTATCATTGGCAAAATTTATTTCCTGCTGGTGAGAATTAAGATAAAGAATATGGATCTGGAGATCAGGCGTCGAGAATCAACAGGATCTGGAGCTAACACTCATGTCGAGACAGAGACACTAGCTAAGTATGAGCTGATGGATGGAGCTCCAGTAAGAGGTGAATCTATTCCAGTCAGACTGTTTCTTAGTCCTTACGAGCTGACACCTACGCATCGTAACATCAACAACAAATTCAGTGTGAAGTATTATTTAAATCTTGTTCTTGTTGATGAAGAAGACAGACGCTATTTCAAGCAGCAGGAGATCACTATATATAGGCTTCAAGAGACAACTTGA MLAHGGLSASDRLRSRYPCPFAKKNYLLGAFKPSCTVSIAFSDGKTRKQVPLKKENGQTVLVPLFQSQENITGKITIDPLQGKKVDHNGVKIELLGQIEMYFDRGNYYDFTSLVRELDVPGEIYERKTYPFEFSTVEMPYETYNGVNVRLRYVLKVTISRGYAGSIVEYQDFVHVNCTNHLAYVDTVTFKLVIVDLHQVRNYSPLPSINNGIKMEVGIEDCLHIEFEYNKSKYHLKDVIIGKIYFLLVRIKIKNMDLEIRRRESTGSGANTHVETETLAKYELMDGAPVRGESIPVRLFLSPYELTPTHRNINNKFSVKYYLNLVLVDEEDRRYFKQQEITIYRLQETT Homology
BLAST of HG10017890 vs. NCBI nr
Match: KAA0041222.1 (vacuolar protein sorting-associated protein 26A-like [Cucumis melo var. makuwa] >TYK16025.1 vacuolar protein sorting-associated protein 26A-like [Cucumis melo var. makuwa]) HSP 1 Score: 590.1 bits (1520), Expect = 1.2e-164 Identity = 298/328 (90.85%), Postives = 302/328 (92.07%), Query Frame = 0
BLAST of HG10017890 vs. NCBI nr
Match: XP_008442185.1 (PREDICTED: vacuolar protein sorting-associated protein 26A [Cucumis melo] >XP_011653917.1 vacuolar protein sorting-associated protein 26A [Cucumis sativus] >XP_031740040.1 vacuolar protein sorting-associated protein 26A [Cucumis sativus] >XP_031740041.1 vacuolar protein sorting-associated protein 26A [Cucumis sativus] >XP_038883110.1 vacuolar protein sorting-associated protein 26A [Benincasa hispida] >XP_038883111.1 vacuolar protein sorting-associated protein 26A [Benincasa hispida] >KGN54841.1 hypothetical protein Csa_012283 [Cucumis sativus]) HSP 1 Score: 588.6 bits (1516), Expect = 3.6e-164 Identity = 298/325 (91.69%), Postives = 299/325 (92.00%), Query Frame = 0
BLAST of HG10017890 vs. NCBI nr
Match: XP_022158323.1 (vacuolar protein sorting-associated protein 26A-like isoform X1 [Momordica charantia]) HSP 1 Score: 586.6 bits (1511), Expect = 1.4e-163 Identity = 298/332 (89.76%), Postives = 306/332 (92.17%), Query Frame = 0
BLAST of HG10017890 vs. NCBI nr
Match: KAA0039997.1 (vacuolar protein sorting-associated protein 26A-like [Cucumis melo var. makuwa]) HSP 1 Score: 585.5 bits (1508), Expect = 3.1e-163 Identity = 296/325 (91.08%), Postives = 298/325 (91.69%), Query Frame = 0
BLAST of HG10017890 vs. NCBI nr
Match: XP_022149429.1 (vacuolar protein sorting-associated protein 26A [Momordica charantia] >XP_022149430.1 vacuolar protein sorting-associated protein 26A [Momordica charantia] >XP_022149432.1 vacuolar protein sorting-associated protein 26A [Momordica charantia]) HSP 1 Score: 584.3 bits (1505), Expect = 6.8e-163 Identity = 295/325 (90.77%), Postives = 297/325 (91.38%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy Swiss-Prot
Match: Q9FJD0 (Vacuolar protein sorting-associated protein 26A OS=Arabidopsis thaliana OX=3702 GN=VPS26A PE=2 SV=1) HSP 1 Score: 538.9 bits (1387), Expect = 4.3e-152 Identity = 264/325 (81.23%), Postives = 286/325 (88.00%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy Swiss-Prot
Match: Q9T091 (Vacuolar protein sorting-associated protein 26B OS=Arabidopsis thaliana OX=3702 GN=VPS26B PE=2 SV=2) HSP 1 Score: 538.1 bits (1385), Expect = 7.3e-152 Identity = 262/323 (81.11%), Postives = 285/323 (88.24%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy Swiss-Prot
Match: Q6AY86 (Vacuolar protein sorting-associated protein 26A OS=Rattus norvegicus OX=10116 GN=Vps26a PE=1 SV=1) HSP 1 Score: 347.4 bits (890), Expect = 1.8e-94 Identity = 174/321 (54.21%), Postives = 230/321 (71.65%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy Swiss-Prot
Match: P40336 (Vacuolar protein sorting-associated protein 26A OS=Mus musculus OX=10090 GN=Vps26a PE=1 SV=1) HSP 1 Score: 346.3 bits (887), Expect = 4.1e-94 Identity = 173/321 (53.89%), Postives = 230/321 (71.65%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy Swiss-Prot
Match: Q6DFU4 (Vacuolar protein sorting-associated protein 26A-B OS=Xenopus laevis OX=8355 GN=vps26a-b PE=2 SV=1) HSP 1 Score: 345.1 bits (884), Expect = 9.1e-94 Identity = 173/321 (53.89%), Postives = 229/321 (71.34%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy TrEMBL
Match: A0A5D3CX27 (Vacuolar protein sorting-associated protein 26A-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold32G00190 PE=3 SV=1) HSP 1 Score: 590.1 bits (1520), Expect = 6.0e-165 Identity = 298/328 (90.85%), Postives = 302/328 (92.07%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy TrEMBL
Match: A0A0A0L3Y1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G538580 PE=3 SV=1) HSP 1 Score: 588.6 bits (1516), Expect = 1.7e-164 Identity = 298/325 (91.69%), Postives = 299/325 (92.00%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy TrEMBL
Match: A0A1S3B4N9 (vacuolar protein sorting-associated protein 26A OS=Cucumis melo OX=3656 GN=LOC103486118 PE=3 SV=1) HSP 1 Score: 588.6 bits (1516), Expect = 1.7e-164 Identity = 298/325 (91.69%), Postives = 299/325 (92.00%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy TrEMBL
Match: A0A6J1DVS1 (vacuolar protein sorting-associated protein 26A-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111024837 PE=3 SV=1) HSP 1 Score: 586.6 bits (1511), Expect = 6.6e-164 Identity = 298/332 (89.76%), Postives = 306/332 (92.17%), Query Frame = 0
BLAST of HG10017890 vs. ExPASy TrEMBL
Match: A0A5A7TEN7 (Vacuolar protein sorting-associated protein 26A-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold122G002800 PE=3 SV=1) HSP 1 Score: 585.5 bits (1508), Expect = 1.5e-163 Identity = 296/325 (91.08%), Postives = 298/325 (91.69%), Query Frame = 0
BLAST of HG10017890 vs. TAIR 10
Match: AT5G53530.1 (vacuolar protein sorting 26A ) HSP 1 Score: 538.9 bits (1387), Expect = 3.1e-153 Identity = 264/325 (81.23%), Postives = 286/325 (88.00%), Query Frame = 0
BLAST of HG10017890 vs. TAIR 10
Match: AT4G27690.1 (vacuolar protein sorting 26B ) HSP 1 Score: 538.1 bits (1385), Expect = 5.2e-153 Identity = 262/323 (81.11%), Postives = 285/323 (88.24%), Query Frame = 0
BLAST of HG10017890 vs. TAIR 10
Match: AT4G27690.2 (vacuolar protein sorting 26B ) HSP 1 Score: 489.6 bits (1259), Expect = 2.1e-138 Identity = 240/296 (81.08%), Postives = 261/296 (88.18%), Query Frame = 0
BLAST of HG10017890 vs. TAIR 10
Match: AT1G48550.1 (Vacuolar protein sorting-associated protein 26 ) HSP 1 Score: 51.6 bits (122), Expect = 1.5e-06 Identity = 51/266 (19.17%), Postives = 105/266 (39.47%), 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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