HG10009925 (gene) Bottle gourd (Hangzhou Gourd) v1
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.ATGTGGATCAAACATTCAAATTTTTTACCTTTTTTGGATGAATGGTGGAACAGCCATCAACACTCTAGAAGGCCGGGTCATGGGCTCATTCAAAAACTTAAGAAATTGAAGGTTGCCTTAAAAGAATGGAAGATCAACACCTTTGGGTTTATTGAATCACAGAAAGATGCATTATTAAAGGAATTGGCTCTTATTGACAAAATGGTTGAATCAAACTCCACCACGGAGTCCCTTAACAGTCGTCGTTTATCTATCAAAGGTGATCTTCTCGAAACGAGGAATTGAAATGAGGCAAAAATGCAAAACAAAATGGCTCTTAGAAGGTGATGAGAACACAACTTTCTACCACAAGTTTGCTGCAAAAAAAAAAAAAGGAAGAACAGCATCACTGAGATCCTAGGCGACCAAAACCACAGTTTGACTAGTGACTTTCAGATTTGAGGCTGAATTTATCACTTTTTACGAGGCCCTCTTCACCAAAAAACAGGGCACCAGATTTCTACCACAGCCAATGGATTGAGCCCCTATGAGCAATCTTCAAAGACAGTCTCTGGAAAGACCCTTCAATGAGGAGGAGATTTGGCAAGCGGATAAGGATTTGGGCTCCACCAAATCCCCGGGACCGGATGGTTATGTTATAATATGTATTTATTGTATAGTTGTCCTTTATTGTAATTTTACATTCTCTAGATTAGGGTTTCCATCTTGCCTATATAAATATGTACCTTTAGTCTGATTAATAATATAGAGATTATTCTCCAAAGTATAGAGTACATGGTATCAGAGCCCTCTAGAGTTTAGAATATTCGTTTGACGGCTACGTTCTCACAAAGCTAGGGTTTCGTTTTTGGTCATCGAGTTTGAGTGGCCTTTTGTCTACACCGCCCACCTCAGGAGGAGAGCCGCCACCATCTGTCTTCGTCGTTCGCCGAAAAACGCCGCGCGTGAGCCTCACGCGCCACCAAGAAGAGTCTGCTCCGTCGTCACGCGTCGGCGCGTGTGAGCGAGTGGGAGCTCCATTTCCGATTCCGTCAGTTGGGTTCGTCTCGGTTTCTGTTTTCCAACCAATCTGTGCGTTTGGTTCCATCGAAATCCACTCGGGTGTGAGGTTATTTGAAAAATACCTTTTTTGTTCTTAGGGTTTGTGACTGTTTTGTTCTAATTTGGGGCTTTTTTTTTATTTTGCTCTTTGATTCACCTTGCTCTTGCTTTTATTCCGCTTGTGAGATATACGAATTGTGTGTTAGTTCATAATGGCTGAGCTGAAGCATATCACGTCTAGTGTAATTCCCCTAACATCAAAGATAACAGAACACAAGTTAAATGAATCTAATTACTATGATTGGCGTATAACGATTCAGTTTTATTTACTTAGTACTGATATGGATGATCATATGACTGAGGATCCACCAAAAGATGACAAGAAAAAGGGTTGGCTTCGCGATGACGCTGGACTTTATCTTCAGATTAAGAACTCCATTGAGAGTGAGGTCGTTGGCTTGGTGGATCATTGTAATTCGGTGAAGGAACTTTTGGAGTTCTTAGAATTTCTATACTTTAGAAAAGAACACGTCCATGGGATGTTTGACATTTGCATGCAATTCTTTCGAGCCGAACAGAAAGCAGAATCTGTTACAAGTTATTTTATGAGACTTAAGAAGACAGATGCTGAACTTGCTTTATTATTACCTTTTAGCCCAGATGTCCAAGTTCAACAAGCTCAACGGGAAAATATGGCTGTTATGATATTTCTGAATGGACTTTCACCTGAATTTGGAATGGCTAAAATACAGATTCTTTCTGATTCTGAAATTTCGTCATTAGACGACGCCTTCAGTCATGTTCTTCGTGTTGAGAGTTCTCAATCTGGTTCGTCCATGTCTCAACCTAGCAGTGCCTTTATAAGCAAGAATGATAACTCCCGAGCTACTTCAGGGATGACCAACAATTTTCAGAAGCCTAGTTATGATAGTCGAAAATCAAATTCTCAGGAGATCGTCTATCATTATTGTCGAAAGTCAGGACATCTAAAACGTGATTGTAGAAACTTATTGTATAGACTCAAAGATCTCAGCATGCTCACATAGCTTCCACCAATGATATGACTGAGAAGTCTGTTACCATCTCTGCCGACGACTTTGCTAAATTCTAAGTGTTACAAGAATCCCTACAGGCATCTTCTTCATCGACTCCTATTGCCACCATTGCTGAGACAGGTAATACAAAATGTCTCCTTACATCATCTACAAAATAGGTCATAGACTCTGGTGCCACCGCTCATATGACAGGTAATTCTAACTTGTTTTCTCCCCCTCTGTCCCCTGCCTCATCCCCATCTGTCACTTTGGCAGATGGTTCAACCTCCTCTGTTCTTGGATCCAGCACCATTCATCTCACCTCATCCCTTTCTTTGTCCTCTGTGTTACATTTGCCTCAATTGTCTTTTAATTTAATCTCTATTAGCCAACTTACTCGTGACCTTAACTGTTGTGTCTCGTTTTTTCCTGGTTATTGCTTGTTTCAGGATCGTATGGCGAAGAAGATTATTTCAAATCCTTACAACCGCCCATCACTGGGAAAATGTTTTCGTTGTGGCCAACAAGGACATCTTTCTAATGAATGTCCTCAAGGAAGAACTTTAACTATTCAAGAAGAAGATACTTCTGTAGAAGAGAATCTTGAAATCGATTGTGATGACAACTTGGCTTACTTGGAATCTGATGAGGGTGATCATCTCTCATGTGTTATCCAAAGAGTCTTACTTACTCCTAAAACGGAAAGTCATCCTCAACGACATTCTTTGTTTCGCACGAGATGCACTATAAATGGTCGAGTTTGCCAAATGATAATCGATAGTGGAAGCAGTGAAAATATTGTGTCCAAGAAACTCGTATCTGCTCTAAATTTAAAGGTTGAACCACATCCAAATCCCTACAAGGTTAATTGGATTACAAAGAAAGGAGAAACTTCAGTCCAAGAAATTTGCACGATACCAATTACCATAGGTAATACATATCAAGCTCAAATTCCTGGTGACGTCTTAGACATGGATGTCTATCAAGTCCTTTTGGGACGACCTTGGTAGTACGATAACAAAACCCTCCACAATGGTAGGGACAACACATATGAATTCACTTGGATGGGCAAGAAAGTAATCCTCCTTCCGTTGGGTAAGTCTACTACGATAAACAAGGTACATTCTTCTCCTAAAAAGCAACTTTTTTTATTTCTTTTGGTAAAGATCTCCTCCAAACAAAAAATCAGACTCTTCTAGCTTTTGTTGTCAAAAAATACCCTTTAGAGTCCCAAAACCACGACCTTTTGGACCCACAAATCTCAACTTTACTTACAGAATTTCCCTCACTTATAGAAGAACCACAAAGCTTACCTCCTTTACGAGATATCCAACACCACATAGATTTAATACCTAGAAGTACTCTACCGAATCTACCCCACTACCGAATGAGTCCTAGAGAATATGAAGCTCTCCACGACCACATCCATACCTTACTAGATAAAGGTCACATCCAACCTAGCCTTAGTCCTTGTGTCGTACCAGCATTACTAGCACCTAAAAAGGATGGCTCTTGGCGACTTTGTGTAGATAGTAGGGTCATTAACAAGATCACTATAAAATATAGATTTCCTATTCCCCGACTATCTGATTTACTAGACCAATTAGGTGGAGCATCCATTTTTTCCAATATAGATTTAAGAAGTGGATATCACCAAATTAGGATACTCCCTGGGGACGAGTAGAAAACAGCCTTTAAAACAAATGAAGGTCTTTTTGAGTGGTTAGTAATGCCTTTTGGTCTTTCAAATGCTCCAAGCACCTTTATGCGTTTAATGAATCAAGTTTTATTACCTTATTTAAACAAATTTGTTGTAGTTTATTTCGATGATATTTTAATTTACAGCACTAACCATACCTCACATTTAGAACATTTAAAAACAATTTTCCAAGTCCTAAAAGACAATGCTTTATTTATAAATTTAAAAAAATGTTCTTTCTTGCAAACTCAAATTTACTTTCTTGGCTTTTTAATTCATTCTAAAGGGATTAGTGTAGACCCAAGAAAAATAGAAGCTATCTTAGATTGACCTCAACCAAGGAACCTTAAGGAAATTCGGAGTTGTTTAGGATTAGCATCATTCTATAGAAAGTTTATTCAAAATTTCAGTACTATTGCTAGTCCTTTGACTGAATGCCTAAAAACTAAAGTTTCTTTCTCTTGGGGTAGAGCTCAAAATAACAGTTTTGAAGAACTCAAAAAAGCTTTAAGTTCCACTCCAGTTCTTGGTTTTCCAAATTTTCAAAAACCTTTTGGAGTTTCGGTTGATGCTTCTGGAGTAGGAATTGGAGCTGTCCTTAGCCAAGAAAAACATCCTATTGAATTCTTTAGTGAGAAACTTAGTTCTTCTAGACAAAAATGGTCCACTTATGAGCAAGAACTTTACTCCTTAGTTCGAGCACTTAAGCAATGGGAACACTATCTCCTTGGAAAAGAATTCGTTTTATTAACTGATCATTTTTCTTTGAAATTTTTGCATTCTCAAAAAACTATTAGTCACATGCATGCTCGTTGGATCCAATTCCTCCAAAGGTTCGACTTTGTCATCAAGCATACTCCAGGTAACATCAACAAAGTTGCAGATGCCTTAAGTCGAAAAGGTACTCTTCTTACTTTACTTCAAAGTGAAATTGTGGCTTTTAATCATTTGTATGAACTTTATCCTACTGATGAGGATTTCAAAGATATTTGGAATGCTTGCTCTAATCATCTCCCGGCAAAAGATTTTCATATTTTTTATTGCTTTCTCTTTAAAAATGACACTTTATGCATCCCACACACATCCTTACGGGAGTCACTTTAAAAGAAGCACATTCTAATGGATTGGCTGGCCACTTTTGATAAGGTAATCCTAACCCTCAGCCCAAAGATCCAAGCTATTGATAAGCAGGAACCTTTGAAACTAAGAAATTAACACCTCCCTATACGAATTTAGATAACCCCGAGAAAAAGGCTAGAATAAGATTACCTCTTGATCGAAGATCTAGAAGCAAGATTCGGAAATCTTGTTCTAAATTGAGTCACTCCACAATCAAACTTGATCAAGGTTAGATTGAATGGCTCGCATGCATTCTATCACAAGAATTGAAAATTCTATGGGAAAAGTCTCAATGTGAGATTTCAAATTTCATTCATCAAAAGTTTTGTTACAAATGAATGGGGTAGAAGGCTTTATATAGCCTTGTAGAGATTCTATCCTATTTAATGTAAATTCCAAAAAGTCAAAATAAAACATTAAAGGAATTATCTTCTCAACTTCCATCTTCCAAACCATCTTCAATGCATCCCCCATAATTACCAAGACTTAAATTTAACACTTACAAGCAAGAAATTAATTAAAGAAAATAAATAACTCATAAAATTAAAATGCTGAAAATTAATTAAAAACAACTAAGGTTTACTAATGCAACTCATAGGTCCTGATCCATATCAACTTTGATCGGGATAAAACCTTATCTCTTCTTTCTTCTAAATTCTTTTGGCCTCAATTAAAAAAAGATGTTGCTAACTTTGTTAAAAGATGTTACATATGTCAAACTTCTAAAGGATCTAGTTCTAACCAAGGACTTTATTCTCCTCTACCTATTCCACAAAATATTTGGGAGGACCTCTCTATGGATTTTGTCCTTGGTTTACCTAGAACTCAAAGAGGTTATGATTCAGTTTTAGTAGTTGTTGATAGATTTAGCAAAATGGCACACTTTCTAGCTTGTAAAAAGACTAATGATGTCTTGCATGTGGCCAACCTATTCTTTAAGGAAATTGTCCCACTACATGGTATACCTAAGAGTATAGTTTCTGATAGGGATGTTAAATTCATGAGTTTCTTTTGGCGATCGTTGTGGAAAAAATTCAGTACTAATCTTCTTTTTAGTTCTACTAGTCATCCACAAACTGATGGACAAACTGAGGTAACAAATCGCACTCTTGGTAACCTCTTACGTTGTCTTAGTGGAGATAAGTCGCGCCAATGGGACCTCGCACTGGTTCAAGCAGAGTTTGTCTTCAACAACATGGTGAACCGATCTACAGGGAAGTGCCCCTTTGAAGTAGTTTATACTCACACCCCTTGGTTAACCTTTGATCTTGCTAACTTACTTGTTTCTATTGATCTTAGTGTTGAAGCATCTATTATGGTTGAGAGGATCAAAACTATTCATGAAGAAGTTCAAGCTAAACTCGAACGAGCTAATGCCTCCTACAAACACATTGCTGACGCTCACAGACGACCAGTCAGTTTTCAGGTCGGTGACCTTGTTATGATTCACTTAAAGAAGTCTAGCCTGCCGTCAGGTTCCCATTCTAAGCTCACTAATAAGAAGATTGGACCAATCCCTATCTTGGCGAAATTTGGCTCAAATGTCGTTCAACTTGATTTACCACCCACATTGAAGATAAGCTCTACGTTCAATGTCTCAGATATCTACCATTATCATCCTCCTGATCAGTTTAACATCGCTTAGTCCAACTCAAAGACGGTTTGTTCTTCTTGGGGGGATAGACTTGACGTATATTGTTGGTCTTGATTTAGTTTATTTGTTTACCTTTTCCTTTTGTTAGTTTTGTTTTTAAGTGTAACCGGTTGTCTAGGTTATGGTAACCGGTTGACCTATTGGTTTAGGGTATAAATAACCTTTGTTATCCTCTTATTTCATTCATTAAAAAAGATTCTCAAAGGTTTTCTTGGAGCTTTTCTTGGAGCTACATCAGCTATGGCACAATTTGTGTGTGAAATAGTGTAGATACACCAACTTTTATCTGAGATGGGCTTCAATGTTACCGTGTCAACTAAATTATGGTGTGATAATCAAGCTCTACTTCACATTGCATCCAACCCAGTGTTTCATGAACGAACTAAACATATTGAAGTGCATTATCATTTCATTCGCGAGAAAATACAAGGGTTGATATCTACAATATATGTGAAGAGTGGAGAACAGTTGCGAGATATCCTTACCAAAGTTGTAAACGAAGCAAGAAAAAGTTATCTATGCAACAAGCTGGGCATGATTGACATATTTGCTCCAACTTGAGGAGGAGTGTTATAACATGTATTTATTGTATAGTTGTCCTTTATTGTAATTTTACATTCTCTAGATTAGGGTTTCCATCTTGCCTATATAAATATGTACCTTTAGTTTGATTAATAATATAGAGATTATTCTCTAAAGTACAGAGTACAGGTTACACTTTTGAATTCTTTAAAAAGTCTTGGAACATCCTAAAAGATGACATTGTTAGAGTGTTCCAAGAATTTTTTCAGAAGGGTATTATAAATAAAAATTCAATGAAACATACATTTGTCTCATTCCAAAGAAATTAGATGCTAGGAAAGTGGGGAACTATAGACCCATAAGCCTCACCATGGGGTTATACAAAATCATTGCTCGTGTTCTCTCAAATAGGTTGAAGAAAGTGTTTCCCCCCACTATCATGGATTACCAATCCGCCTTTGTTGAAAGTAGACAGATTTTGGACGCCTCACTCTTGGCAAACGAAACATCAAGGAATGGCATAGGAAAAATGCTCAAGGGGTGGTCCTTAAACTTGATGTGGAGAAGGCTTTTCAAAAGGTTGATTGGGATGACCTTGATGAGATTTTAAAAGTCAAAGGGTTTGGGCACAAATGGAGACAATGGATTAGTGGTTGTGTTTCGTCCACAAATTTCTCTATAATCATCAATGACAAACCAAGAGGAAAGATTCTCGCATCTAGGGGCCTTCGACAAGGTGACCCATTGTCCCCATTTCTATTCATTATGGTGATGGATGCTCTCAATAGAATCTTATTGATTGCCGCATTGAATGGATACGCCTCGAACAACAATTCCCTACACATAAATCGCCTCTTATTTGCTAATGACACCATTTTCTTCTCAACAAACGATGAAGAAAAGATCGATAATCTCATCAACTTGGTCAGTTTTTTTAGGAAGCTTCTGGCCTTAATATCTACAGACAAAAATCAGAATTCCTGGGTATTAATTGTGATGATGTTTGGGTGGAAAACATTGCTGCAGATTATGATTGTAAAATTGGCTGCTGGCCATCTGCATATTTGGGCTTTCTCTACATGGCAAACCTTCCTCACCAACCTTTTGGCAAACCATCATGGACAAGATTGAGAAGAGAATTTCATCATGGCAACACAACTTCCTTTCTAAAGGAGGTAGACGTCTCTTAAATGCCACCCTCTCTAATTTAACTTTATATTACTTATCCATGTTTAAAGCCCCAACAAAAGTGGCAGCAAGTATCGAAAGGTGTTTTCAAAAGTTTCTGTGGACTGGTTATAGAAACAGCTCCCCTCCCACCTTCTCTGTTGGGACATTCATAAATTCCCTCTAGATGAGGGTGGTCTTGGCATTGGAGATATCAGAAAACGAAACAATTCATTATTGGCAAAGTGGATATGGTGTTTCAAACACGAAAGATGGGCTCTAGGGAGGAGATTCATCAAGGCTAAATATGGGTCAAGTCATTACGGTCAACTCCCTTCCACCATTCGGCATACATCTTTAAGAAGTCCATGGTGCAACATTTTGAAGGTAAAGGACCATGTCTGTAGCAATATATTAATCAAAGTTGGAAATGGACAGTCCACATCCTTGTGGAATGATCAGTGGATTGGAACTTCTCCCCTCAAAATTAGTTTCCAAAAGCTATTCGCCATTCCTAAACAAAGGATGCAACCATTGCGGAGGTTTGGGACTCTACGAATGAGTCCTGGACCCTTAATTTTAGAAGACATTTGAAAGATGATGAGATTTGTGAATGGGCTTTTTTTAGTTAGAATGTTCCCAGCATCCATTTATCTAATCAACAGGATAGTTGGATATGGCAGCTTGAAAAGAGTGGCGTTTTCTCTACCAAATCACTGATGTACCACTTAACCACGACATCGTTCTCTGACCAATCTGGATTATTCAAAAAGATATGGAAGCTTCCATGTCCTAAAAGAGTTAAATTCCTATTGTGGGAAGTGGGTCATTCTTGCCTCAATACTACGGACAGACTACAAGTCAGATGCCCTTGGATTAGCTTATCCTCATCATGGTGCTGCCTTTGTCATGAATCAAATGAATCTATCCATCATTTACTTCTCCATTGCAAATTTACCAGAGTTGTATGGAATGAAATCTTTAGTGCCTTTGGATGGACCACCGTGCCTCCTCAACATGTTTTTGACTGGCTCAGCATGACACTTATCGACCACCCTTTCAATGCCACTAAAGGAGTTGTTTGGTCTAGTATCATTTGTACGGTGATATCAAAGGTTTGGGAAGAGAGGAACGCGAGGATTTTCAAAGATACATCCAAGTCCACAAATAAAGTGCTTGAATTATCCATTTTCAACGCAATCTTTTGGTGTAAAAATTTACTTCCCCTCAAAGATTACAGTTTATCTTTTCTTGTTGCTAATTGGAACAACCTTTTGTATTCCCTATAA ATGTGGATCAAACATTCAAATTTTTTACCTTTTTTGGATGAATGGTGGAACAGCCATCAACACTCTAGAAGGCCGGGTCATGGGCTCATTCAAAAACTTAAGAAATTGAAGGTTGCCTTAAAAGAATGGAAGATCAACACCTTTGGGTTTATTGAATCACAGAAAGATGCATTATTAAAGGAATTGGCTCTTATTGACAAAATGGTTGAATCAAACTCCACCACGGAGTCCCTTAACAGTCGTCGTTTATCTATCAAAGATTATGATTGTAAAATTGGCTGCTGGCCATCTGCATATTTGGGCTTTCTCTACATGGCAAACCTTCCTCACCAACCTTTTGGCAAACCATCATGGACAAGATTGAGAAGAGAATTTCATCATGGCAACACAACTTCCTTTCTAAAGGAGAAACAGCTCCCCTCCCACCTTCTCTGTTGGGACATTCATAAATTCCCTCTAGATGAGGGTGGTCTTGGCATTGGAGATATCAGAAAACGAAACAATTCATTATTGGCAAAGTGGATATGGTGTTTCAAACACGAAAGATGGGCTCTAGGGAGGAGATTCATCAAGGCTAAATATGGGTCAAGTCATTACGGTCAACTCCCTTCCACCATTCGGCATACATCTTTAAGAAGTCCATGGTGCAACATTTTGAAGGATAGTTGGATATGGCAGCTTGAAAAGAGTGGCGTTTTCTCTACCAAATCACTGATGTACCACTTAACCACGACATCGTTCTCTGACCAATCTGGATTATTCAAAAAGATATGGAAGCTTCCATGTCCTAAAAGAGTTAAATTCCTATTGTGGGAAGTGGGTCATTCTTGCCTCAATACTACGGACAGACTACAAGTCAGATGCCCTTGGATTAGCTTATCCTCATCATGGTGCTGCCTTTGTCATGAATCAAATGAATCTATCCATCATTTACTTCTCCATTGCAAATTTACCAGAGTTGTATGGAATGAAATCTTTAGTGCCTTTGGATGGACCACCGTGCCTCCTCAACATGTTTTTGACTGGCTCAGCATGACACTTATCGACCACCCTTTCAATGCCACTAAAGGAGTTGTTTGGTCTAGTATCATTTGTACGGTGATATCAAAGGTTTGGGAAGAGAGGAACGCGAGGATTTTCAAAGATACATCCAAGTCCACAAATAAAGTGCTTGAATTATCCATTTTCAACGCAATCTTTTGGTGTAAAAATTTACTTCCCCTCAAAGATTACAGTTTATCTTTTCTTGTTGCTAATTGGAACAACCTTTTGTATTCCCTATAA ATGTGGATCAAACATTCAAATTTTTTACCTTTTTTGGATGAATGGTGGAACAGCCATCAACACTCTAGAAGGCCGGGTCATGGGCTCATTCAAAAACTTAAGAAATTGAAGGTTGCCTTAAAAGAATGGAAGATCAACACCTTTGGGTTTATTGAATCACAGAAAGATGCATTATTAAAGGAATTGGCTCTTATTGACAAAATGGTTGAATCAAACTCCACCACGGAGTCCCTTAACAGTCGTCGTTTATCTATCAAAGATTATGATTGTAAAATTGGCTGCTGGCCATCTGCATATTTGGGCTTTCTCTACATGGCAAACCTTCCTCACCAACCTTTTGGCAAACCATCATGGACAAGATTGAGAAGAGAATTTCATCATGGCAACACAACTTCCTTTCTAAAGGAGAAACAGCTCCCCTCCCACCTTCTCTGTTGGGACATTCATAAATTCCCTCTAGATGAGGGTGGTCTTGGCATTGGAGATATCAGAAAACGAAACAATTCATTATTGGCAAAGTGGATATGGTGTTTCAAACACGAAAGATGGGCTCTAGGGAGGAGATTCATCAAGGCTAAATATGGGTCAAGTCATTACGGTCAACTCCCTTCCACCATTCGGCATACATCTTTAAGAAGTCCATGGTGCAACATTTTGAAGGATAGTTGGATATGGCAGCTTGAAAAGAGTGGCGTTTTCTCTACCAAATCACTGATGTACCACTTAACCACGACATCGTTCTCTGACCAATCTGGATTATTCAAAAAGATATGGAAGCTTCCATGTCCTAAAAGAGTTAAATTCCTATTGTGGGAAGTGGGTCATTCTTGCCTCAATACTACGGACAGACTACAAGTCAGATGCCCTTGGATTAGCTTATCCTCATCATGGTGCTGCCTTTGTCATGAATCAAATGAATCTATCCATCATTTACTTCTCCATTGCAAATTTACCAGAGTTGTATGGAATGAAATCTTTAGTGCCTTTGGATGGACCACCGTGCCTCCTCAACATGTTTTTGACTGGCTCAGCATGACACTTATCGACCACCCTTTCAATGCCACTAAAGGAGTTGTTTGGTCTAGTATCATTTGTACGGTGATATCAAAGGTTTGGGAAGAGAGGAACGCGAGGATTTTCAAAGATACATCCAAGTCCACAAATAAAGTGCTTGAATTATCCATTTTCAACGCAATCTTTTGGTGTAAAAATTTACTTCCCCTCAAAGATTACAGTTTATCTTTTCTTGTTGCTAATTGGAACAACCTTTTGTATTCCCTATAA MWIKHSNFLPFLDEWWNSHQHSRRPGHGLIQKLKKLKVALKEWKINTFGFIESQKDALLKELALIDKMVESNSTTESLNSRRLSIKDYDCKIGCWPSAYLGFLYMANLPHQPFGKPSWTRLRREFHHGNTTSFLKEKQLPSHLLCWDIHKFPLDEGGLGIGDIRKRNNSLLAKWIWCFKHERWALGRRFIKAKYGSSHYGQLPSTIRHTSLRSPWCNILKDSWIWQLEKSGVFSTKSLMYHLTTTSFSDQSGLFKKIWKLPCPKRVKFLLWEVGHSCLNTTDRLQVRCPWISLSSSWCCLCHESNESIHHLLLHCKFTRVVWNEIFSAFGWTTVPPQHVFDWLSMTLIDHPFNATKGVVWSSIICTVISKVWEERNARIFKDTSKSTNKVLELSIFNAIFWCKNLLPLKDYSLSFLVANWNNLLYSL Homology
BLAST of HG10009925 vs. NCBI nr
Match: CAN75040.1 (hypothetical protein VITISV_026478 [Vitis vinifera]) HSP 1 Score: 177.6 bits (449), Expect = 2.3e-40 Identity = 130/475 (27.37%), Postives = 196/475 (41.26%), Query Frame = 0
BLAST of HG10009925 vs. NCBI nr
Match: RVX15530.1 (putative ribonuclease H protein [Vitis vinifera]) HSP 1 Score: 169.1 bits (427), Expect = 8.3e-38 Identity = 97/307 (31.60%), Postives = 141/307 (45.93%), Query Frame = 0
BLAST of HG10009925 vs. NCBI nr
Match: RVW67766.1 (hypothetical protein CK203_065561 [Vitis vinifera]) HSP 1 Score: 167.5 bits (423), Expect = 2.4e-37 Identity = 93/260 (35.77%), Postives = 128/260 (49.23%), Query Frame = 0
BLAST of HG10009925 vs. NCBI nr
Match: RVW50733.1 (putative ribonuclease H protein [Vitis vinifera]) HSP 1 Score: 166.4 bits (420), Expect = 5.4e-37 Identity = 102/337 (30.27%), Postives = 150/337 (44.51%), Query Frame = 0
BLAST of HG10009925 vs. NCBI nr
Match: RVW41830.1 (hypothetical protein CK203_108403 [Vitis vinifera]) HSP 1 Score: 162.9 bits (411), Expect = 6.0e-36 Identity = 98/304 (32.24%), Postives = 135/304 (44.41%), Query Frame = 0
BLAST of HG10009925 vs. ExPASy TrEMBL
Match: A5BV95 (Reverse transcriptase domain-containing protein OS=Vitis vinifera OX=29760 GN=VITISV_026478 PE=4 SV=1) HSP 1 Score: 177.6 bits (449), Expect = 1.1e-40 Identity = 130/475 (27.37%), Postives = 196/475 (41.26%), Query Frame = 0
BLAST of HG10009925 vs. ExPASy TrEMBL
Match: A0A438K2W1 (Putative ribonuclease H protein OS=Vitis vinifera OX=29760 GN=VvCHDp000001_863 PE=4 SV=1) HSP 1 Score: 169.1 bits (427), Expect = 4.0e-38 Identity = 97/307 (31.60%), Postives = 141/307 (45.93%), Query Frame = 0
BLAST of HG10009925 vs. ExPASy TrEMBL
Match: A0A438G6D2 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_065561 PE=4 SV=1) HSP 1 Score: 167.5 bits (423), Expect = 1.2e-37 Identity = 93/260 (35.77%), Postives = 128/260 (49.23%), Query Frame = 0
BLAST of HG10009925 vs. ExPASy TrEMBL
Match: A0A438ESM4 (Putative ribonuclease H protein OS=Vitis vinifera OX=29760 GN=VvCHDh000004_577 PE=4 SV=1) HSP 1 Score: 166.4 bits (420), Expect = 2.6e-37 Identity = 102/337 (30.27%), Postives = 150/337 (44.51%), Query Frame = 0
BLAST of HG10009925 vs. ExPASy TrEMBL
Match: A0A438E2J1 (zf-RVT domain-containing protein OS=Vitis vinifera OX=29760 GN=CK203_108403 PE=4 SV=1) HSP 1 Score: 162.9 bits (411), Expect = 2.9e-36 Identity = 98/304 (32.24%), Postives = 135/304 (44.41%), Query Frame = 0
BLAST of HG10009925 vs. TAIR 10
Match: AT5G18880.1 (RNA-directed DNA polymerase (reverse transcriptase)-related family protein ) HSP 1 Score: 55.1 bits (131), Expect = 1.6e-07 Identity = 37/137 (27.01%), Postives = 58/137 (42.34%), Query Frame = 0
BLAST of HG10009925 vs. TAIR 10
Match: AT3G25720.1 (RNA-directed DNA polymerase (reverse transcriptase)-related family protein ) HSP 1 Score: 47.0 bits (110), Expect = 4.5e-05 Identity = 56/259 (21.62%), Postives = 101/259 (39.00%), Query Frame = 0
BLAST of HG10009925 vs. TAIR 10
Match: AT4G10613.1 (RNA-directed DNA polymerase (reverse transcriptase)-related family protein ) HSP 1 Score: 45.8 bits (107), Expect = 9.9e-05 Identity = 27/105 (25.71%), Postives = 50/105 (47.62%), Query Frame = 0
BLAST of HG10009925 vs. TAIR 10
Match: AT2G06845.1 (Beta-galactosidase related protein ) HSP 1 Score: 45.1 bits (105), Expect = 1.7e-04 Identity = 29/104 (27.88%), Postives = 48/104 (46.15%), 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:
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