HG10009730 (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.ATGTATCCCAACTCCGGCCACATTAACGGCTTCGACGACGACGGCTCCTCCTCCGAGAAACGGCCCGGAACCGTCCAGAAGGGCCGGCCTCGCCGGGGAAGAGGTAGCAGGTCATCCAGTGGCGGCGGAGTGAGGGTTTCTGAAGATAAGCAGCCGTCGCAAGTGGAGGGACCTCCTTGTACTGACTTCGACATGGCCTACTTCCAATCCTACTCCCACGTTGGTATTCACGAAGAAATGATCAAGGTCTGTTTCGGTTGTTGTTCTTTATTTGTGAGAATTACTGATGCGTTTTAATAGATAATGTCAATTTCCTGCATTAATTTTGTTCTGTACTGGGAGCGGCGAAACTTTGGGGATGGCAAGATTTTCTCAACCCGGGCAGCATGTAGGACATCTTTTCTAGAATTCATAATTGATATCAAGACTTTGAAGAAAGACTGACTAATGAAAGACCTTAGACTTTTTGGGGACCTCTTATATACATATAAAAATTCTGAGAATCTATATCCTCCCTGGAAAATGGCAATAAAAACACCCACTAAGGAGCTGATGGTGAAGGAACTAGGTTGACTGAGCTGTAGTCTAGTATTTTGGTTTAGGGAAAGAATAAATGTTGTCAAGATTTGCCAAAAGGAAGAGGCACTTCTCTGTTTATCTGTCCTTAATGGTCTCCTCGGTAGAAAAAGAAATTCAAGAAACTGAGTTCTAGTTTCAGATATACATATACTTTGACTGCAACCCCTTTAGAAATTAGAACAGCATTTAAAGCCTTTTAAAGACATCACATGAGGTGAGGCTTTTATATGAGCCATATTCTTGAAATTCAACTGAAGCCCAATTGCCGAATTTAAAAGAAAGAAGCTTAATAATATTGGAGAGCTTGGAGATGTTATGGTATGAGCTTTTTCATAGTAGAACATGGAGTCGAAAATTCCTTACCATATCTCCATTATTCTTTTGGCTGAATCCAAGAGTAGCCATTCTAAATGTTTTGAGTTCTTTTAATGGATTTATGTTATTATTTAGAATGAATGAATTATATTAGCTAAAGATAGACGTAAATTTAGAAATTCTACTGCAATCATGTTGTTCTTTCTTTACATTGATAGATATTATGAATGAAATACCTATTTTCAGGATAGCATACGGACAGAAACTTATAGGGCGGCAATTATGCAACATCAGAGTTCTATTGCTGGCAAAGTAATAATTTTGTGCTTAACGTTGTTAAATTTGTTTCTTTGTCATGAAATAGTTTGGTTAAAACATGATTTTGGTCCCATTACTTTGGGACTTGTTCTATTTTAGTCTGTTTATTTTCAAATATCTAATTTTAACCCCTATACTTTTGATAAATGAAATCTTAAGAATATCCGTATCATTAGTTTGTTATTGATTTTTCTGTAAACATCCGGTCTTTATTAACCTTCGCTTCATAAATGTTAGAAACATATTCACACAGTGTCTATTATTACCAAAATTATTATTGTTATTTAATCAACTTTGATAAACATTAACTTTGAAGGATCAAATTTAAGATTTTTTGAAAGTGCATGGACTAAAATGGATTGAATCCCAAAGTACAAAAACCAAAATGGTATTCTAACATGATAGTCTCTTATCCAATTTTTTGTCTTTTTTCCTTTTCTTTTCAAATAAAAGAAATAGAAATTTTCATCAATAATTAAAAAGTTGCAGATGGATAAGGAAAAGACTTCTTCCTTTAGGAGAAGACAATCCTCCTAAACACAGGAAATTACAATTTCATATTATGAAAAACCACTTTTAGCTTTTCTAATGGTGAGGTATTTTCATTTTTGCATGAAACTTTGTGTATAGCAGAGAAAAAAGTTGCAAATAGTAAATTTTCTCTGCTATACACAAAGTTTCATGCATTTGTTGTCTTTGACTCTTGCACCCATTATTCATTATTTTTTACTCTATCAAAACAGGGTTGAGACTCCGGTCTTTCATTTGTACAGCTCCATATACCCATTTCTGGATTATATTTGGACCTGTACTTGGTTTCCTGTTTATTTACTAAAGTCAATTGAATACAGGTTGTAATGGATGTTGGCTGTGGCACCGGAATTCTCTCCATATTTTGTGCTCAGGCTGGTGCAAGGCGGGTGAGCTATGCTGTGTCTAAATGTGTTTTTTCTAAAAAAAAATTATTGAAAAAATGTGGGTAATCTATTTTTAAATTGTTCTTGGACTTTTAGCTTTTCTAGTGGTGAGGTATTTTCATTTTTGAATATTGGTTGAATTGGTCCAAACATTTCGCTGTAGGGTCCTAGACATCTTTCTCTTAACTCCAATTCCTTGAAATTCAATCATTAGCAGCCCTTTTTCATCGTACTTTTCTATTAAAGATTGTTTAGTTATTAGTAAACAAAAAATTTATGCAGATTTTCATAAGAAAAAAATATTATGCAGTGAAACACAAGGGAGTGCCCATTACTATCAAAGCTTGATATATGTTATTATCCAAACTTTGGGCTGAAAATAGGAAAAATCAAGAGTATTTCAAGAAGTGGGAGTGGTGTTAGATCATGCTCCCATTTGTTTTTGTTTTTATTTCTTTTAATAAACAGATTGGATCGGAGTGGAAAGGATTTGATCTCTGTGTATTGTGCTAACGGAGCTACTTTGCCATTTACAATACCATGTTATGTATTTAAGTCGTACTTCATTTTTGTTAGAATCTAGTAGATTTTGTTGGGCCCTCCTCCTTTTTGATTGTGAGTATTTGGATGCAAGAACCAAAATGTTTAATGTTGGTTTAAGGCTGGTGGGCAAGATTATAGCTGTAGTTAATTGTTGCATTGGGTTGGGTATGGGCTAATGAAGAAACTAAAATGTGCGTTTATAAAAGACTTGAGTATTAAGAAGAAGGAATTCACTTTTAAGGTAAGGCAATTGATTGAAAAGGAGTAGAATTGATTGATCCAGCAGATGAAATACTCTACTAGTTGGGTAATGGAAAAAGAAAGAAGGAATTTCAAGAATGGTGTTGTGAAGAAGAAAGAACCTTTTAGACCTAGTAATGGTGAAAAAGCTTGTGATGTCAACAGCACAACTCCTCCATGCATCAAATGGATAGAAATGATGGCCCTTCCTGAGCTGCATGGTTTTGTGTTTGGTACATGGTATTGGATGATTTGATCAATGCTTGGGGCTTGGGTATGCAATTGGGATATTGTTCACAGAGTGACCGAACAAAGAATGTTGGTGTTGTTTATATTGAGTACATATTACATCAATGAAAAGTTCTGTTTCCTTCCAAAAGAAAAAAAAGATGGAAAAATGTTAGGAGCATTGGAAAGATCCATAACTAGAGACCTTAGGGTGTAAGACTTGAGAGACCATTGTCCGATGAATTTAAATGTTCTTGTAACAATGTATGCCATCATTTAAGTTGAGAACATGGCAGCCTACACATTGTTGGTTTTCGAGAAGAATGAGGGAAGGATGATAGCATATTAGTGGAATATTGTAGTGGAAAGTCTGTTAAATTACTGATCCAAAAGCTTAAGTTGATGGATAAAGGTAAATTTAATATTATATTAACACTTTAACTCTCCCCCTCACTTGTGTGCTTGGAAATTTGTAGAAGACCCAATAAATGGAAATCAATATTAATTGGGGAGGAAATAACATTGTAGGGGTTTGAACACATGACCTACTGCTCTGACACCATGTTAATCACTCGACCCAAGAGCTTATTGATGGTTTAAGGTAAATTGAATATTTATCAACACTTAACAACAAAGTCTTTATGTGAAATCTCCGGTGCAAATTTCAATCTTGTCATGTTGGTCTGTATTTAAGTAGAAAGAAAGTACATATGAGTAAGCTATCTTTGATCCATTCATCGATTTTGCAGCATCTTATATCTCCTTTCCCCTAAAAGGTGTTTCTAGGCAACTAACTTTCTTCTATTAAAATTTGTTGAAACTAGACTTCATGAAAAATCTCACAAAACATCTTAAAGTGGTATATTACTTCAATTTTTAAATGTCAACATCTGACCTGGTTCTAATTGCTAATGGGTTGGTGGAAAGTATAGAGTTAAGAGGGTAGAGGACGAATACGTTAGATGGGGGTTGCATTTGAATTTTGAAATTGCATTTGATATGGTTCATGGGGAGTTTCTATGAATGGTAATGGACAAAAAGAGGATTTTGGTTACGAAAGATGGATACGTGAGATGAAGGGCTTCGTTGCTCTTTTATTATTATTATTATTATTTTATTTTTAAGAAATGTATTGAATATATTAAAAAAAATGCGAACAAGGACCGCCTAAAGGCTAGGAGCCAAGACATATCCCTTCCAAAGGGAAACTATCAAAAAGAAACTCTCCAATTCCTAATAATCATGAAGACACTGTAGGTACAAAAGAAATCTTTGTGGTTTGAAGACCACCGGGTTGTCAAAATTGTATACTATCAACAAAAGACGCCATTATGTTCCACTTGTTCTAGAAACAATGAAGATTTCTTTCCTTCCAAACTAACCAAAGTGTTGCTCTCACTGCACAGTTTTGGCTTGCCCTTAAACTTCAACCCCAGAGGGGCTTCCAACAACCACCTGCCAATCTGACACAAGGGCATACCAAACTCATTGAAAATAAAAATCCAGCCACTAGAAACAAAGGGGCGATGCATAAGGAGGTGATCGATGGATTCAACCTCTCTCTACAAAGGTTGCACTGTTCATATAAGTTCCTCATCTTTCGTAAGGGAGCACTAAGAAAACTTTATTTGGTTGTCAGTTGTCCCCCAATCCCTCTAAAGGATTCACTTGCTATCTCTCCCTTCTCATTTTGGGCAACCATCATATGGCTACAAAACCTTTATTGGCCTTTCCGTTGCAAGTGAAAATTCTCAAGTAGGTTAAGTTTATGGCCTGGTAGGTTTTTTCATAGGAGAGTCAACATTTTAGGCAGACCTTATTTTGAGGGATTCTTTCTTCTTGATGGGGCCACAATACGATGGATTGTTTTCAAAGACAGCAATTGTATGGTTGATTGCAGTCAAAACAACTCTTTGAGTTTATGAAAAGAGAGAAGAAAGGCTGTTTCATGGTAGAGTAAAGATTGGGAAGAGGTGGTAGTGTTTGAAAAGTTGCCAATTCCATTTTAGGAAACAATTGTGATGTTCCCTTAAAAAAAAAAAGATTACATATAAATATCACAATTGGAAGTATGCTTATAGTTCAAAAGGGGTAGGCATACTCTTATTCAAGCCACTCTTTTCCGTTCTTCTACTTATTTCTTATCCTTATTTCATTTACCATCTATAGTCGCAAAATCCTAAGATAAGCTAATTTGTGACTTTTTCTGGGAAGGATCTAGAGGCGATGGTGGTATGCATAATGTTAATTGGGATAAGACTCCGTTTCCTAAATTGTTTGAAGGTATTAGAATTGGCAACTTCAAACGACGTTGGTCTTTTGGCAAAATGGATTTGGAGGTTCCTTCATGAGGATTTGACTCTTTGGCGTAAATTCGTTGTAGCTAAACACTATTCATCTGAATGACTCTATTGGCCTCAACACATTGAGCATGGTTCCTATAAATCTCATTGGAGGTTTATTAGCTCTACTTTATACATTATTGCTAATTGTGCTACCAGATGTTTGAGCAATGGTTCTTTTACTTCTTTTTGCTAAGTAGTGGGATTATTTTGTCAATTTTTTCTCGCCTGTTTCGATTAACTACTAGGCCTTTTCTCACAATTAGCAAGGTTGGTTTCTTAGAGTGCATGAAATTTATATCTTCATCAGAATCTTATTGATTTGGAAACTGTTGAATGGGCTACTCTCTCTTACCTCTCCCTGATACTTTACGACATCTTAATACATCTTAATGACTTTTGGTTCTGGCCCCTTGATCCATTTAACAATTACAGTCGAACCTCTCATGGAAGATTTGGTGGACTCCCATGATCCTTTTTCGGGTAATCTATACATGGTGATTTGGTTTGGTCTTTTTTCATTCTTTTAATGAACAATGTGGTATCCATTTCAAAGATACAAGTTGATTTAGTTAGATTCTTATACAAAGAAGATGAAAAATTTTCATTGAGAGCTTAGTCTTGGAATAATTAATACAACAGACTGACTTCAGGGGCGTATACCTTACATGTCCCTCTCCCCATCTTGGTGTATTATTGTGCTGATCACTCTGATATCTGGATGGATCACCTTTTTCTTCATTGCTCTTATGCCTCTTGTTATTGGACCACCATCCTTGATGCTTTTGGTTGGTCTTTGGCTTTTTTTGGATCGCACATATGATTTCCTTGCCTACATTTTTTATGGTCTCCTTCTCATGGAGAGAAGAAGAGTCTTTGGCTTGCTCTTTATAGAGTTCTCTTTTGATTCCTTTGGGTGGAAGGAATGGAAAACACTTCAGAGGTCCTTTTTCATCTTTTGATATGTTTATGGAATTGATTCTTTTTCACATTGTGTATTGGTGTAAACAATATCATCATTTTTCTGATTACAGTCAAATTGGAAAATCTTCATGTAATCCACCTATAGGTGTTTTGGCGATTATCACTTTTAATTTCATTCATCAATGAAATTTGCTTCTCTTTTAAAAAAAATCTATGAAATGTAATTAATACAAATTTTGTTTTTGTAAGAGTATTATTTGGCAGTCAGACAAGTTTACCGACTAATATCCTGACAAATTTTGTTTTTCTAAAGGTGATTTTATTGTGGCTAAGTATTACTCCCCCTCTTGTGTCTGGCCTATAGTGGTTTGGGGTGGGTCAACTCGTTCTCCTTGGAGGTTTATTTCTCATATTGTTGGTTTGATTGCTTCCTATACTTGTAATTGTCTTGGTAATGGTACTTCTATTTCTTTATGGAAAGGTCCTTGGCTGGAATGTGGTATTCTCTGTAATGCTTATCCTTGTTTATATCGCCTTGCGCTTCAACCTGATTTTTCGGTGGCTAATGCCTGGGTTGCCGAATCTGAGGCCTGAGACTTGGATCTTCGTCGTAATCTTAATGATCTTGAGGCTGTTGGGTGGGCTTCTTTATCTCATATTTTGTCATTGATTAGATTGTGTCCCATATCTGATTCTTGGTCTTGGACTTTGGATTCTTCTTCGTCCTTCTTTGTTAAATCTCTTTTAGATGATTTGATTGGGGTGGTTGAGCCACATGTCCAAGAGCTCTACTATTATTTGGAAAGATTTTTATTCCAAGAAGATGAAGCTTTTCCTCTGGGAGCTTAGTCTTGGTGCCGTTAATACTGCTGATCGTTTGCAACGTCATATTTAATTGATGTGTTATGTGTCAGTGCGACGGGGAATCTTCTGCTCATCTTTTTGTTCATTGCTATTTTGCTTCTTATTTCTTACACATTGTTTTGGAAGCGTTTGGTTGGTCTCTGACAGGATCTAACTCTATCTTTGATATTTTGGCATCTATTATGGTGGGTCATCCTTTTGGTGGTACTAAACGATTGATCTGGTTGGGCCTTACACGTGTTTTTTTTTAAGACCCTTTGGTGCGAGCGCAATGGGTTTGTCTTCAAAAACAATTTCTCATCTTTTGATAGATTTTTTATACAGTTTTGTTTACTGCTTTTTATTGGTGCAAAGATAAGCACCCTTTTAATCATTTCAGTCTATCTTACTTAGTCTCCAATTGGAAATGTTTCTTGTAATTACCTTTTGGCTTTGGGGTTTACCTTGTTTTATTAATCAATGAAATGTTTCTTATTAAAAAATATATATCCTTGCAAAAACCCGAATTTTGTAAGCCTGTTTTAGGGATTTAGCTTGATGTACTTTTTACCAGTACAATGAAATTTAATCTTGTTGTTTGTTTTGTTTTTTAAAATTTGAAAAATAAACTTCATTTGTTAATCTGAGATCTGGAGTAACAAATATTTATCACTGCACAACTTTCTTGAATGCGCGTTGTTTCTCGCTTTTGTCAGGTTTATGCAGTTGATGCAAGTGACATAGCACTGCAGGTATTATTCCAGTACGATATTAATATCTTAATTATTATTATGGTTGTAAATTGTATGCTATTGGGCTTTAAGCACTTGCGTGTTTCTAGGTACCACTTTCTTGATTTTTGCTACCTGAGCATTCTTTTTGTAATATCCTTCATCAATGTATGGCTTTATTTGTAATCATCCCTTCTTGCATTACTTTACTCTAAACCCTTTTATGTCGTGCATGTTTTCTGTATGCTCTTCTAGTTCTTTCATTTTTCTCAATGAAAGCACAGTTTCTTACCAATATATATATATATATATATATATTATTCTTATCAATTTTTCTTTTAGTGGTCTAGTATCAATCGTAATCCTTTTGGATGTAAACCAGTCTCATCTCATCATTACTATATATAAAAAAAAGGGAAACAAATCTTACATATTGATGCATTTAGTTTCATTCGTAGGTGTGAGTATGTGCTCCATGTGCAATTGTTATATTATTAATTTTTATAATATGTAATTTTATTAAAGATCCTAGTTAGACATCTATGAATCATGCAAGAAGCAGAATTTGAACTTTAGGTCTGAGTTGATTTTGCTTTTCTTTGCAGGCCTCGGATGTTGTTAAGGCTAACAATCTATCGGAGACAATCATTGTATTGCATAGTAGAGTTGAGGTGAGCTCTTTAAGTTGCAAATGGTCTTTGCTCCTATTTGGTTGCTTTGAGATTTCATTAATCTTAAATTGATCTGTTTAAAATGTTTCCATTATTGAGGAAAATATTAATTAATGACTGGAGTCTTTTTTTTTTTTTTTTTTTTTGAAAAGGATACAAAACTTTTCATTAAGAAAATTAAAAGAGACTAATACTCAAAATATACAATACTAAGTAAACAAATGAAGAAAAAGATCCTCGGGACGAGTAAAAGACAAAACAAAACCAGTAAGGTAAATGAAAAACAAGACTAATTAAGACCTTTTTTTAATTTTTTTTTATTTGATAAGAAGACTTATAGGACTTCTAGAAAGGGGAAATGAAGCATCCCAACTTTTGACTCCTTGCTTTGGTTGCCTTTTGATTCATCCTTCCTTTGTACTTCCATTCTTCAAATTGGTTAAAGAAATGTATCTATTATAAATTTTTGGGAACATGTAAATTTTAGGTAGCCTATCTTCAACTATATGGTGAAAGTAATCTCTCTAAATTTACAATCATAGATTCTTTTTCTATTGGCATCACAAGTACAGAGAGTTTTTCCCTTTTTTTTTTTAAAGGAAAGAGAGATTTAATATTAGTTAGTACAACATTAGGTTATTAGTATAATACTTAGTTGTTGCCAAGTTGAGTACAACTCATTGGTTAAGACATTTACCAACAAAAAGTAAGGTTTAAATCCCCACCCCCTACATTTTTTTTCATGCAACTGGTATCGAATTCCCACCCCCTAAACCCCCTACATGTTGATAACAAATATATTACTTAGTTGTTTATAATTAATTATTTAATAATTTTGATTAATTTGTTAATAAATGTCAATAGCAGTTGCATTATTGATGTTTTTCTCCTAAAATCATGCAGGATGTTCAAATTGATGAGGGCGTGGATGTTATAATTTCTGAGTGGATGGGATACATGCTTTTATACGAGGTGGTTTATTGACTTGTAAAGCTGGAAATAACTACCTTATCTGCAAGTTTACCTTAATGCTTTTCATGAAAGAACCATTTTTACTTTACTCTCTTTATTGAATAGTGGGGTTTTTGCTATTGCAGAGCATGCTTGGGAGTATAATTTACGCTAGAGATCGGTGGTTAAAACCTGGAGGCCTTATACTACCATCAAATGCAACAGTATCTTGCTTTTCTTATATTATCTTCAATTCTGATCTGTTGTGTAATACTGGTTGCAACTTTTTCATCGAGTTGTGCTATGAGACGTGTCTTACACTATCAACATATGTGTTACCTATTTTTCTGTAGAACCTCATAGTGGTTTGGGTGCTTCATTTTGTAATGAGAAATGAAACATTCATCTTGAAAGATGCAAGCTGTGAAAAGAATGGCTAGAGCTATTGAAGTGGGAAAACTTCAAATGATCAGCACATCACACCTGTGCAAAATGAAAAGCTATACGAAAAAATTCCCCTTGCATATATATATATATATATATATATTCTCCTGTAAAAAAAAAAGGAAAAAAAAAACAAGAAATGGAACTTTAATAGAAAAGATGAAAGCAGTTGAAATGAACTTTGTATGATCAGCATACCCTGTACAAAATGAAGGAATAGTGCTAAAACTTTGGCTAATTGGATTTACTTGGAATCAAAGCTTGTTTTGTGCTCGTGTGTGTGGTGTGTGCATGTGCTTTGTTTAAAAAGCTTGAATTGCTTGACAGATACTGTTCTGATTATATCTATCTTGCTCACAGTTGTACATGGCACCTGTTACTCACAGCGATAGATACAGTGCGAGCATTGATTTCTGGCGCAGTGTATATGGAATTGACAGTAAGGACATGTTTATTTATTTTTAATTTATTTATTATTATTTTTTAAGAGGAAGTAAGTACATGTTGAAGCTATGAATTTCTGTGTGTGTGTGTGTGTTTTCCTCCCATTTTTATGCCGTCTTGTTATTTAAATGTGTACACCTGGATCTCTTGTATGCTGTTACAAGTTAGGTTTTCTGTTTCTCTATCTCAGCTGTTTATCTAGAATTATTTGTACGTGATTGAATATGTAAGTAATTGGATCTGTTAAATTAACGAGAGGATTTTTTTCTCTAAATCCAACAGCTTCATGGTAATGTTAAGGGGCTAAGGCACACACTGTTATCAATGAGATTAGGAACCAAAGATCTTTCAATGATGGTTCAATTCCCTTCTAGAATCCAAACTTTAAAGTCTTGGTCGGTTTCTTGGATAATGATTAGCAAGGACGCTTGATCAAGAGGCCTATTCCTCCATCTCTGCACCAGAAAAGTTTCTCCTGAAACTGAGGTCCCAACCTGGGAAGGAATCTGCCCAGCATTAGATGTATCCCAACTCCGGCCACATTAACGGCTTCGACGACGACGGCTCCTCCTCCGAGAAACGGCCCGGAACCGTCCAGAAGGGCCGGCCTCGCCGGGGAAGAGGTAGCAGGTCATCCAGTGGCGGCGGAGTGAGGGTTTCTGAAGATAAGCAGCCGTCGCAAGTGGAGGGACCTCCTTGTACTGACTTCGACATGGCCTACTTCCAATCCTACTCCCACGTTGGTATTCACGAAGAAATGATCAAGGATAGCATACGGACAGAAACTTATAGGGCGGCAATTATGCAACATCAGAGTTCTATTGCTGGCAAAGTTGTAATGGATGTTGGCTGTGGCACCGGAATTCTCTCCATATTTTGTGCTCAGGCTGGTGCAAGGCGGGTTTATGCAGTTGATGCAAGTGACATAGCACTGCAGGCCTCGGATGTTGTTAAGGCTAACAATCTATCGGAGACAATCATTGTATTGCATAGTAGAGTTGAGGATGTTCAAATTGATGAGGGCGTGGATGTTATAATTTCTGAGTGGATGGGATACATGCTTTTATACGAGAGCATGCTTGGGAGTATAATTTACGCTAGAGATCGGTGGTTAAAACCTGGAGGCCTTATACTACCATCAAATGCAACATTGTACATGGCACCTGTTACTCACAGCGATAGATACAGTGCGAGCATTGATTTCTGGCGCAGTGTATATGGAATTGACACAAGGACGCTTGATCAAGAGGCCTATTCCTCCATCTCTGCACCAGAAAAGTTTCTCCTGAAACTGAGGTCCCAACCTGGGAAGGAATCTGCCCAGCATTAG ATGTATCCCAACTCCGGCCACATTAACGGCTTCGACGACGACGGCTCCTCCTCCGAGAAACGGCCCGGAACCGTCCAGAAGGGCCGGCCTCGCCGGGGAAGAGGTAGCAGGTCATCCAGTGGCGGCGGAGTGAGGGTTTCTGAAGATAAGCAGCCGTCGCAAGTGGAGGGACCTCCTTGTACTGACTTCGACATGGCCTACTTCCAATCCTACTCCCACGTTGGTATTCACGAAGAAATGATCAAGGATAGCATACGGACAGAAACTTATAGGGCGGCAATTATGCAACATCAGAGTTCTATTGCTGGCAAAGTTGTAATGGATGTTGGCTGTGGCACCGGAATTCTCTCCATATTTTGTGCTCAGGCTGGTGCAAGGCGGGTTTATGCAGTTGATGCAAGTGACATAGCACTGCAGGCCTCGGATGTTGTTAAGGCTAACAATCTATCGGAGACAATCATTGTATTGCATAGTAGAGTTGAGGATGTTCAAATTGATGAGGGCGTGGATGTTATAATTTCTGAGTGGATGGGATACATGCTTTTATACGAGAGCATGCTTGGGAGTATAATTTACGCTAGAGATCGGTGGTTAAAACCTGGAGGCCTTATACTACCATCAAATGCAACATTGTACATGGCACCTGTTACTCACAGCGATAGATACAGTGCGAGCATTGATTTCTGGCGCAGTGTATATGGAATTGACACAAGGACGCTTGATCAAGAGGCCTATTCCTCCATCTCTGCACCAGAAAAGTTTCTCCTGAAACTGAGGTCCCAACCTGGGAAGGAATCTGCCCAGCATTAG MYPNSGHINGFDDDGSSSEKRPGTVQKGRPRRGRGSRSSSGGGVRVSEDKQPSQVEGPPCTDFDMAYFQSYSHVGIHEEMIKDSIRTETYRAAIMQHQSSIAGKVVMDVGCGTGILSIFCAQAGARRVYAVDASDIALQASDVVKANNLSETIIVLHSRVEDVQIDEGVDVIISEWMGYMLLYESMLGSIIYARDRWLKPGGLILPSNATLYMAPVTHSDRYSASIDFWRSVYGIDTRTLDQEAYSSISAPEKFLLKLRSQPGKESAQH Homology
BLAST of HG10009730 vs. NCBI nr
Match: XP_038874306.1 (probable protein arginine N-methyltransferase 6 [Benincasa hispida]) HSP 1 Score: 455.7 bits (1171), Expect = 2.8e-124 Identity = 228/236 (96.61%), Postives = 233/236 (98.73%), Query Frame = 0
BLAST of HG10009730 vs. NCBI nr
Match: XP_022141585.1 (probable protein arginine N-methyltransferase 6 [Momordica charantia]) HSP 1 Score: 436.0 bits (1120), Expect = 2.3e-118 Identity = 219/238 (92.02%), Postives = 229/238 (96.22%), Query Frame = 0
BLAST of HG10009730 vs. NCBI nr
Match: XP_008465241.1 (PREDICTED: probable protein arginine N-methyltransferase 6.2 isoform X2 [Cucumis melo]) HSP 1 Score: 435.6 bits (1119), Expect = 3.0e-118 Identity = 222/238 (93.28%), Postives = 229/238 (96.22%), Query Frame = 0
BLAST of HG10009730 vs. NCBI nr
Match: XP_008465235.1 (PREDICTED: probable protein arginine N-methyltransferase 6 isoform X1 [Cucumis melo]) HSP 1 Score: 433.7 bits (1114), Expect = 1.1e-117 Identity = 221/237 (93.25%), Postives = 228/237 (96.20%), Query Frame = 0
BLAST of HG10009730 vs. NCBI nr
Match: KAG7032672.1 (putative protein arginine N-methyltransferase 6 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 427.6 bits (1098), Expect = 8.2e-116 Identity = 216/236 (91.53%), Postives = 224/236 (94.92%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy Swiss-Prot
Match: Q08A71 (Probable protein arginine N-methyltransferase 6 OS=Arabidopsis thaliana OX=3702 GN=PRMT6 PE=2 SV=1) HSP 1 Score: 312.8 bits (800), Expect = 3.9e-84 Identity = 162/227 (71.37%), Postives = 184/227 (81.06%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy Swiss-Prot
Match: A2Z8S0 (Probable protein arginine N-methyltransferase 6.2 OS=Oryza sativa subsp. indica OX=39946 GN=PRMT6.2 PE=3 SV=2) HSP 1 Score: 290.0 bits (741), Expect = 2.7e-77 Identity = 142/207 (68.60%), Postives = 170/207 (82.13%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy Swiss-Prot
Match: Q75G68 (Probable protein arginine N-methyltransferase 6.2 OS=Oryza sativa subsp. japonica OX=39947 GN=PRMT6.2 PE=2 SV=1) HSP 1 Score: 290.0 bits (741), Expect = 2.7e-77 Identity = 142/207 (68.60%), Postives = 170/207 (82.13%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy Swiss-Prot
Match: A2XYY8 (Probable protein arginine N-methyltransferase 6.1 OS=Oryza sativa subsp. indica OX=39946 GN=PRMT6.1 PE=3 SV=1) HSP 1 Score: 266.5 bits (680), Expect = 3.2e-70 Identity = 128/219 (58.45%), Postives = 164/219 (74.89%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy Swiss-Prot
Match: Q7XKC0 (Probable protein arginine N-methyltransferase 6.1 OS=Oryza sativa subsp. japonica OX=39947 GN=PRMT6.1 PE=3 SV=2) HSP 1 Score: 266.2 bits (679), Expect = 4.1e-70 Identity = 128/219 (58.45%), Postives = 164/219 (74.89%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy TrEMBL
Match: A0A6J1CII5 (probable protein arginine N-methyltransferase 6 OS=Momordica charantia OX=3673 GN=LOC111011914 PE=4 SV=1) HSP 1 Score: 436.0 bits (1120), Expect = 1.1e-118 Identity = 219/238 (92.02%), Postives = 229/238 (96.22%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy TrEMBL
Match: A0A1S3CNB7 (probable protein arginine N-methyltransferase 6.2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103502890 PE=4 SV=1) HSP 1 Score: 435.6 bits (1119), Expect = 1.5e-118 Identity = 222/238 (93.28%), Postives = 229/238 (96.22%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy TrEMBL
Match: A0A1S3CNE7 (probable protein arginine N-methyltransferase 6 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103502890 PE=4 SV=1) HSP 1 Score: 433.7 bits (1114), Expect = 5.5e-118 Identity = 221/237 (93.25%), Postives = 228/237 (96.20%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy TrEMBL
Match: A0A6J1JLT2 (probable protein arginine N-methyltransferase 6 OS=Cucurbita maxima OX=3661 GN=LOC111487043 PE=4 SV=1) HSP 1 Score: 427.6 bits (1098), Expect = 4.0e-116 Identity = 216/236 (91.53%), Postives = 224/236 (94.92%), Query Frame = 0
BLAST of HG10009730 vs. ExPASy TrEMBL
Match: A0A6J1HBC6 (probable protein arginine N-methyltransferase 6 OS=Cucurbita moschata OX=3662 GN=LOC111462455 PE=4 SV=1) HSP 1 Score: 427.6 bits (1098), Expect = 4.0e-116 Identity = 216/236 (91.53%), Postives = 224/236 (94.92%), Query Frame = 0
BLAST of HG10009730 vs. TAIR 10
Match: AT3G20020.1 (protein arginine methyltransferase 6 ) HSP 1 Score: 312.8 bits (800), Expect = 2.7e-85 Identity = 162/227 (71.37%), Postives = 184/227 (81.06%), Query Frame = 0
BLAST of HG10009730 vs. TAIR 10
Match: AT3G20020.2 (protein arginine methyltransferase 6 ) HSP 1 Score: 272.3 bits (695), Expect = 4.1e-73 Identity = 147/227 (64.76%), Postives = 166/227 (73.13%), Query Frame = 0
BLAST of HG10009730 vs. TAIR 10
Match: AT4G29510.1 (arginine methyltransferase 11 ) HSP 1 Score: 196.8 bits (499), Expect = 2.2e-50 Identity = 93/179 (51.96%), Postives = 130/179 (72.63%), Query Frame = 0
BLAST of HG10009730 vs. TAIR 10
Match: AT2G19670.1 (protein arginine methyltransferase 1A ) HSP 1 Score: 187.2 bits (474), Expect = 1.7e-47 Identity = 87/179 (48.60%), Postives = 127/179 (70.95%), Query Frame = 0
BLAST of HG10009730 vs. TAIR 10
Match: AT3G12270.1 (protein arginine methyltransferase 3 ) HSP 1 Score: 176.8 bits (447), Expect = 2.3e-44 Identity = 95/191 (49.74%), Postives = 129/191 (67.54%), 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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