HG10006363 (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.ATGGAGAAAACTGAGAAACTTCTCCTTCAAGAACCGATTGCAGAAGAATCGTCAATTGATTTCTTACTTTTCTTGCTTTTCTTGGACTTCTTGATATCGAAGAAAGGTCGGAGGAAATCAGAGAATGATGTGATTCCACTTGTAGAATCAGTTGTTTTAAGGATAAAGATGAGAATCAATTTTGAGACTGTCATTGTATGTGGTGGTGAAAATTTAAAAATTCAAGAACTAAATTTATAATTTAACCTATTTTTATATAATATATTAGTTAAGTTTCAACCTCAAAATCTTGTAATATTAGGGTTTAGTTTTAGTTTTTATTTCTTTTTAAATGTTTGTCTTAATTTCTAAACTATTTTTAAAAAATTGATCAAAATTTTAACCCACGCTATGTTTGTCTCAACAAATTATGTATACTAACTTGTGTGGTTTCATTTATTAAATAATTGTTATAAAAAGTAATAATAATATTAATAATTTTTCTATTCTAAAGTTTTGTGATCAAATTACAATAGATATGAAAGTTCAAAATAAGATATAAATTTACTTTTCAAAAAAAAAAAAAAGATATAAATTTAAATTTATTAATAGCAATATCTTGTGAAGTTTCCAATTGTTTAATACTAATTCAAATATGATAATTTCCTTAAAAAAAAATTAAATACTAGAAAATTTTCACATATAGATTGATATTAAAAAATGTCAAACTATTTATAAAAAATAAGAAAAAAAATACTGATAAATATTGATAGATTTCTATTAGCATCAGTAATAGACTTTTATCATTTCTATCACAGCAGACTTCGATAGACTTCTATTAGCGTCTATCACAACTATCTAATAATTTTGTTATTTTGTGTAAATAGTTTTCTTATTTTTTTATTTTTAAAAATTTCTCTAAAATGATACAACTTGTGCAGTTTTAATTTAGAAAAAAGAAAAAAGAAAAAAGAAAAACGAAAAACGAAAAATCTTCTCTTATAATTTAATTTTGTTTAATCATGAAGGTTAGAATTACTTTAGAATTCTTTATTTATTTATTTAAAAAAAAAAAGAGATATTTGTCTTTATTTTATAAAATAAAGTTTAACAATACAACTATAAAATTAATAGAGAATAATAAAAGGTGGGGATCTCTAGCATTTTAAAACCATAAATAAGACAATAAGTTAAGAATATGATAATAAACTGTCTCTAATTTAATATTAAAGATAAATATTATAAAGTCATAAAGTTAGAACTTTGAATTTTTTTATCGACCATCATGATCTACTTTTCAATTTAAAAACATATTTAAGACTGTTAAAATCATATATTTTTGTCCTCTTCTAAAATTAGATTGAAACATGTTTTCAATTCTTTAAAATTAATTTTAATTATATGAAAATCTAATTTAAAAATATAAAATTAGAATGATTTAATAATTATTTTAAAAATTGCAGTTAGATTTGTTAGTTAATTTCTACATCATTATCATTTGGATAAAATTTGTCTTTTTTTTTTATTTTTAAAGATTATCAATTTGTTGGATGGAATTGAACTATCGACTTTTGGAAGGGTCAAATAATGTTTCGTGAAATTCACAAAGTTATATAATATTTGTTTGGTTTAATAAAAAAGAAAATGATTACTCAAAAAATAATAAAAAAGAAAATTATGATTGTTACATTAGTTCTATATTTTTTTCAAGCCTATGTCGGTAAAGAATGTGTTAGATTTGGCCTAAACTTAGCTCAAATCCACTAGTAATCAAATTCGCTAAATTATTTTAAGTTTTATTTTCACTCACATCATAATTTTTTAAAGGAGAATATTTATATTAAAGTATCTAATATCAGTACAAGATACTTAAATTTTTTAAATCAATTTAAACATAGCTTACATATTACTTTTTCTAATTGTAATGATTTGATAGGTCGAAGATTTAGACTACTCACATTTTAACATGAAAAGTCGTCGTATCCAACCATGTATATTTTTCACCTATAGAAGTATTATAAAAATTAATATTTTTATCAATATAAGTAATATAAATTAATATCAAACGAGCATGTCAGATCGTATTTAACATTCCATCAGGATTACTAATGGCTACTTCAAGGCCCAAAATTAACATTTATAAAAACTCATGAGTAAAAATAATAAAACATTTTAGAATTTAAAGAAAAACTAAACTCATCAACTAAAAAGATGTTGTTTAACTCAATGGTAATTGACATGACTTTCCTGCTCCATGGAATTGTTATACTAAAAAAGAAAAAAAAAAACTATACTTAAAACTCAAAAGTAAAAGTGTACAAATTGAAACTCAAGTATCAAATATAAACTAAACTTTAAATTCATAAGTAAAACATCCCAAAATAGAAATAAAACTCAATCTTCAAAGCTCATAAATTAGTCGAGATGAGCATAGCTCAACTGATACAAAACTTTATACTCATCGATCTCGAGATTAGAAATTTGATTCACCCCTATGATGTTATAAAAAAAAAAAAAAAGAAAGAAAAAGAAAAGGCTGATCAACTAAAAAGATGTTTATTTATTTTTCTTAGAACCTCCGAGAGGAAACTGACCAAAATATGGGCCTGGGGATAGGCCCATTAAACCTCCATGTGGGCCTGTTTGCTCTATTGGGCCATTGGGGTAAGGAGATAGGCCCATTAAACCTTCATGTGGGCCTGTCTAGGGCTTCATTTCCCTCAGCTTCCAACTGAAATGGCGGCCATAGTTCTCCCCTCCTCCATCTCCTCTCTTACCTACTTATTTATGTTAATATCTACGTTTCCCAGATTCATTTCTTGATTTGTATTATTCTAAATCCCTAGAACTGCTCAGCTGCTCTGGTTTTTGGGGATTTTAGGGGCTCGATCTGGTGGGTTTACGGTCAAATTTTGCAGCTTTTCGAGGTCCTTTTGGCTTGCATTTTGTCGGAAGTTACAAAATGTTTTTGGTCGATTGGTTCTATGGAGTTCTTGCATCCCTTGGGTTGTGGCAAAAGGAGGCCAAGATCCTTTTCTTAGGGCTCGACAATGCTGGCAAAACGACCTTGCTTCATATGTTGAAAGACGAGGTACGTTTCTTTATGATTCATAAGTTTATTTTCTTCATTCATTTTGTTCGATCAGTGTTCATGACTGAAAATCGATGAAATGCATTCCATGGCGAGATAGCAATGCCACAAGCCTCGAATCTTGATTGATTGTTGTTCTTAGATTATGTGTTAGTTCCGGATCATTTCCCAAATGACGGGATATATGGAAATGCTTTTCCCCGAGGGAAACAGATGTTTGGATTTAGAATTCAAAAAGCGTAAAATGGTTGCTTTTTCTTAATTTCTCGATGTTATTGAAATCTGATTTGTTGCCTAGATTTAGTAGACGGCTAATTTAAGAGTTCATTTCTCTAACCTCTTGTCATATTGCAGAGATTAGTTCAACACCAGCCGACCCAGCATCCAACTTCGGAAGAGTTGAGTATTGGTAAGATCAAGTTCAAGGCCTTTGACCTAGGAGGGCATCAGATTGCTCGCCGAGTTTGGAAAGATTACTATGCTAAGGTATATTTTGTTTATCCCCTTTATTTGATATTCCCCAATTCTGGATGTGTTAGACCTATACCGAGAACTATATGGTTCAAATGACCTATATCGTGATTGTATTTTATTTGAGTTGAAAGTTTCAGTTGACCAAATGAATAGTTTTCTGCAGATGGGAGGGTTGAATTTCTTGAAATATGCAACTGTTCAACTCTTGTTATTTTTTACTTCAGAAGTTAAGTCTATTTGAACACAGAACTATATGTCACCAGATTCAAATGGTTCTGTGCCTTCATAATCCTAGAGAGTTTTTTGTGTCGTTCTGATTCATGGGAGGCAGAAAATCTACAGTGTTATTATTATTGCATCCCTCCCGTGCCTTTATAATTCTAGCTGAAATGCTGAATACTTGTTCATTATTTAACATATTTGAGATCCAAAGGACTGAGTTGCCATATGTTCTTCTTTGAGGAAAGATCAACATCTTTGCTTCCAAATGCTAACTATGGTTTCAACTCATTGATTTCCTCTAAATGTACTTTCTTACCATTTTCAAAATGTTACTTGCCTTCATAATCCCAGACAACCTTTTTGTATTTTTCTGATTCATGGGAGGCAGAAATTACATGGTTATTCGCTGATAGCATATCTTCTTCTTAAAAGGTCTGCTTATAGTTCATAACCATACATTTTTTCATCATTGAAACCATTCAATTGCAAGTCATATGACTGAATATGATGTACCTCATTAACCAGATTTGAAATCTCATTTACTTCATTGCCATTTTGCCTTCTTTGTCATGGAAAGATTGAATCCTTTGCCTCAAAATGCTAACTGCAATTTAATATACATTGCTTTCATCTACCACCTTTACGGTTATTTGAACTCTAAGCCATCTCACCATGTTCAAAATGTTTCCATGCCTTCATAATCCCGGACTAACCTTCTTGTGTTTTTCTGATTCATGGGAGGCGTAAATTATATGGCTGTTCGCTGATAGCATATCTTCTCATTGAAAGGGTCTGCTTTTAGTACATAACCATACATTTTTAACTTGGTTACTGGACTTGCCATTTTGTCTACCTTTGAACTTTGAGCTGTCTAGCTTTCTTCAAAATGTTCTCCTGCCTTCATAATCCCAGACGAACCTCTTTGTGTTTTTCTGATTCATGGGAGGCAGAAACTATATGGTTATTCGCTGATAGCATATCTTCTCCTTGAAAAGGGTCTGCTTTTAGTAAATAACCGTACATTTTTCTTGTCATTGAAACTATTCTTGAACTATAAATTGTACCCATTGATATTTTTAAAAGACATTTGCCATTTTTTTTCTATAGTACGAGATTTGCCATATTTGAGGTCCAATGTACTGAATTAACGTACTGCCTTCTCTTTGGAAAGGACTGGGGAAGTTTTACTTCCAAATATTACCTACAGTTATCATACATCATTTTGTCTACCTTCGGAGTTTTGTGAAGTTTGAACCATCTTAGTGCTTCCATAATATTATCCTGCCTTCATAATCCCAGACAAACTATTTTTTGTGTTTTTTTGATTCATGGGAGGCAGAGATCACATGGTTATTCGCTGATAGTACATCTTCTACTTGAAAGGGTTTGCTTTTAGTACATAACCATACATTTTCCTCATCAACGGAGCTGTTCTTTGAAAGTTATACTGTAAATTAAATGCTGATTTTTTGTTTGATATTTTCCATATCTAAGATCCCAAGTTCTGAGATTTCTTATAGCCTGCTTGGTAGAGGAAAACTTAAGAATTTGGTTTTAACATACATTGATTTTGCCTAACTTTGCTATTATTTTAATTATGAACATTCTCATTGTTTTAAAAATGTTTCCCTGCCTTCATAATCCCAGCCAAACCTTTTTTGTGTCTTTCTGATTCATGGGAGGCAGAAATTACACGGTTATTCGCTGATAGCATATCTTCTCATTGGAAGGGTCTGCTTCTAGTATGTAACCGCAAATTTTTCTTGTTGCTAAAACCATTCTTCAACTATAAATTATACCATGGTCCTATTGAATCTTATATGTCATTTAACTTATTTGAGATCCCAAGTACTTGATTATTATAATTGCTTGTGCAAGGAGGAAAAATGTTAACCTTTGCTTCCAAATGCTAACTATCGTTTAACATATATATGGAATTCATCTACCTTTCTGAAACTGTGGCTATAAGATGTGGCTTTAGCAGGTTTCAAAATCATTTGTTACCTAACAGTCTTTGTAAAGGACAATCTATCTGCTTTGAGCTGTTTATTTTCTATCATATTAATTTATATGCCGTCAGCTGGTATCATCTAGCCTCGTGTTGCTTGGATTGTATAGTTCCTTACCATGTCTGTATCTTTTACTAAAAATGTTGCCATTGTTGTATGAAGGTGGATGCAGTGGTTTATCTGGTCGACGCGTATGACAAGGAGAGATTTGCAGAGTCAAAAAAAGAGTTGGATGCTCTCCTCTCTGATGAAGCATTAGCCGACGTTCCATTTCTGATCCTGGGCAATAAGATTGATATTCCATGTGCTGCATCAGAAGACGAGTTACGGTACAACCTAGGCCTAACAAACTTCACAACTGGGAAGGGCAAGGTAAGCCTGGTTGACTCGAATGTTCGTCCTCTGGAGGTTTTCATGTGTAGCATTGTCAGGAAAATGGGTTATGGGGATGGTTTCAAATGGCTTTCTCAGTACATTAAGTAGATTTTATTTTCTTTGTGCTGAGAAACAAATTATTTGTTCAACCTTTTACCTATCATTCTGTTGGTATGAATCTATGAGGGGTAAGATCTGCTTTTACCTTTTTCATTTCCAATTGAAACTCCCACACCAAAATTTGATTATAAATGCTGTAGTGAACTGGCTACTCTATTCTTCAAGGCTTCTCTCTCAATACACTAGTGGACAGTGGACATTCATGTCTCACATTGGTACAATTTCTTGCAAGATAAGAGATCCAACCATCGATCCTTGGGATGGTAATTGATGTTTTTTTCACTGACTTACCAGGTTTATCACGCAAATGTTCTTTGAAAGTTATTTGAAGCAAAGATGTTTTAATTGTATGACATGAATGACAACTTTGACACAACAAATTTAATACCTGTTCCATATGCTTATAATAAAGTATTTTGATTAAAATAACTTCGAAGAAAATTAACATAAATCTAATTTGAATGAGATCTTGTTTACTTGATTGTTGGTTGACCAAAATCAAGAAGACGAAGACGAGGATAACGACTAACAATCAACTAAAAAAGATTTGTAGAAATGACAATTTTAAGTTCAATTCAAAGTTAAACATGTTGAAAAGATCCATTAACAGGTAAGTATGTATCTATCCTTGACTTGATTTATGTCTACTAATGATAGATATCTATCACATATAGACATAAAAGTGATAATGAGTCAATCTAATTATAGTTCAATAAATAAAACATTAATTATGCTAAAATAAAAAAATAATTAAAAAAACACAAAATTTGTACTAAAGACTTCAAAGTTGATGATTTCACTCCACAATTATTGAACAACAAAAATGATGTATATATGATTGGTAATTGGTATAGCAATGAAGAAATGTATTAGTGTCATACTGAAAAAACGATCCGCATCAAATTACTTTTATGTGAAATTTACAAATATAGCAACAAATTTTAAATCTATTGTAATTTTGTTTAAATTAGAGTCTTATTCTATATTAGCTCTTAGAGTTACAAGACAGAAACATCACGGGGATGTAGCTCAGATGGTAGAGCGCTCGCTTAGCATGCGAGAGGCACGAGGATCGATACCCCGCATTTCCAAACCCTTTTTTTGTTTTTGTCTTCATTTCATGCCCCATCACTATCAGGACTGTCCCAAACCCAAAGGAAAAAAGACAGTGAAATATAAGTTATGTTATCTGTATTACAAATAAAGGGGATATAGCTCAGATGGTAGAGCGCGAGCGCTCGCTTAGCATGCGAGAGGTACGGGGATTGATACCCCACATCTCCATTTTTCTTTTTTTCTAAACTTTTTTTGTCATCTTCAACCTCATTCACCATTCAGGATTGACCCAAACCAAAAGGAAAAAGATACTGGCAGGTAAATTGTCTGCTTGAAAATTAGATAATATGTAATGGGGTTTTTCCTCACCATGATGTGGATGTAGCTCAGATGTTAGAGTGCTCGCTTAACATGCGAGAGGTACGGGGATTGATACCCCGCAGTTTCTTTTTTTCTAAACTTTTTTTGTCATCTTCAACCTCATTCACCATCCAGGATTGACCCAAACCAAAAGGAAAAAGATACTGGCAGGTAAATTGTCTGCTTGAAAATTAGATAATATGTAATGGGGTTTTTCCTCACCATGATGTGGATGTAGCTCAGATGCTAGAGTGCTCGCTTAACATGCGAGAGGTACGGGGATTGATACCCTGCAGCTTTCTCCATTTTTCTTTTTTTCTATTTTTTGTCATCTTCAACCTCATTCACCATTACCCAAACCAAAAGGAAAAGGATGCTCTAAATTATGTTGTCTGCTTCAAAATTAGATAATACGCAATGGGTTTCTGCTCAACATAATGGGGATGTAGCTCAGATGGTAGAGCGCTCGCTTAGCATGCGAGAGGTACGGGGATCGATACCCCGCATCTCCATTTTTTTACAAGGTAGAATTCATTACATTTTGAGTCAAAGTTCGAAGTTTCAAGGAGGAAACTTATTTTTTTTACATGAACATGTTCCCATTCACTTCTTGGTCTTTTTCTTCCTTACTCTTCTCGACTCTTGAGCCTCTGAGATCAATGTTCTGTAGATTAAGAGAAACAATCCAATGGATCTTGAAGGTAGAGTTCTGTACTCAACACGAAACAGCAGTAGAAGCTTCATTCAAGAGAAGCTGTACCATGTCTATTAGTTTAACTTACACATAGACTAGAGATGGCATTCCAATTTCCATAGAGGTTTCTTTTCTCTTCCGTTTGATTTGACACAAGTTTGGCATACGAATTGAAAGGAATCCATAGTTCATCACTAAGGACCTCGGAGCACGTGGAGATGACTGAAAGTGCCAAACTTCAATCCAATTCAATGGATATTCTCAACATTATGCCTTGAACCGGACTCGAAGCTTGTATGTTACAACACATTGATGAGGTTAAAGGCCCACACAAGATTAACAGTTACCCACTTGCACTTTGCCCAGGTGCTTTCTTGACGCTCTTTCCTCTCATCCAACGTCTGACATTCTCAACATCTTCCCATCTTCCTTCTTCAGCGAACATATTTGACAACAATACATAATTACCAGAGTTCCATGGTTCAAGAGTGATGAGCTCTTTCACTGCCATTTCTGCAAGTTTCAAGTTACCATGAGTTCGGCAAGCACCAAGCAAAGCACCCCATAAAGTGGCATTTGGCTGCACTGGCATGCTTTTAATCAAGTTATGAGCCTCCTCCACACATCCACCACGTCCCAAAAGATCGACCATACAACCAAAATGTTCGAGTTTTGGCTGGATTCCATACTTCTCAGCCATTGAAGAAAATATATCTCGACCCTTCTCTAACAATCCCGAATGGACGCAAGCGGTCAAGACAGCTACAAATGTTGCATCGTTAGGCTTCACATCCTCTTTTCCCATCTCCATAAAAAGGTCAATAGCGACCTCCCCCTTCCCATTTAAAGCAAAGCCCAAAATCAGTGTATTCCAAGAGACAACACTTTTGCATGTTATTTTCTGAAAAATGTTGTAAGCCCTTTCTGTATTCCCACATTTACAGTAAAAATCGACTAGCGAATTCCCAATCGTTGTAATATCTGCCAAATCTCCCTTAGAACTTGCATAAGAATGGATCCTTTGTCCAACATCAAGAGCTCCCAAACGAGAACATACAGGCAACATAGTGACCACAGTAACCTCATCTGGTTCAAAACCATATTCTTCCATCTGTTGAAAGAGTTCCAAAGCTTCGACATCACGTCTATTTTGAGCTAAACAGGAAATCATAGTGTTCCAAGAAACCAGGCTACGTTCATTCATTTGCCTAAAGAGACACAACCCAAAATCAACATTGCCCATCTTGCAAAACCCACGAATCATCAAGTTCCAAACAACCACATCCCTATGAGGCATTTCATCAAACACCTTCCGGGCATCCTCCATCCTCTCACAACAGACATACAACTCAACCACCCCAATACGAATAGACCCAAAACAGTAAAACCCACGACGTAAAACTTCAGAAATCACACACTGACCAAGCCTGTACTCACAGAGATTCGCACATGATTTAAGCAACGGCGCAAAAGTGTATTCGTCAGGAACAATCCTGTGATTCTTCATAGAGGAAAACAGGAGAAGGGATTGTTGGAAGGGAGGGGAGAGGGAGTGGGCTTTGATGATGGAATTAAAGAGGAAGATGTTGGGGTTATGGGATTGGGAAAAGAGGCGATTGGCATAGGCAATGTGGTTGAAAGTGGCGCAAATGGAGATGAAATGGGAGAGGATTTGGTTGGATTGGTGGAGGCCATGGCGGAGGAAGTGGGCGTGGATTTGAGTGAGATGGGTTCGGGATTTGTGGCCGTGAAGGAGGCGGAGGATTCTCCGCTCGATCTGCACACAGTTCTTGCTCATGTTATAGAGATTGCTAATAAGATTTGGAGAGAAGAAGAAGATGATGAAATGAATTAGATGGAGAAAACTGAGAAACTTCTCCTTCAAGAACCGATTGCAGAAGAATCGTCAATTGATTTCTTACTTTTCTTGCTTTTCTTGGACTTCTTGATATCGAAGAAAGGTCGGAGGAAATCAGAGAATGATGTGATTCCACTTGTAGAATCAGTTGTTTTAAGGATAAAGATGAGAATCAATTTTGAGACTGTCATTGGGCTCGATCTGGTGGGTTTACGGTCAAATTTTGCAGCTTTTCGAGGTCCTTTTGGCTTGCATTTTGTCGGAAGTTACAAAATGTTTTTGGTCGATTGGTTCTATGGAGTTCTTGCATCCCTTGGGTTGTGGCAAAAGGAGGCCAAGATCCTTTTCTTAGGGCTCGACAATGCTGGCAAAACGACCTTGCTTCATATGTTGAAAGACGAGAGATTAGTTCAACACCAGCCGACCCAGCATCCAACTTCGGAAGAGTTGAGTATTGGTAAGATCAAGTTCAAGGCCTTTGACCTAGGAGGGCATCAGATTGCTCGCCGAGTTTGGAAAGATTACTATGCTAAGGTGGATGCAGTGGTTTATCTGGTCGACGCGTATGACAAGGAGAGATTTGCAGAGTCAAAAAAAGAGTTGGATGCTCTCCTCTCTGATGAAGCATTAGCCGACGTTCCATTTCTGATCCTGGGCAATAAGATTGATATTCCATGTGCTGCATCAGAAGACGAGTTACGGTACAACCTAGGCCTAACAAACTTCACAACTGGGAAGGGCAAGCAACGGCGCAAAAGTGTATTCGTCAGGAACAATCCTGTGATTCTTCATAGAGGAAAACAGGAGAAGGGATTGTTGGAAGGGAGGGGAGAGGGAGTGGGCTTTGATGATGGAATTAAAGAGGAAGATGTTGGGGTTATGGGATTGGGAAAAGAGGCGATTGGCATAGGCAATGTGGTTGAAAGTGGCGCAAATGGAGATGAAATGGGAGAGGATTTGGTTGGATTGGTGGAGGCCATGGCGGAGGAAGTGGGCGTGGATTTGAGTGAGATGGGTTCGGGATTTGTGGCCGTGAAGGAGGCGGAGGATTCTCCGCTCGATCTGCACACAGTTCTTGCTCATGTTATAGAGATTGCTAATAAGATTTGGAGAGAAGAAGAAGATGATGAAATGAATTAG ATGGAGAAAACTGAGAAACTTCTCCTTCAAGAACCGATTGCAGAAGAATCGTCAATTGATTTCTTACTTTTCTTGCTTTTCTTGGACTTCTTGATATCGAAGAAAGGTCGGAGGAAATCAGAGAATGATGTGATTCCACTTGTAGAATCAGTTGTTTTAAGGATAAAGATGAGAATCAATTTTGAGACTGTCATTGGGCTCGATCTGGTGGGTTTACGGTCAAATTTTGCAGCTTTTCGAGGTCCTTTTGGCTTGCATTTTGTCGGAAGTTACAAAATGTTTTTGGTCGATTGGTTCTATGGAGTTCTTGCATCCCTTGGGTTGTGGCAAAAGGAGGCCAAGATCCTTTTCTTAGGGCTCGACAATGCTGGCAAAACGACCTTGCTTCATATGTTGAAAGACGAGAGATTAGTTCAACACCAGCCGACCCAGCATCCAACTTCGGAAGAGTTGAGTATTGGTAAGATCAAGTTCAAGGCCTTTGACCTAGGAGGGCATCAGATTGCTCGCCGAGTTTGGAAAGATTACTATGCTAAGGTGGATGCAGTGGTTTATCTGGTCGACGCGTATGACAAGGAGAGATTTGCAGAGTCAAAAAAAGAGTTGGATGCTCTCCTCTCTGATGAAGCATTAGCCGACGTTCCATTTCTGATCCTGGGCAATAAGATTGATATTCCATGTGCTGCATCAGAAGACGAGTTACGGTACAACCTAGGCCTAACAAACTTCACAACTGGGAAGGGCAAGCAACGGCGCAAAAGTGTATTCGTCAGGAACAATCCTGTGATTCTTCATAGAGGAAAACAGGAGAAGGGATTGTTGGAAGGGAGGGGAGAGGGAGTGGGCTTTGATGATGGAATTAAAGAGGAAGATGTTGGGGTTATGGGATTGGGAAAAGAGGCGATTGGCATAGGCAATGTGGTTGAAAGTGGCGCAAATGGAGATGAAATGGGAGAGGATTTGGTTGGATTGGTGGAGGCCATGGCGGAGGAAGTGGGCGTGGATTTGAGTGAGATGGGTTCGGGATTTGTGGCCGTGAAGGAGGCGGAGGATTCTCCGCTCGATCTGCACACAGTTCTTGCTCATGTTATAGAGATTGCTAATAAGATTTGGAGAGAAGAAGAAGATGATGAAATGAATTAG MEKTEKLLLQEPIAEESSIDFLLFLLFLDFLISKKGRRKSENDVIPLVESVVLRIKMRINFETVIGLDLVGLRSNFAAFRGPFGLHFVGSYKMFLVDWFYGVLASLGLWQKEAKILFLGLDNAGKTTLLHMLKDERLVQHQPTQHPTSEELSIGKIKFKAFDLGGHQIARRVWKDYYAKVDAVVYLVDAYDKERFAESKKELDALLSDEALADVPFLILGNKIDIPCAASEDELRYNLGLTNFTTGKGKQRRKSVFVRNNPVILHRGKQEKGLLEGRGEGVGFDDGIKEEDVGVMGLGKEAIGIGNVVESGANGDEMGEDLVGLVEAMAEEVGVDLSEMGSGFVAVKEAEDSPLDLHTVLAHVIEIANKIWREEEDDEMN Homology
BLAST of HG10006363 vs. NCBI nr
Match: KAG6586226.1 (hypothetical protein SDJN03_18959, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 325.9 bits (834), Expect = 4.7e-85 Identity = 164/175 (93.71%), Postives = 164/175 (93.71%), Query Frame = 0
BLAST of HG10006363 vs. NCBI nr
Match: XP_022965960.1 (GTP-binding protein SAR1A-like [Cucurbita maxima] >XP_023538625.1 GTP-binding protein SAR1A-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 315.5 bits (807), Expect = 6.4e-82 Identity = 156/157 (99.36%), Postives = 156/157 (99.36%), Query Frame = 0
BLAST of HG10006363 vs. NCBI nr
Match: XP_022946417.1 (GTP-binding protein SAR1A-like isoform X1 [Cucurbita moschata] >XP_022999191.1 GTP-binding protein SAR1A-like [Cucurbita maxima] >XP_023545323.1 GTP-binding protein SAR1A-like [Cucurbita pepo subsp. pepo] >KAG7030125.1 GTP-binding protein SAR1A [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 315.5 bits (807), Expect = 6.4e-82 Identity = 156/157 (99.36%), Postives = 156/157 (99.36%), Query Frame = 0
BLAST of HG10006363 vs. NCBI nr
Match: XP_008453690.1 (PREDICTED: GTP-binding protein SAR1A [Cucumis melo] >KAA0048058.1 GTP-binding protein SAR1A [Cucumis melo var. makuwa] >TYJ96478.1 GTP-binding protein SAR1A [Cucumis melo var. makuwa]) HSP 1 Score: 313.9 bits (803), Expect = 1.9e-81 Identity = 155/157 (98.73%), Postives = 155/157 (98.73%), Query Frame = 0
BLAST of HG10006363 vs. NCBI nr
Match: KAG6599191.1 (GTP-binding protein SAR1A, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 313.2 bits (801), Expect = 3.2e-81 Identity = 156/160 (97.50%), Postives = 156/160 (97.50%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy Swiss-Prot
Match: O04834 (GTP-binding protein SAR1A OS=Arabidopsis thaliana OX=3702 GN=SAR1A PE=2 SV=1) HSP 1 Score: 307.4 bits (786), Expect = 2.3e-82 Identity = 156/184 (84.78%), Postives = 164/184 (89.13%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy Swiss-Prot
Match: Q01474 (GTP-binding protein SAR1B OS=Arabidopsis thaliana OX=3702 GN=SAR1B PE=1 SV=1) HSP 1 Score: 307.4 bits (786), Expect = 2.3e-82 Identity = 151/157 (96.18%), Postives = 154/157 (98.09%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy Swiss-Prot
Match: O04266 (GTP-binding protein SAR1A OS=Brassica campestris OX=3711 GN=SAR1A PE=2 SV=1) HSP 1 Score: 306.6 bits (784), Expect = 3.9e-82 Identity = 150/157 (95.54%), Postives = 155/157 (98.73%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy Swiss-Prot
Match: O04267 (GTP-binding protein SAR1B OS=Brassica campestris OX=3711 GN=SAR1B PE=2 SV=1) HSP 1 Score: 303.5 bits (776), Expect = 3.3e-81 Identity = 149/157 (94.90%), Postives = 153/157 (97.45%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy Swiss-Prot
Match: P52884 (GTP-binding protein SAR2 OS=Solanum lycopersicum OX=4081 GN=SAR2 PE=2 SV=1) HSP 1 Score: 286.6 bits (732), Expect = 4.2e-76 Identity = 146/184 (79.35%), Postives = 157/184 (85.33%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy TrEMBL
Match: A0A6J1KCD9 (GTP-binding protein SAR1A-like OS=Cucurbita maxima OX=3661 GN=LOC111493648 PE=3 SV=1) HSP 1 Score: 315.5 bits (807), Expect = 3.1e-82 Identity = 156/157 (99.36%), Postives = 156/157 (99.36%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy TrEMBL
Match: A0A6J1HQ80 (GTP-binding protein SAR1A-like OS=Cucurbita maxima OX=3661 GN=LOC111465682 PE=3 SV=1) HSP 1 Score: 315.5 bits (807), Expect = 3.1e-82 Identity = 156/157 (99.36%), Postives = 156/157 (99.36%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy TrEMBL
Match: A0A6J1G3P4 (GTP-binding protein SAR1A-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111450482 PE=3 SV=1) HSP 1 Score: 315.5 bits (807), Expect = 3.1e-82 Identity = 156/157 (99.36%), Postives = 156/157 (99.36%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy TrEMBL
Match: A0A5D3BE34 (GTP-binding protein SAR1A OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold546G001230 PE=3 SV=1) HSP 1 Score: 313.9 bits (803), Expect = 9.0e-82 Identity = 155/157 (98.73%), Postives = 155/157 (98.73%), Query Frame = 0
BLAST of HG10006363 vs. ExPASy TrEMBL
Match: A0A1S3BWV6 (GTP-binding protein SAR1A OS=Cucumis melo OX=3656 GN=LOC103494335 PE=3 SV=1) HSP 1 Score: 313.9 bits (803), Expect = 9.0e-82 Identity = 155/157 (98.73%), Postives = 155/157 (98.73%), Query Frame = 0
BLAST of HG10006363 vs. TAIR 10
Match: AT3G62560.1 (Ras-related small GTP-binding family protein ) HSP 1 Score: 308.1 bits (788), Expect = 9.5e-84 Identity = 157/184 (85.33%), Postives = 165/184 (89.67%), Query Frame = 0
BLAST of HG10006363 vs. TAIR 10
Match: AT1G56330.1 (secretion-associated RAS 1B ) HSP 1 Score: 307.4 bits (786), Expect = 1.6e-83 Identity = 151/157 (96.18%), Postives = 154/157 (98.09%), Query Frame = 0
BLAST of HG10006363 vs. TAIR 10
Match: AT4G02080.1 (secretion-associated RAS super family 2 ) HSP 1 Score: 307.4 bits (786), Expect = 1.6e-83 Identity = 156/184 (84.78%), Postives = 164/184 (89.13%), Query Frame = 0
BLAST of HG10006363 vs. TAIR 10
Match: AT1G09180.1 (secretion-associated RAS super family 1 ) HSP 1 Score: 284.6 bits (727), Expect = 1.1e-76 Identity = 147/184 (79.89%), Postives = 158/184 (85.87%), Query Frame = 0
BLAST of HG10006363 vs. TAIR 10
Match: AT1G02620.1 (Ras-related small GTP-binding family protein ) HSP 1 Score: 128.6 bits (322), Expect = 1.0e-29 Identity = 68/102 (66.67%), Postives = 82/102 (80.39%), 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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