
HG10009494 (gene) Bottle gourd (Hangzhou Gourd) v1
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.ATGGAGAGCCGTCGACCATTTGAAAGAGGAGAGAATCTCCCTTCCCAAGCTTGTCAGCGTATAAGCATGTGAGAAAAGCAAAGAAGTACATATATGGATACGAGACACGGATACGGCACAATATAATACGAACACGACCACATTTCATTTTTATTAAATATAGGACATGCCAAGGACACATATTAAAATATACATTTTTTAAGAAATATTATTTTTATACAAGAAGGAAATTCAAAATCATTGAGTTTATGCATTTATTGTGCTTAAAAAACTATTGGGCTGATATTATATTCAATTGAAGAAATATTTTCAAAGCAAACTAATAGCTCATTTAGTAAAAAGCATGAAGCTATTTTTCTTGAATGTCTTTCCTAATAATGGTTGACTAGAACCAGATGTATGACTTCTTAGCTTCCAGTTGCTTCTTGTATTGACTTTTTTACTGTTTTTTCTTCATGGTTTGTATCCATGGTATTTAGTTCTGTAATGAGTGTTCTGGGAAACATTGCAGAAACCCAGAATTTCAACAATCTGTCAAAGAGTGGAAGGATAAGGCAGAAGAACTTAAAGGTGTGAAGGAAGACCTAAAAGTTAGGTAATCTTTTGAGAACTTTGTTCTTGTCTTGCATGGTTTTAGTGGTATTTGTTAACAGGCTGAGACATACCCTTGTATGTCAAGGCTGGGTGGGCACTTCTATGGATGGCCTGAGATGGTGAAATGGCGAATGCAGAACGAAGCAGACAACTGAGCAGCTTTACAAGCAGGTGGATGGCGTTTGGTCTGAGGCTGAGGCTACAGCTAGAAAGGTATTTTTTCCCAATTTACATGCTACCTGTATTTAGCTGCGGTTTATCTGTGATGTTGAATAAATATTTAAGTAGTTTCAAGTTTGTACAGTATGCTTGGGTTAGTACATTTCCCCTCTCACATTAATTTTAAAATGTTATTTAGTTATTATTTTTTTTTGGTTATGGGCAGGCAATTGCTGTTTGGGGTTTCTTAGTTTTATTTCCTCACACTTGGTGGGGAAAATCTGTTTCTTTCACGAGTCGTTGAATATTATGGCGTCTCTAGACCGTTCCTACTATTTATTTGAGACTATTATTCACATGGAATGGAACTTATACATCATTTTGATTTTATATTTTTTGCAGGTTTCTGCAGATGTCAAAGAGAAAATATCTGCTGCTACGGAGGAGGTTTGTGTTTTATGTGATGCGTCAGTCAAACACATATAATCATACCCATGATAATAATATTTCAACACTATTGCACCCAGGTAAAAGAAGCTTTTGGATTCAGTCATAACAATTCTTCTGGATCTACTCGTTCCTCAACTGATCATGATGCTGATGCACAAAAACATGGAAGTGAGGCCAGTTCTAAAGAAGCCAAAGACCAACATCCTGGTTCTAGTGGCTCCTCCGAAACAGTATTTGGGAAGTTTAAGTCCAGCATTCCTTCATCAGGCATATCCTCTGCATTTGAACGTTTGAAAAGCACAAAGTTAATTGACTTAACAAAGAGGGGATATGAAATTGTAAAGGATGAGTTGAGTGGAAAACCACATAAGAAAAAGCATTTAGAATATGAGCCTTCAGCCTCATCAAAAGTTGAAAGAAGTACAAGAACTGATGTTGTTGTTTTGCCATCAAAGCAGTCTCGATGGAGTAAGAAATGGGAGGCATTCAGGGAGAAGGTAAATTTTATAAGTTGCCGATGTCTTATGGAGTATCATTAAAGCTTCTATTGAAGTATTTTTTTTAACCAAATCGGTCCTTTCCCTTTTTTTCCCCCTTCCTTTAGATGCAAGGTCATCCCATTTTCAAGCGTGTTACAGACTATAGTAAACCTGTAGTTACAAAGGGTGAGGAGGTATGTATTTACAATTTTAATGCTATATTATAATTTCTTCTATACAACTCCGTATCTGCTGCTAAGTTTCATTCAAGCTTTTAAAAAGCTATTGAGGCTTACACCTTCAGACTTACGCCTTTGTTGAACCATAAGAGGCTTACGCCTCTCACAAAAGAAGCTTGCGCCTTTTCAAAATCTCTATGCCTCGCCTAGTGATTAGAAAAATTATAGTGATTGCCTAATTTTTCAAAAATATTATGGTTTGACTTGTGACAATTTGAACTAGGACTATTTTTACTGTTGCGACCTTAAGAACGTTGAAGGCAAACATTTATAGGATAAATCAATTCTATTAATGATAATAGTAGTAGCAGTGATGATGAGTATGTCCTTTTAGAATTTTTTATCGAGTGAAAATTGTGGGGGTGAAGATTCTTTTCACACTTTTATATGATTATATGACTATCACATTTCGTAGTACTTGGTCATACCAATTTAGGTTTTGTAAAATGTTTTTGATTCACTATATAAGGCTTACGCCTCATACTGCTTTGAGGCTTACGCCTCGCTTCGCCTCGAAAAGGAAAAGCCTCAAGGCCGTCTTTAGCCTTTTAAAACATTGGTTTCATTTAATGTGCTTGACTGCCAGAGATAGGGTCATGCATTTTTTATTTTAAAAAACAATGAACATTTTCATGAAATTTCAAAAGAAGGGGGACAGAGAGCTCCAAGTTAAAGCGAAGAAAACAGCACTGTCCCAAAAAACTGGGCATCCATTTTCCTTTGTATTGAAAGTTCTGCTGTTTCTTTCAAGTCAAACTGACCACAAAATGCTCGAATGAGATTCTTCAATAGGAGCTCTTTCTTGCTCTTGAAGGGGTGGCCCAACAGAAGGAGATTGAGGAGAGAAAATGGATCATTTGGTTGCACCACCGATCATATGAAAGCATTCTGAAAATCAATCAAGAAACGTTGAGCAAGAGACAGTGTATAACAATGTGAGATTGTGTCTCTAAACTTTTTTTTGCAAAGGGTACACCAGTTTGGAATGAGGGCCATGTAGGAGACACCTTTTGGAGCCTATTGTGGGATAGCTCCCAAATGAAGAATTTTACCTTCTTTGGGTATTCATCATGCCAAATCGGCTCAGTATAGAGATGAGAATTGCTCACAGCCGATGGATCAAGGCTATGCTGGAGGGAATACGGATTTGACAGAAAAAACTCCATTGGTCTCATGAGGCCAAACCCAAATTATTCATCGGAAGCTAGGTGGATGTTCATCAACGAAGACTTAAATCATCCCAGCCCATTCTGATACTTCATCATCTTTCAAAAGTCTAATGAAATCCAAGTTTAGTCTTTGACCAAGGCGATCTTTCTGGTAGAGACCGAGAACAGCTTGGAAAAACAGAGGACTAAAGGTCTGTCAGTCAACCAAGAATCATGCCAAAAATCAGTAGAAGCACCATTACCTACTGGAGCATTCTTCCAAGGTCCTTAAGAAGTGCAAAGAGAGAAACTTCCAGGGAGGTTATTAAGAGGATTTGTGCCAAATTCAGCATTATTAGTCGACCAACCACTATAGAGCCTCTCTCTCCTTTTGATAAGACCATGATCACTTGGATAAGAGATCTGGGTTTTTGTCTTTTATACTATGAAGTCCCAATCCACCCTTACCAATTGGAAGGAAAACTTTATCCCATTTGTCAAGATGCTCGTAGGTACCCTCACTCTCAACATAACTACCCTAAAGCAATTTCCTTTGAAGGCTTTTGATATTTTTTGTGACCTCTATGGAAGGTGAAATTTTCAAAGAATCAATTTTTCATTTGGTAGGTCATCCATGGAAGAGTTAACACTTTAGATGGGCTTTGAAGAGAGATTTCTTCTTTGATTGGGTCATTTTGTTTCATTTTTTGTGGCTTACAACTTGGAGACTATAGGGTTGATTGAGGAGTTTCTTCTCCATTTGCCTTTTCTGGAGAAGGGGAAGATTTTGTGGCTAGTGGGGGTTTGTATTGTGTTGTGGGAGTTGTGTGGTGAGGATTAATTGGACCTTTAGATGGATGAAATGGATCTTAGCATGGGGTTGTGCTGTGTTGTGGGGTGAGGAATAATAGGACGTTTAGAGGGATGGAAATGTTACTCTAGCAATGTTTGGTTTTATGCTTTTTCTCTAGGCATTAGTGACGAAGGCTTTTTGCAACTATTCTTGATTGGAGCCCCCTCTTTATGCGGATTCTCTCTTTTTGGACGCTCTTGTATTTTATTCTTTTCTCAATGAAAGTTCAGCGTGTTATTAAAAAAATAATGGTTGGGGTTAGCGTTAGGATCAATATGGGAACATAACAACATGGATGGAATGGATCGAGGCAGGAGTTAGGACCATGTTGGGAATATAGAATGCACAATAATGATTTAGAACTTTCGGGTTGAGGTCAAGCTGGGGTTTTTTTGTTTTGTTCTTTTTTATTGTTTTATATGTATATATATCCTTGTGTGTCCAGGACAACTTATACACACCTCGCCTTATCTCATGGAACAACTCGTGGGAGTTTTTGGATAATTTTTAAAATTTGAGGTTAAGGGTTGGGACATTGAATACATAATAATTAACACAACTCAACTTTGGACTTGAGTTGCTTAATGTTGGCATGGTCTGGGGAAACTGAATATAGGGGAAAGAAATTTGGGAGATGGACAAGTTCGAGGGTATTCGATAGTATTCAATGGTTGGTTCAGTCCAAATTTATCTTTGTGACTTGTGAGTTAGGGTACTTCATTGGTAGCTGAAAACTTAGACTGTTAGCTCTTTTTTAATGTTCAATATTTAATCTAATATGTAAAAATATTTTCTTATATTGGAATTGGCAGATTGCTGAGGACATTCGTGAAAGGTGGGAGACAAGTGATAACCCTATCGTTCAAAAAATTCAGGAGTAAGTATTTATTGCATCATAATGGTTTGACAAATAAGAGAAAATTGAGTTCTGTGTGGTCATGCAACTTGGCCTTTTAATGTGAAAGGCCAAATTACTTGACTGTCTTGACCTTTCATTTTTGTGAGGTATATCATTGGGAATAATAACCTACACTTATTGGCTGCTCGAGTTGTGAGCTTGATAATGGGCAATTTGGTATTTTGCCACAAACTGTGTATTTAGTTATCTGTTAGCTTTTGTTTTCCTGTCATGGTTTTATGTTTCTGTAGCTAACTGCAGCCAAAAGTTTTATTTATTTATCTTATTTCTCACAGCATAAATGAAAACGTGTTTCAAGAATCAGATGCTGCTACATCATTCAAGGAAATTCGTCGTAGAGATCCGTAAGATTTTTCCTTTGAAGCTTTGATACTTATCTGTTTGAATAAGGGAATCTGATTTGTTTTTTCCTCTTTAACCCTGTGGATTAGGTATTTCTCTTTACCAGATTTCGTAGCTGAAGTTCAAGAAGCAATCAAACCAGTGTTAACTTCTTATATAAAGGTTAGTGCTAAGCGTATTTCTAAGATGAAAGATGCTTTTCTCCCCTCCCCCAAAAATATCATTACTATTTATGTTGTATTTCTTGTAATTAATTCTTGCATAGCATCTGGTTTGATGATTAAAGTAGAGTTTCTGACATGGAGGATTTCAAGTCGTAACATATATTAATGTTTCAGGGAGATTCTGAAACTTTAAAGAAATACTGCAGTTCTGAGGTAATTGAACGTTGTAAAGCAGAGCATCGGGCTTACCAGAGCCAAGGTATCTTCTTCGATAACAAGGTAAGGATATACTGTCTGCATACTACCTTTCTTTTGTTAAGTTTATTGCTTGTGCTTCCTTCTGTTTGGGGCTTCGTGGTTGTGCATCTATATTGTACTTCTGTTAATTAATTATAGACCTTTTTCTCTTGTTTGAGTAATCATTGTCTACCTTTTCCTCAGCATAGGCTTTCCGTGGAAATTCAGTTTGTAGTTCTGCATCTTCATGATTATTATCGTGATTTCAGTTCCAGATACATAAAAGGGCTTTTGCATCACAAAAATGATACAAATGATTATTTTTAAATATTAACCTCCAATACTCCAAATGAATGCTGGATTAATTTGGAAACAGGGCAGAAAGAGACTGAGTGGAGAGACAGTGTTTGTGCGCGCTTGAGAGCCATCTTTCTCCAAAATGTAGTTTTTTTTTTTCGATTGATGAGAAATAAATTCCATTGATGTATGAAATTTACAAAAGTAGAATTATAAAATATTTCTCCAATTAAAGAGAGGAGAGATTATAAGAGTTATAGGTGATGTACATTTGCACGAAGTCATGGCAGGATAGATAATATTTTTTTAATAAAATCTATCATAAGTGCTTCCCTTCTCATCAAAGAGGTGATTGTTCTGTTCCTTTCTTGTAGTCCGTAATAAAGTCCAAATAAGATGCATCCACATGATTCTTTTTCGTTACTGAAAGAGTGGCTAGTGAGGGTGCATAAAAGGTTGTTGATAGTCTGATTCGACAGGGTGGCAGACCAACCAAAGGAGAGTTAGATCTCCTTCCTAAATTTTCCAGCAAAATGGCAACTGATGAATTGGCTCGGTGTTTCGTTGGAGCTTTCATACTGGGCAACAATGAGGGGATAGAGTTACGTGTGGGACTGGGAAGTGATGCTGAAGTTTGTCACGTGTTAAATTGCATTCTGGCCAACTTCCCAGAGGAAAAATTTGACTTTTTGGGGATAAAAGTCGGTCCATATCGCCTTGTGAAGGGGGGAAAACAGGCTTGGCTCATGTTAAGAGCAAGTGATTTTGCTCTCTTCTGCATTTTCAGAAAATATGCCGAAAGATTTGGTTCATCCCTTACCACTGGAGATCTTGGTGATATGTGGTTGGTGGTGGAAACAAAGGGAATGGTTGGGGAAGGGAGGTGAGAAAGAGGGATCTAGGCTATTCTTGTGGGAGCCTTTCGCATGACCGAAGCCAAGTCCTATGGAGACTACCGGTCCTGTTCAGTGGGAGTCTTTTCCCAGGCAGGGTGAAATCCTTTCAAATCTCGAATTACTAAAAAGTACATCCTTCCGTCCAATCACAAAAATTAACCAAAAAGCACTCAATCAATCGTATGAGTGTAAAAGAAAACATCAGAATAATTTGTTATTAAGCATTTTTTTTATACCAAAGTTTTTATAATTGAAGTACTTGTGCTACAACCACTCTTAAACACTCCTCTTATGCTTGTGGTTAATATTTTGAGGTCTGCACGTCTTGATAGGTGGACAGAATTATAATTAATGAAAGGCTTCCTTGGCAAGCACTAATTTCTGTTTTGTTAAACAGATTCTGCACATTTCAGAGGTTGAAGTGCGGGAGACCAAGATGATGGGAAGCACTCCCATCATCATTGTAGCTGTACGCTCCGACAGTCTTTGTTATTCTATAGTTATGGATTTTGATTTGTAGGATGAAGTGATGGTAACGCCTCCTTTTTATTTAATTTCCACAGTTCCAAACGCAGCAGGTCTACTGCGTACGTGATGCACATGGATCAATTAGAGAAGGTGGTAAGGTGAGTTATGTTTCTTCTCTTTCCAACTCTGCTTATTTTCATGGGAGAGGATTAGAACGAAAATCATCCTGATGAAATATGTCTAATCTCCAAGTTTCTATTAAAAAAAAGAACTAATCTCCAAAAATTTTTTGGATACATGAACAAAGTGAGGTGAGTTATGTTTCTTCTCTTTCCAACTCTGCTTATTTTCATGGGAGAGGATTAGAACGAAAATCATCCTGATGAAATATGTCTAATCTCCAAGTTTCTATTAAAAAAAAGAACTAATCTCCAAAAACTTTTTGGATACATGAACAAAGTGCAGAGGATTAATTTGATGTTTATTGACGCTTGAAATCATAATCAAAGTAAATCGATCAGTGTGGGACCTACAAGGAAAATTGGAGAGAAACTAAAGAATAGGAGTAGGACCCAACGGGGGTAGAAAACCATCTTTTCTACATTCTATGTGTTGGATAATGTTAAATTTGCCGTCACCCATCAGTTTAAGCTTTTGGATCAATTGGTGATTTAAGACTATGTAGCGTGCTCTCTCTCAAAATATAAAGGTAGATAGACTTTCAGTCTTCCAGATTACATAGAGAGATGATCACGGATTAGGGTTCTACCCAAGGACTTCTTTTAAATCTGACCTAAACTGCATAGCGTCCGATGTCTCTAGTCATCCAACTGTGCATGACTTTTGAACACCATCAACAAGTTCTAAGAGAGGGACATGAGACCTTCCGATTCCTTTTCGTCCAAACTTCTTCAACTGCATAAATCGAATTTGAAGTTGCAAAGCCCAAGGAAGATTTCAGTGATTTCTGAGGAGGAAAATAAGAAATTTGCCCCTGGTTGATTGATGCTTCCTTTATACTTGACTTATGCTTCATATATATATTTTTTGTATTAAATTAAAGTTGGATTAAATGAAATGTTAATTGTTATTGACAGGACACTATCCACACTGTATATTATGCATGGGCTATGCAAATGTTGGATCCTGAAGAAGTTGGAGAAGGAGCTTCTCATGCTATTTGGAGGGTTAGGGAAATGCAACAGTTCGGTGTTCAAGCACTCATCTAA ATGGAGAGCCGTCGACCATTTGAAAGAGGAGAGAATCTCCCTTCCCAAGCTTGTCAGCGTATAAGCATAAACCCAGAATTTCAACAATCTGTCAAAGAGTGGAAGGATAAGGCAGAAGAACTTAAAGGTGTGAAGGAAGACCTAAAAGTTAGAACGAAGCAGACAACTGAGCAGCTTTACAAGCAGGTGGATGGCGTTTGGTCTGAGGCTGAGGCTACAGCTAGAAAGGTTTCTGCAGATGTCAAAGAGAAAATATCTGCTGCTACGGAGGAGGTAAAAGAAGCTTTTGGATTCAGTCATAACAATTCTTCTGGATCTACTCGTTCCTCAACTGATCATGATGCTGATGCACAAAAACATGGAAGTGAGGCCAGTTCTAAAGAAGCCAAAGACCAACATCCTGGTTCTAGTGGCTCCTCCGAAACAGTATTTGGGAAGTTTAAGTCCAGCATTCCTTCATCAGGCATATCCTCTGCATTTGAACGTTTGAAAAGCACAAAGTTAATTGACTTAACAAAGAGGGGATATGAAATTGTAAAGGATGAGTTGAGTGGAAAACCACATAAGAAAAAGCATTTAGAATATGAGCCTTCAGCCTCATCAAAAGTTGAAAGAAGTACAAGAACTGATGTTGTTGTTTTGCCATCAAAGCAGTCTCGATGGAGTAAGAAATGGGAGGCATTCAGGGAGAAGATGCAAGGTCATCCCATTTTCAAGCGTGTTACAGACTATAGTAAACCTGTAGTTACAAAGGGTGAGGAGATTGCTGAGGACATTCGTGAAAGGTGGGAGACAAGTGATAACCCTATCGTTCAAAAAATTCAGGACATAAATGAAAACGTGTTTCAAGAATCAGATGCTGCTACATCATTCAAGGAAATTCGTCGTAGAGATCCGTATTTCTCTTTACCAGATTTCGTAGCTGAAGTTCAAGAAGCAATCAAACCAGTGTTAACTTCTTATATAAAGGGAGATTCTGAAACTTTAAAGAAATACTGCAGTTCTGAGGTAATTGAACGTTGTAAAGCAGAGCATCGGGCTTACCAGAGCCAAGGTATCTTCTTCGATAACAAGGGTGGCAGACCAACCAAAGGAGAGTTAGATCTCCTTCCTAAATTTTCCAGCAAAATGGCAACTGATGAATTGGCTCGGTGTTTCGTTGGAGCTTTCATACTGGGCAACAATGAGGGGATAGAGTTACGTGTGGGACTGGGAAGTGATGCTGAAGTTTGTCACGTGTTAAATTGCATTCTGGCCAACTTCCCAGAGGAAAAATTTGACTTTTTGGGGATAAAAGTCGGTCCATATCGCCTTGTGAAGGGGGGAAAACAGGCTTGGCTCATGTTAAGAGCAAGTGATTTTGCTCTCTTCTGCATTTTCAGAAAATATGCCGAAAGATTTGGTTCATCCCTTACCACTGGAGATCTTGGTGATATGTGGTTGGTGGTGGAAACAAAGGGAATGGTTGGGGAAGGGAGTTCCAAACGCAGCAGGTCTACTGCGTACGTGATGCACATGGATCAATTAGAGAAGGTGGACACTATCCACACTGTATATTATGCATGGGCTATGCAAATGTTGGATCCTGAAGAAGTTGGAGAAGGAGCTTCTCATGCTATTTGGAGGGTTAGGGAAATGCAACAGTTCGGTGTTCAAGCACTCATCTAA ATGGAGAGCCGTCGACCATTTGAAAGAGGAGAGAATCTCCCTTCCCAAGCTTGTCAGCGTATAAGCATAAACCCAGAATTTCAACAATCTGTCAAAGAGTGGAAGGATAAGGCAGAAGAACTTAAAGGTGTGAAGGAAGACCTAAAAGTTAGAACGAAGCAGACAACTGAGCAGCTTTACAAGCAGGTGGATGGCGTTTGGTCTGAGGCTGAGGCTACAGCTAGAAAGGTTTCTGCAGATGTCAAAGAGAAAATATCTGCTGCTACGGAGGAGGTAAAAGAAGCTTTTGGATTCAGTCATAACAATTCTTCTGGATCTACTCGTTCCTCAACTGATCATGATGCTGATGCACAAAAACATGGAAGTGAGGCCAGTTCTAAAGAAGCCAAAGACCAACATCCTGGTTCTAGTGGCTCCTCCGAAACAGTATTTGGGAAGTTTAAGTCCAGCATTCCTTCATCAGGCATATCCTCTGCATTTGAACGTTTGAAAAGCACAAAGTTAATTGACTTAACAAAGAGGGGATATGAAATTGTAAAGGATGAGTTGAGTGGAAAACCACATAAGAAAAAGCATTTAGAATATGAGCCTTCAGCCTCATCAAAAGTTGAAAGAAGTACAAGAACTGATGTTGTTGTTTTGCCATCAAAGCAGTCTCGATGGAGTAAGAAATGGGAGGCATTCAGGGAGAAGATGCAAGGTCATCCCATTTTCAAGCGTGTTACAGACTATAGTAAACCTGTAGTTACAAAGGGTGAGGAGATTGCTGAGGACATTCGTGAAAGGTGGGAGACAAGTGATAACCCTATCGTTCAAAAAATTCAGGACATAAATGAAAACGTGTTTCAAGAATCAGATGCTGCTACATCATTCAAGGAAATTCGTCGTAGAGATCCGTATTTCTCTTTACCAGATTTCGTAGCTGAAGTTCAAGAAGCAATCAAACCAGTGTTAACTTCTTATATAAAGGGAGATTCTGAAACTTTAAAGAAATACTGCAGTTCTGAGGTAATTGAACGTTGTAAAGCAGAGCATCGGGCTTACCAGAGCCAAGGTATCTTCTTCGATAACAAGGGTGGCAGACCAACCAAAGGAGAGTTAGATCTCCTTCCTAAATTTTCCAGCAAAATGGCAACTGATGAATTGGCTCGGTGTTTCGTTGGAGCTTTCATACTGGGCAACAATGAGGGGATAGAGTTACGTGTGGGACTGGGAAGTGATGCTGAAGTTTGTCACGTGTTAAATTGCATTCTGGCCAACTTCCCAGAGGAAAAATTTGACTTTTTGGGGATAAAAGTCGGTCCATATCGCCTTGTGAAGGGGGGAAAACAGGCTTGGCTCATGTTAAGAGCAAGTGATTTTGCTCTCTTCTGCATTTTCAGAAAATATGCCGAAAGATTTGGTTCATCCCTTACCACTGGAGATCTTGGTGATATGTGGTTGGTGGTGGAAACAAAGGGAATGGTTGGGGAAGGGAGTTCCAAACGCAGCAGGTCTACTGCGTACGTGATGCACATGGATCAATTAGAGAAGGTGGACACTATCCACACTGTATATTATGCATGGGCTATGCAAATGTTGGATCCTGAAGAAGTTGGAGAAGGAGCTTCTCATGCTATTTGGAGGGTTAGGGAAATGCAACAGTTCGGTGTTCAAGCACTCATCTAA MESRRPFERGENLPSQACQRISINPEFQQSVKEWKDKAEELKGVKEDLKVRTKQTTEQLYKQVDGVWSEAEATARKVSADVKEKISAATEEVKEAFGFSHNNSSGSTRSSTDHDADAQKHGSEASSKEAKDQHPGSSGSSETVFGKFKSSIPSSGISSAFERLKSTKLIDLTKRGYEIVKDELSGKPHKKKHLEYEPSASSKVERSTRTDVVVLPSKQSRWSKKWEAFREKMQGHPIFKRVTDYSKPVVTKGEEIAEDIRERWETSDNPIVQKIQDINENVFQESDAATSFKEIRRRDPYFSLPDFVAEVQEAIKPVLTSYIKGDSETLKKYCSSEVIERCKAEHRAYQSQGIFFDNKGGRPTKGELDLLPKFSSKMATDELARCFVGAFILGNNEGIELRVGLGSDAEVCHVLNCILANFPEEKFDFLGIKVGPYRLVKGGKQAWLMLRASDFALFCIFRKYAERFGSSLTTGDLGDMWLVVETKGMVGEGSSKRSRSTAYVMHMDQLEKVDTIHTVYYAWAMQMLDPEEVGEGASHAIWRVREMQQFGVQALI Homology
BLAST of HG10009494 vs. NCBI nr
Match: XP_038875259.1 (mitochondrial import inner membrane translocase subunit TIM44-2 [Benincasa hispida]) HSP 1 Score: 629.0 bits (1621), Expect = 3.8e-176 Identity = 362/532 (68.05%), Postives = 386/532 (72.56%), Query Frame = 0
BLAST of HG10009494 vs. NCBI nr
Match: XP_022939357.1 (mitochondrial import inner membrane translocase subunit TIM44-2 [Cucurbita moschata]) HSP 1 Score: 628.6 bits (1620), Expect = 5.0e-176 Identity = 353/532 (66.35%), Postives = 385/532 (72.37%), Query Frame = 0
BLAST of HG10009494 vs. NCBI nr
Match: KAG7016732.1 (Mitochondrial import inner membrane translocase subunit TIM44-2, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 627.1 bits (1616), Expect = 1.5e-175 Identity = 357/532 (67.11%), Postives = 382/532 (71.80%), Query Frame = 0
BLAST of HG10009494 vs. NCBI nr
Match: XP_023550271.1 (mitochondrial import inner membrane translocase subunit TIM44-2-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 625.5 bits (1612), Expect = 4.2e-175 Identity = 352/532 (66.17%), Postives = 384/532 (72.18%), Query Frame = 0
BLAST of HG10009494 vs. NCBI nr
Match: XP_022994020.1 (mitochondrial import inner membrane translocase subunit TIM44-2-like [Cucurbita maxima]) HSP 1 Score: 623.2 bits (1606), Expect = 2.1e-174 Identity = 351/532 (65.98%), Postives = 383/532 (71.99%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy Swiss-Prot
Match: Q5XF06 (Mitochondrial import inner membrane translocase subunit TIM44-2 OS=Arabidopsis thaliana OX=3702 GN=TIM44-2 PE=1 SV=1) HSP 1 Score: 406.8 bits (1044), Expect = 4.1e-112 Identity = 243/532 (45.68%), Postives = 313/532 (58.83%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy Swiss-Prot
Match: Q1PF33 (Mitochondrial import inner membrane translocase subunit TIM44-1 OS=Arabidopsis thaliana OX=3702 GN=TIM44-1 PE=2 SV=1) HSP 1 Score: 369.8 bits (948), Expect = 5.5e-101 Identity = 229/532 (43.05%), Postives = 300/532 (56.39%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy Swiss-Prot
Match: Q01852 (Mitochondrial import inner membrane translocase subunit TIM44 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=TIM44 PE=1 SV=1) HSP 1 Score: 55.8 bits (133), Expect = 1.8e-06 Identity = 56/221 (25.34%), Postives = 102/221 (46.15%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy TrEMBL
Match: A0A6J1FGJ9 (mitochondrial import inner membrane translocase subunit TIM44-2 OS=Cucurbita moschata OX=3662 GN=LOC111445295 PE=3 SV=1) HSP 1 Score: 628.6 bits (1620), Expect = 2.4e-176 Identity = 353/532 (66.35%), Postives = 385/532 (72.37%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy TrEMBL
Match: A0A6J1K042 (mitochondrial import inner membrane translocase subunit TIM44-2-like OS=Cucurbita maxima OX=3661 GN=LOC111489836 PE=3 SV=1) HSP 1 Score: 623.2 bits (1606), Expect = 1.0e-174 Identity = 351/532 (65.98%), Postives = 383/532 (71.99%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy TrEMBL
Match: A0A1S3CU85 (mitochondrial import inner membrane translocase subunit TIM44-2-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103504598 PE=3 SV=1) HSP 1 Score: 618.6 bits (1594), Expect = 2.5e-173 Identity = 354/532 (66.54%), Postives = 382/532 (71.80%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy TrEMBL
Match: A0A5D3BM68 (Mitochondrial import inner membrane translocase subunit TIM44-2-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1728G00080 PE=3 SV=1) HSP 1 Score: 615.9 bits (1587), Expect = 1.6e-172 Identity = 355/542 (65.50%), Postives = 385/542 (71.03%), Query Frame = 0
BLAST of HG10009494 vs. ExPASy TrEMBL
Match: A0A6J1DRS2 (mitochondrial import inner membrane translocase subunit TIM44-2 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111022929 PE=3 SV=1) HSP 1 Score: 609.8 bits (1571), Expect = 1.2e-170 Identity = 348/532 (65.41%), Postives = 380/532 (71.43%), Query Frame = 0
BLAST of HG10009494 vs. TAIR 10
Match: AT2G36070.1 (translocase inner membrane subunit 44-2 ) HSP 1 Score: 406.8 bits (1044), Expect = 2.9e-113 Identity = 243/532 (45.68%), Postives = 313/532 (58.83%), Query Frame = 0
BLAST of HG10009494 vs. TAIR 10
Match: AT2G20510.1 (translocase inner membrane subunit 44-1 ) HSP 1 Score: 369.8 bits (948), Expect = 3.9e-102 Identity = 229/532 (43.05%), Postives = 300/532 (56.39%), 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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