HG10006175 (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.ATGTCTTCTCCATGTATAAGTGGCGGTGGGAGAGCTTACAATTTCGACTTAGAAATTGTGAAATCTCCATCTTCTTCATGGACGAGAACTTCACAAACTTCATCGCCTTCTTCAACTTTATCTGATTCAAGCAACAACACACAGCTTGCAATTTCCACTAGAAAATCCAGAACTCCTCGAAAACGCCCAAATCAAACCTACAATGAGGCTACAGTTTTGCTCTCAACGGCATATCCAAATGTTTTTTCCACTAAACATCTCACAAATCCGCGAAAATTCACCAAATCACATGATGATTCTCTCTTCTGTGAATCCGCTGAATTGCTTTTGCCTTTTCGAGTAATCGATAGTTCTGGATTTCTCCTTCACCAACCGTTGCTTCAAGAAAAACCTAATTCCCAAACTCAATCCAAATTGACGAATCTTTGGGAAAATCGGCCGTGTTCCAGCCCAGGAGAGATCGATTTCCAACCGAATTTGATGGAGATTGAAGATTTCGATGCTGAATCGATTCTTGACGAGGAAATCGAAGAAGGAATCGATAGTATCATGGGGAATCTGAGTGTGGATAACCTAGAAAAAGGTAATTCAACGCAAGATTCTTGTGTGAATAATCATCCTCGGAATTGGAATTGCTATTGGAATCCAATCGGCTTAGGGTTCAACCAGAAATTCGAATCTGGCTTCGGAATGCGGAAGGGAATCGAACGAACAGCAATCCGAGGAGTCGATAACGGAAACTGGTGGCGATTTCCTACTGTCGACGTAGTCGAAATCTCTCCAAAACTAAATCCAAAGCCACCGGCTCCGGCTCCATCACCGGCCGCCGTCGCGACAAAGAAGAAGAAAAAGAAAGTGGAGAAACTTACAGTAATCGAATCGAAGAAAGCAGCAATGCCACTACAAAAGGAGAAATCAGAGAAATCAGAGAAGCCGATTCCGAAATCGAAACCTACTGGATTTCTGAAATTGAACTACGAAGCCGTCGCCGACGCTTGGTCTAGCCGAGGATCTCCATTTTCCGATGAGATTCCGGGATCCGATACGGCGGGAAGTGATGTAAATGTACGTCTCTCATCCCGCCACCGAAAATCAAAACCCAAGAAACTTTGAAAAAAAATAAAAATAAAAATCCTTCCCCCGGAGTTTTAGGAATCCAAATCTCTCTGTTACTGTTTCATTCTCCCCAAAAAAAGAAAAAAAAAAATCAAAACACAATTAGTAGTGTTAAATTTGCATTTTTTAGTCCTTGTTACTCTCAATAATTTTTTAGTTTTAAATTTTAGGTCAAATCTTATAAAATGTACTTCCCGTTACTAGATATCAATACTTTTTCATATGACAACGTGATTGAATGGTCCAAATAGAATATGTCAAGTAAGAAAACGGTTAACATGGTAAAGGTCTATACATTTTTTTTTGAAAAATATTTAGACTAGATTAACGTCATAAAAAAATTGTAGTAAGAATGTGAGGAATTAAAAACATTTTGACTTTCTTTTTAGAAAAAATAATGTGATTATGATTTTTTTTTAATTATTTTATTTGGACCATTGATAGATTTCCTTGTCAATGAGTCATTTTTCTCATGAAAAGAAAAAATCTAAAATGAAATTATAAAAAATAAAGGAAAAAAAAGGAATTTAACTATGGTGTTTAATCATGAGCCTCATGAAAGGGAGGGTAATATTATAAATTAAAAATTCTTTTTGTTGATCGATCCAGAATAAGCTTTAAAAACAAAACGAAATAGGGATATATAACTTTATTTCATGTGGAAAATGACGGAATTATCCTTGTTTATGAAGTAATTAAATTTCGTGCGAAGTAGGGGATAATGACTAAAAGGTGAGGATATTTTTGGAATTTGGCAGGCCAGGCTGGCGCAGATTGATTTATTTTCGGACGGTGGAGGATTATTGAGAGAAGCCAGCGTGTTACGGTACAAGGAGAAAAGGAGGACCCGCCTATTCTCAAAGAAGATCAGATACCAAGTTAGAAAAGTCAACGCAGATGGACGGCCCAGAATGAAGGTATGTATGTGAATCTGGTGCATCCACCCTCATCTGATTATAGTCTTTTTCTTTTTAGATTAAAATAACATTTTAGACTTCATATAATCATATTTGCGACTCATGTTATTTTAGTCTATATATTTTTAAATATTTAAATTTAATTCATATTTATCGACAAATCTTAAAATTAGTCTTTAGTAGTAGTTTAAAAATAATTTAGTAATTTGGACCATAAAATTTTTAATTTCATCAAATTTGATACTAAATTTATGTAAAGTACTGCAATTTTAATCTTTAATCTAATTTTAGTTAATTCACCTACTTATTTTAACAAAAGAGTTAAAATTCTTAACTCATTAATTTTAATAGAAATTTACACAAATGTATGTTGATCAAATAAAAAATTAACTATTAAATAACATTCTTAAAATTCATAAAATTCAGAAAAGAAAAACTCTAGTGTTGTTTTTCTCTAAATAAATTATCAATTTTATGTGGTATAAATGTTCTATTATTCATTAAATGCATGAGATACGCTCATATTTCCTTTTAGAAAATTGTTATCCATTTACATATTTATTATAAACTTTTAAAAATATGTTCACATATTATATTTCCTTGCATGAAAAAATAATCATTATTTAACTAATTTTATTAAAAATTAACTTCGAATTATTAAATTTAAGATATTTTTTAGTAATATTAAATTTAAGATTTATTAAAAGTAAAAAGACTAAAATTAGAAATTTAAAAATATAGTGACTAAAATTAAACCAACTCCAAAATAAAAAGTGATATTAACCTTTTTTCAAAATCTTGAGAATATGGTTCCTTCTGGCATTGAAATTTTTCCTTGTTTTATTTATTTATTGAGAATACACAAACCAAAACAAACTAATAGACACTATGCTCAACAATAAAAGAGAAATCACGCATAAACTCAGACAAGATCCGATTTAGAATGTGCTCCAACCATAAACAGCTATTCCCCAAAATTTCAGATTGAGCCAAAGAATGTGTTGTTTGATTAGAACTATGAGGCACATATTGAAAGAAAACAACAACGAAAGAAGCACAAAGGCTTCTAATCTCCGATAAAATGTTTGCTTCAATCTGATAAGATGAATCTCAACGAAGCATTTGAATAGATGCTAAAGAATCCGATAGAATACTGACCTTTTGTAAACCCAATCGTCCTGCTAAACAAAGACCTTTGAAAATTGCCTACTAATTCAGCACAAAGAGGACTTAGAGATTGATCCTGAAAACCCTTCAACGCAAATTTAATAACACCAGTTGAAGAATTAACAATCCCACCGAACCCCACTCTCCTCAAGCCCTCTCGACAGGCCGTATCCACTAGAACAACACACATATCATGTCCTGACAAGTCATACCGTAAGACATTCTGGTGAACCAAATTGAATTATCCTTTGGAGTAGAATTGAATTCAAAAATATATTCCTTTATCCATTCACACCACCTATCCATAGAAAAAATAGGAGAATTAAAACAAACATCATTTCGATCACTCTATATTGCCCAAGTAGTTATACAAGCTTGCACGAACTCCTGATTATTCAAATTAGCAATTAACAACAAACAAATATCCAAGCAATTAAATTTTTTAAACTAAGGATTCCACAAACCAGGAAAAAGAACATGCCAAATATTCCTTGCACGGGAACAACAAAATAAAGCATGTGAAACCGTTTCTTCCTTCCTCCTACTGACATTCATCATTCTTCTCTTGAACGACACTTTTGTGGGAAGACAATTATGGCAAGACTTCTACACAAAAATAGCAATCTTACAAGAAACTTGTAGCTTCCACAACATTTTTCACCAAGATAGATTATGGGCAGAGCAGGTACCATTTGTCAACAACCTATCCAAAATGGCACATTTCTAGCCACTTTTGACAGTATACTCCCCCCCCCCCCCCCCCCCCCCCCGAAGTTTCAAAGTGTTAAACCCAACTGTCCTCTCTTCCTGACACACTTAAAGGAATTTTAAGAACCTTTTCCACATCCACAGAAAAAAGACCTCCGCCAATTTATGATAGTCCCATTGGCCCAACGACGTGATGAAATCCGACACCAATGATCCCCATCTTGATGAGGATAGGATATAACTTTGAATTTCGCTGGTCTAGGGATCCAAGAATCCTTAAAGGCTTTTATTGTTTTCCCATTACCAATAGATTTCCTTAGACCTTTGACTAACACATCTCTGCTCCAACACAACCTTTTCCAAACATACAAACCAGATCTAGTCAACCGAGCATCCAAAATTGAACAAATCGGGAAATAACTTCCTTTTCACACTCTACTAACTAAAGAGGAGGGGTTTTGAATCACTCTCCACATTTGTTCGGCTAAAAGTGCTTGATTAAAAGCCTCAAGATTCCTAAAACTTAAGCCACCAAATTCCTTTGGAACAAAAGCTTTTCCTAGTGCATCTAGTGAATTTTCCTAAAGCCTTGAGAGGAACCCCACCAGAATCTAGCACTAACTTTCATAACTTCAATACATAAACTCTTTGGTAGATGAAAACAACTCATCACATAGGTAGGAATCGCTTGCACGACACTTTTAGTTAAAACTTCTTTGGCCCCTATGGACAAAAAGTTATCCTTCCAACCTTGCAAAGTAGCCCAAACACGGTCCAAAACCTGCTTAAAATCGTTCAATCATTCACCTTACTCCATGAGAAAAAAGCTGGAAAATCAAGATAAGAACCCAATCTGGGAACATTCCTAACATTCATAATAGTTCCCAAAAATTGCCTATAATCAAGACTAACATTAGGAGAGAACACCACTATAGACTTTGAAAAGTTGACACTCTGACCAGAAGCAAGCTTATAATCCTGTAATAACGTTTTTAAAGCTCTAAATTCTTGAGCCGTGGCTTTAAGAAAGATCAAACTATCATCCTCAAACAATAAAGGAGTGATAGAGTCACATAAATTTGAAACAGAGATACCAGACAAAAGGCCCCTATCATAAGCCTTATTAATTAATCTAGATAAACCTTCAGCACACAAAAGAAACAAATAAGGAGACAAAGGATCCCCTTATCTCAATCTTCTCGAAAGGAAGATAGATTCATGGGCCACTCCATTGATACAGATAGCAAAAATAGCCATAGTCACACATTTCATTACAAGTTCAACTCAGGAATGATGAATACCCACCTAAGCACAATTTGTTGGAGATAATCCCACTCAACTCTATCATACGTCTTACTCATATCGAGATTCAACACAATATATCCAACATTTTCTTTCTTCTTTTTCAGATAAGAGAGACATTCATGGCTTACAATAATATTATCACTAATAAGACGATCAAGAATAAAAGCAGACTGATTAACTTAGTATTATTAAGGACTACTTTCAATCTATTTGATTAAACTTTTGAGTCACACTTATAGATAACATTGCACAAACTAATAGATAAAAAGAATTTGTCATTGCTTTAAAGGCATAGAAAGTATTAGATTATTACTAGATTCTATTATTGTTATTAAAATGTGAGTAATGAGTTCAAGTAGAAAATGAGAGTATCTGTTTTTTTCAGCATCTTCTTGAAATTGATTTAGTTAGTTACATCAAAATGATCGTATTAATATATTATAGGATAAATATGCCACATTTTGCTAAATTTGAGTGTCTAGATTTTAAGAAAGATGTATAGTGTCTAAACCATGAGATTAGGCTTAAGTTCAATTGTTAAATATATGTTTTTGTCTCTATAATTTTTTTTTTGAAAAAATATTTATTGGTCTCTAAATTTTGAAATTAATTTTCATTTGGTTCTTATGCTTCAAAATGTTTACATTTAATTTTTAAATTTTGAGTTTGGTTTCAATTTAATCCATAGGTTTCATAATGTTACAATTTTACCCTTAGGATTAGGATTTAAGTTTTATTTTAATTGAATTCGTAGGTTTCAAGATTCACACTTTCAACCTCAATTTTTCATTAAATACATATTTTCATTCATTGGTCCTAATGTTGATTAATTAATTAAAAATAGTTATGAACTAAAATTTTAAATTTAATTTTGGTAGTGATGAAAATTAGTAAAAATTAGTTGATTATAGTTATTTTAAATTAATTAATAAATATTAGTGCTAATGTCTAAAAGTGAGTATCTAGTATAAAATTTAAGTTAAAAGTGTAAATATGAAACCTAGATACCAAATTGAAACAAAACTCAAATTTAAGGGTAAAATTGTTACATTTTGAAACCTAAAAACTAAATTGAAACCAAACTCAAAACTTAAGGATTAAATGTGTAATATTTTGAAACCTAGATACCAAATGTAAATTACACTGAAAATCTAGAGACCAAAAATATTTTCAGATATAGCAACGTACAAGGAACTAATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATTGAGTAGTTGTTTAAAATGACAAAATTGCTAGAAATATTTTTAAATATAGCAAAATGTCACTATCTATCAGTGATAGATTGTGATAGACATCTATCAGTGTCTATCAGGGTAGATGATAATAGTCTATTAATAATAAAATGACATTTTGCTATATTTATAAATATTTCGATTCATTTTGCTATATTTAAAAACAAAAGACTCTTTGACTTATATTATACATCAGTTGCTTAAAATCAAATTAGCCTAAAAAATGTTTTTAATAGTAGTTTAATAATAACACTCAAATGATTAAATTAGGGCTTTTTTAACTTTCAAAACCAAATTTAAAATTAGAATAAACTTTAGGATTCACAAAATTACAAAACTATTTTGGTTTATTTGTACTCTTAGTCATTTTAATCCACATACTTTCAATTTTTTTTTTCTTTCTTCACTTTAGCTTTTATATTTTCAAAACATCAATTTTCTTTACAGCATATTGTTTAAGATGGACCATTTTCATTCATATTTGCAAAACTTTTAACTCCAATTTTATACTCAATGAAAATTCTTTAATACAAAATTTACGATTGCATTTTAAGTAATGTAGTGATTAAAGTATTATGCTAAAATTTTGATTGATGAAAAAGAAAACAAAGAGACAAAAACAATCACTTCTTAAAAGTAAAATGGTCCAAAATAGATGTTTTAAAAGTATACGAACTAAAATGAACAAAAGTTAAAAGTATAGACATAAAAATTGACATTTTAAAAGTACGAGAACAAAAATTGTACTAAAATCAAACCATAGATTATATTTCCACATTGCTAGTGCCTAACATAATTTAACTAGTCAGAATAATTTTAAGAGCAAGGTTTAAATTGATATAGTTTAAATTTAAACCCTAAACTTATAATTATATCAATATAAACTCTGAACTTTTATAAGTGTGTCAATTTAAACCTCAAAACTAATAATTGTATCAATTTAAACCTTGAACTTTCATAAGTGTATCAGTTTAAACCCTTTATCGTGTTTTATTTGGATATGCTTATTAAAATTTAAGGTTTAAATTGATATAGTTTAAATTAATATACTTATACGAAAGTTTAAAATTTAATTGATAAATTATTAGTTAGGGATATAAATTTTTATTATGAGTTAGAAAAATTTGAGTATTAATAGAAAGAGATGATTGAAAAGACGTTTTCCTTTTGGCAGGGGCGATTTGTGAGGAGGCCTAATTCAAGTGCCAGCGAAAAGAGATAGACAGTAGCCTTTAGGATTCAGAAATCCCCTTTTTGAGTTGTCAACTTCACTTTTTTGGGAGCTACTTTTTTGCTTTCTTGATCTAATTATTATCACTTTTTCTTTTCTCTTTTATTTTGCATTATATTTTCCAAATTTTCCATTATTAGTTTGCTTTTTTTTTTTTTTTTTTTTTTTTTTCCTTCCCAATTCCAAAAAGCTCAATGAGAAAATGGCCACTAAGTAGATGGTCAGAGATCCAATAATTCAAGGCTTTTTTTTTTTCTTTTCTTTTTTTGCTTCTAAATTCTAATATATGTATTTTCCTTTTTGGGGCTTTTGTTTTATAGTGTTTGGTTGATAGTTTCTAATGCTTTGAGAAGAGGCTCATATGTTTTGAATTGCCTCCATTTGTGTAATTTGCAACTTATTAAATTTGGAAATTTGTGGTTTAAAGGTAATCAAACATTATATATTTAAAAACTTACCTGAATTCTTAACTTTCAATTTTATACAATTTTATTCTCCACACAATACTCTTTGAATGGCAAAAAATATAAGGGTATTTATAAATTTTGTAAATATAGCAAAATTTTAAAAACAATATATATAGCACGGAAGAAGAAGAGTCACTATTTCATGTGTTATTATTAGGTAGTCCTTCGAATAGAATGAATTCTGGAGAAAAATAAAGAAAAAAAGAAATATATTTCATAAGAATTATTTCTTTTTAAAAAATTAATACCACAAGAAGGGAAAAAATAAATGGCATAATCAAGAGAAGAATGGAAAGACATGCAATATAAAATAATAAAATAAAGAAACATTTGTTTAACTCTATCAAGAAAAGAAGTGTACAAATCATGATAATCAAATAAAAAATCTAAAAAAAATAAAAATAAGATAATGATAATATAAATACATTAAAATAGGATTAACAGGAACTATTGCAAAGAGATATAAAAGCAAATAGTCATTATTTAAAGATTTAAGGACAAAGTGGGAATGTTAAAATTCTCCCATTTGAATATAGTAAAGATATAGATAAAATGGATACAAGAAAAATTCAAAAGTTTATCCACTTATATATATATATATATATATATATATATGTTATTTGTGCGAATTTTTCAACTCTATTTTATAAATTTACTTACTAGAAATTTAAAATTTAGATTCTTTTTATTCTTCAAATTTTTTATTAGAAAAAAATACACTTTTTAGTCTATGCATTTTATATTTTAGTACAAAAATTTTAAGTTTAATAGCACCTTTGGTCCTTCCAATTAATTTTATATTAATTATGTAATAAAAGTTGATGTGACACTATTAGATTACTAAGAAAATCATATTTAATAAATTCTAAAATAAAAATATATTTTTATCATTGTTTAAGTAAAGTTTATTATTATTATTATTCTCTTTCTCTTCATCTTCATCTTCCTCTTCTTCTTCTTCTCGTCCTCATCTTCTCGTCCTCCTCCTCCTCTTCCCCTTCCTCCTCCTCTTTAATGGTCGATGGCTAGGGGCGAAGGGAAATTTTCATTGGTTTCGAAATGCCTCTCAATCTTTTTCTTTCCGAATTTAGAAAAGAATGGGAAAGATAGGACCAAATGGAGAAAGACAAAAAATGAGAGAACAAAATAAGAAAACTAAAAAAAAAAAAAAAAAGTTATCCATTGAAGAGGAAGGGAGAAGGAAGATGAGTAAGGGGAAGAGGAAGATGAAGAGGAAGAAAGAGATTAAAAAAAAAAAAAAAAAAAAGGAGGAAAAGTAAGGTTCATTTTATTTTAAAAAAATGACAAAGTATATTTTGCAACCAATTAAATTGTGTATAGAGTAAAGGGAGCATGAGACTTAGATATAACTTAGGCTACACTTAAATATTGCTATTTTTATTTTAATTTTTTTAAAAAAAAAATATGATTTTTTTGAAAAAATATATATTAATGTCACTTCAACTTCTATTACATAATTAACAAAAAGTTGATGGCGCAGGGTCTTCTAAAGATTCCTTCTCTCATGTGGGTGCCATTATCAGAGATTTTTGGGTCTGATATTTCATCATCATGTAGCTTCTTCGATCCCCTTTAGAGTCATGTTTTGGTGGAAATGGCTGCTATTCTTCATGGTGTGGATTTGGCTATTAACCTTAATCTTCTTCACCTTCAGATTGAGTCTGATTCTGATTCTCTTGTTGCAGTCAAATTTCTCAATAGAATTACTTCCTATAGGAATGAAATTGGTGTTTGGTGTGAGAAAATTTAAATGTCTTCTCCATGTATAAGTGGCGGTGGGAGAGCTTACAATTTCGACTTAGAAATTGTGAAATCTCCATCTTCTTCATGGACGAGAACTTCACAAACTTCATCGCCTTCTTCAACTTTATCTGATTCAAGCAACAACACACAGCTTGCAATTTCCACTAGAAAATCCAGAACTCCTCGAAAACGCCCAAATCAAACCTACAATGAGGCTACAGTTTTGCTCTCAACGGCATATCCAAATGTTTTTTCCACTAAACATCTCACAAATCCGCGAAAATTCACCAAATCACATGATGATTCTCTCTTCTGTGAATCCGCTGAATTGCTTTTGCCTTTTCGAGTAATCGATAGTTCTGGATTTCTCCTTCACCAACCGTTGCTTCAAGAAAAACCTAATTCCCAAACTCAATCCAAATTGACGAATCTTTGGGAAAATCGGCCGTGTTCCAGCCCAGGAGAGATCGATTTCCAACCGAATTTGATGGAGATTGAAGATTTCGATGCTGAATCGATTCTTGACGAGGAAATCGAAGAAGGAATCGATAGTATCATGGGGAATCTGAGTGTGGATAACCTAGAAAAAGGTAATTCAACGCAAGATTCTTGTGTGAATAATCATCCTCGGAATTGGAATTGCTATTGGAATCCAATCGGCTTAGGGTTCAACCAGAAATTCGAATCTGGCTTCGGAATGCGGAAGGGAATCGAACGAACAGCAATCCGAGGAGTCGATAACGGAAACTGGTGGCGATTTCCTACTGTCGACGTAGTCGAAATCTCTCCAAAACTAAATCCAAAGCCACCGGCTCCGGCTCCATCACCGGCCGCCGTCGCGACAAAGAAGAAGAAAAAGAAAGTGGAGAAACTTACAGTAATCGAATCGAAGAAAGCAGCAATGCCACTACAAAAGGAGAAATCAGAGAAATCAGAGAAGCCGATTCCGAAATCGAAACCTACTGGATTTCTGAAATTGAACTACGAAGCCGTCGCCGACGCTTGGTCTAGCCGAGGATCTCCATTTTCCGATGAGATTCCGGGATCCGATACGGCGGGAAGTGATGTAAATGCCAGGCTGGCGCAGATTGATTTATTTTCGGACGGTGGAGGATTATTGAGAGAAGCCAGCGTGTTACGGTACAAGGAGAAAAGGAGGACCCGCCTATTCTCAAAGAAGATCAGATACCAAGTTAGAAAAGTCAACGCAGATGGACGGCCCAGAATGAAGAGTCATGTTTTGGTGGAAATGGCTGCTATTCTTCATGGTGTGGATTTGGCTATTAACCTTAATCTTCTTCACCTTCAGATTGAGTCTGATTCTGATTCTCTTGTTGCAGTCAAATTTCTCAATAGAATTACTTCCTATAGGAATGAAATTGGTGTTTGGTGTGAGAAAATTTAA ATGTCTTCTCCATGTATAAGTGGCGGTGGGAGAGCTTACAATTTCGACTTAGAAATTGTGAAATCTCCATCTTCTTCATGGACGAGAACTTCACAAACTTCATCGCCTTCTTCAACTTTATCTGATTCAAGCAACAACACACAGCTTGCAATTTCCACTAGAAAATCCAGAACTCCTCGAAAACGCCCAAATCAAACCTACAATGAGGCTACAGTTTTGCTCTCAACGGCATATCCAAATGTTTTTTCCACTAAACATCTCACAAATCCGCGAAAATTCACCAAATCACATGATGATTCTCTCTTCTGTGAATCCGCTGAATTGCTTTTGCCTTTTCGAGTAATCGATAGTTCTGGATTTCTCCTTCACCAACCGTTGCTTCAAGAAAAACCTAATTCCCAAACTCAATCCAAATTGACGAATCTTTGGGAAAATCGGCCGTGTTCCAGCCCAGGAGAGATCGATTTCCAACCGAATTTGATGGAGATTGAAGATTTCGATGCTGAATCGATTCTTGACGAGGAAATCGAAGAAGGAATCGATAGTATCATGGGGAATCTGAGTGTGGATAACCTAGAAAAAGGTAATTCAACGCAAGATTCTTGTGTGAATAATCATCCTCGGAATTGGAATTGCTATTGGAATCCAATCGGCTTAGGGTTCAACCAGAAATTCGAATCTGGCTTCGGAATGCGGAAGGGAATCGAACGAACAGCAATCCGAGGAGTCGATAACGGAAACTGGTGGCGATTTCCTACTGTCGACGTAGTCGAAATCTCTCCAAAACTAAATCCAAAGCCACCGGCTCCGGCTCCATCACCGGCCGCCGTCGCGACAAAGAAGAAGAAAAAGAAAGTGGAGAAACTTACAGTAATCGAATCGAAGAAAGCAGCAATGCCACTACAAAAGGAGAAATCAGAGAAATCAGAGAAGCCGATTCCGAAATCGAAACCTACTGGATTTCTGAAATTGAACTACGAAGCCGTCGCCGACGCTTGGTCTAGCCGAGGATCTCCATTTTCCGATGAGATTCCGGGATCCGATACGGCGGGAAGTGATGTAAATGCCAGGCTGGCGCAGATTGATTTATTTTCGGACGGTGGAGGATTATTGAGAGAAGCCAGCGTGTTACGGTACAAGGAGAAAAGGAGGACCCGCCTATTCTCAAAGAAGATCAGATACCAAGTTAGAAAAGTCAACGCAGATGGACGGCCCAGAATGAAGAGTCATGTTTTGGTGGAAATGGCTGCTATTCTTCATGGTGTGGATTTGGCTATTAACCTTAATCTTCTTCACCTTCAGATTGAGTCTGATTCTGATTCTCTTGTTGCAGTCAAATTTCTCAATAGAATTACTTCCTATAGGAATGAAATTGGTGTTTGGTGTGAGAAAATTTAA MSSPCISGGGRAYNFDLEIVKSPSSSWTRTSQTSSPSSTLSDSSNNTQLAISTRKSRTPRKRPNQTYNEATVLLSTAYPNVFSTKHLTNPRKFTKSHDDSLFCESAELLLPFRVIDSSGFLLHQPLLQEKPNSQTQSKLTNLWENRPCSSPGEIDFQPNLMEIEDFDAESILDEEIEEGIDSIMGNLSVDNLEKGNSTQDSCVNNHPRNWNCYWNPIGLGFNQKFESGFGMRKGIERTAIRGVDNGNWWRFPTVDVVEISPKLNPKPPAPAPSPAAVATKKKKKKVEKLTVIESKKAAMPLQKEKSEKSEKPIPKSKPTGFLKLNYEAVADAWSSRGSPFSDEIPGSDTAGSDVNARLAQIDLFSDGGGLLREASVLRYKEKRRTRLFSKKIRYQVRKVNADGRPRMKSHVLVEMAAILHGVDLAINLNLLHLQIESDSDSLVAVKFLNRITSYRNEIGVWCEKI Homology
BLAST of HG10006175 vs. NCBI nr
Match: XP_038890140.1 (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X1 [Benincasa hispida]) HSP 1 Score: 741.5 bits (1913), Expect = 4.4e-210 Identity = 396/433 (91.45%), Postives = 405/433 (93.53%), Query Frame = 0
BLAST of HG10006175 vs. NCBI nr
Match: XP_038890142.1 (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X3 [Benincasa hispida]) HSP 1 Score: 741.5 bits (1913), Expect = 4.4e-210 Identity = 394/424 (92.92%), Postives = 401/424 (94.58%), Query Frame = 0
BLAST of HG10006175 vs. NCBI nr
Match: XP_038890141.1 (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X2 [Benincasa hispida]) HSP 1 Score: 741.1 bits (1912), Expect = 5.8e-210 Identity = 393/418 (94.02%), Postives = 399/418 (95.45%), Query Frame = 0
BLAST of HG10006175 vs. NCBI nr
Match: XP_038890143.1 (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X4 [Benincasa hispida]) HSP 1 Score: 741.1 bits (1912), Expect = 5.8e-210 Identity = 393/418 (94.02%), Postives = 399/418 (95.45%), Query Frame = 0
BLAST of HG10006175 vs. NCBI nr
Match: XP_008451201.1 (PREDICTED: protein CHLOROPLAST IMPORT APPARATUS 2 isoform X1 [Cucumis melo]) HSP 1 Score: 719.2 bits (1855), Expect = 2.4e-203 Identity = 386/423 (91.25%), Postives = 394/423 (93.14%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy Swiss-Prot
Match: Q9LU68 (Protein CHLOROPLAST IMPORT APPARATUS 2 OS=Arabidopsis thaliana OX=3702 GN=CIA2 PE=1 SV=1) HSP 1 Score: 256.9 bits (655), Expect = 4.3e-67 Identity = 200/444 (45.05%), Postives = 259/444 (58.33%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy Swiss-Prot
Match: Q8LG76 (Zinc finger protein CONSTANS-LIKE 6 OS=Arabidopsis thaliana OX=3702 GN=COL6 PE=2 SV=2) HSP 1 Score: 73.2 bits (178), Expect = 8.9e-12 Identity = 49/120 (40.83%), Postives = 64/120 (53.33%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy Swiss-Prot
Match: Q9C9A9 (Zinc finger protein CONSTANS-LIKE 7 OS=Arabidopsis thaliana OX=3702 GN=COL7 PE=2 SV=1) HSP 1 Score: 70.5 bits (171), Expect = 5.8e-11 Identity = 56/133 (42.11%), Postives = 70/133 (52.63%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy Swiss-Prot
Match: Q8RWD0 (Zinc finger protein CONSTANS-LIKE 16 OS=Arabidopsis thaliana OX=3702 GN=COL16 PE=1 SV=2) HSP 1 Score: 67.4 bits (163), Expect = 4.9e-10 Identity = 55/165 (33.33%), Postives = 73/165 (44.24%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy Swiss-Prot
Match: Q9M9B3 (Zinc finger protein CONSTANS-LIKE 8 OS=Arabidopsis thaliana OX=3702 GN=COL8 PE=1 SV=2) HSP 1 Score: 63.5 bits (153), Expect = 7.0e-09 Identity = 45/113 (39.82%), Postives = 59/113 (52.21%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy TrEMBL
Match: A0A1S3BQX8 (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103492569 PE=4 SV=1) HSP 1 Score: 719.2 bits (1855), Expect = 1.1e-203 Identity = 386/423 (91.25%), Postives = 394/423 (93.14%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy TrEMBL
Match: A0A1S3BQD2 (protein CHLOROPLAST IMPORT APPARATUS 2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103492569 PE=4 SV=1) HSP 1 Score: 719.2 bits (1855), Expect = 1.1e-203 Identity = 386/423 (91.25%), Postives = 394/423 (93.14%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy TrEMBL
Match: A0A0A0LGV4 (CCT domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G061540 PE=4 SV=1) HSP 1 Score: 713.8 bits (1841), Expect = 4.8e-202 Identity = 384/423 (90.78%), Postives = 394/423 (93.14%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy TrEMBL
Match: A0A6J1K6B9 (protein CHLOROPLAST IMPORT APPARATUS 2 OS=Cucurbita maxima OX=3661 GN=LOC111492075 PE=4 SV=1) HSP 1 Score: 645.6 bits (1664), Expect = 1.6e-181 Identity = 351/410 (85.61%), Postives = 367/410 (89.51%), Query Frame = 0
BLAST of HG10006175 vs. ExPASy TrEMBL
Match: A0A6J1D908 (protein CHLOROPLAST IMPORT APPARATUS 2 OS=Momordica charantia OX=3673 GN=LOC111018157 PE=4 SV=1) HSP 1 Score: 642.9 bits (1657), Expect = 1.0e-180 Identity = 353/418 (84.45%), Postives = 366/418 (87.56%), Query Frame = 0
BLAST of HG10006175 vs. TAIR 10
Match: AT5G57180.2 (chloroplast import apparatus 2 ) HSP 1 Score: 256.9 bits (655), Expect = 3.1e-68 Identity = 200/444 (45.05%), Postives = 259/444 (58.33%), Query Frame = 0
BLAST of HG10006175 vs. TAIR 10
Match: AT5G57180.1 (chloroplast import apparatus 2 ) HSP 1 Score: 256.9 bits (655), Expect = 3.1e-68 Identity = 200/444 (45.05%), Postives = 259/444 (58.33%), Query Frame = 0
BLAST of HG10006175 vs. TAIR 10
Match: AT4G25990.1 (CCT motif family protein ) HSP 1 Score: 244.6 bits (623), Expect = 1.6e-64 Identity = 177/414 (42.75%), Postives = 239/414 (57.73%), Query Frame = 0
BLAST of HG10006175 vs. TAIR 10
Match: AT4G25990.2 (CCT motif family protein ) HSP 1 Score: 244.6 bits (623), Expect = 1.6e-64 Identity = 177/414 (42.75%), Postives = 239/414 (57.73%), Query Frame = 0
BLAST of HG10006175 vs. TAIR 10
Match: AT5G57180.3 (chloroplast import apparatus 2 ) HSP 1 Score: 177.2 bits (448), Expect = 3.1e-44 Identity = 156/397 (39.29%), Postives = 213/397 (53.65%), 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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