Tan0016823 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GACATTTTGGGGAAGACAAGTCGGCTTAGGGTTTTGCAAAAAGAATATTTGTCTTTTTGTGAGCCTTCTTCATCCTCTTCGTTTCGAACCCAGTTTCGCGCCCCATTGCAAGTTGCCCATCGACCACACAACAGCCAGCCGACACGTTCCGGTCCGACCAACCTCGCAGATCTGTTCGTCACGCCGTCGTCAACCTTCAGCCGGAGTTCCCTCCGAACCGTCCGCGACCACGACCACACGCGGGAGTCTCGATCGCCGTCACGCTTGCAGTCGCGACCCACTGTCGACCAACCGAGCTTCACCGAAATGACTTGTTAAAGCTTACGGCTAGAGAAATACTTTTACAAGAAAGTCAGTGTGAAAGAGGTACGAAAATGACTCTAATGTTCTTGATTGCTCACTTCTTTCTTAACTCGCATGTAGACTCTAATGTTCACTTTCTTTGTTTGAATGTCTTGATGTACCGAAATGACTTGTTAAAGCTTAATTTCGTGTGTTGTGATGGCATTGATGTTCGTGAATGTTACTTTCAGTTCTCTTCTGACGATTCCGACCAGTGTGGGATATGAACAAAATCCGTTGAGTTTGTATTACTGCTACGAAACCGAAGACTCTGTGCAGCACTTGAAGAAGTGCATAGCTGAGGTTCGTTGTTTTCATTATGAGCCATGTTTGAAAATGGAAGAAGAAATTGAAGCCAAACATTTGCTTGTTTTACTCTCATCTGTAATTGCTTCTGTTTTCAATCCAAATTCTGATTTAGTAGCTAAGCCGTTACATGTCAGTCCTTTATGGTAAGTCTTACTGATTTTGTTCGCTTTTGATGGTAGAGTTGCTGATAATTCTCGTCTCTGATGGATGCTATTTCCAATTTGATTGGACATAAAAGTTATTTTGAGATTCCTTATATTCTTATTTATTTACGTAATTCCTAGCAAATGATTTGGTTTTCCTGGTTGGATCTTTATTAATAATTAGTTCGAAATATGCAGCAGATCTTTTTGAGTAAGAAATATATTTCCCTAGGTAAGTGAAAAATCTCGATCTCATTTATTATTCACAAATAAAGAGGATAGGAGTTTTTTACTTGAGAAATAAATAATACTAAAAGTTACACAAGGAGCACAGGTGGAGGCTGAGAATATTTCACAAATAATTGAAAAATTCAGAGGACTATGCAGAGAAAAGAATGAGAAATTATGGCTAGAGAAATACTTATACAAGAAAGTCAGTGTGAAAGAGGTTGGTAAGCAAAGATGCATAGAGAAACGTTGGGAAGAGAGTATATAGAGCGAGAAGTGTGTTTAGAGAATGCTTAGGAAAAGAGAGCAAAGCAACTAAGGATGAAGTGTTTGAACCAAAATTTCAAAGGCAAATTGATATAGAAAGCTTGCACCTAAAAGAAATGATACCAATCAAGAGTACAATAAAAATTCTTGTCGCCATGATTGTGCCTAAGATTCAGTAGTCAAATTCTTCCAGCCGAACTGAGATAGTGTTGATAAGTTTAACACAATGCACAATCAACCCTAAGCCCGTTACATTACAAGATAATATATAAGCATCTATACATTCCGAAGTTTTAAATCTGTCTATTTCATTATTATAGTAAGAGAACAATTTCATTTCTAATTTAAGAGAACTAGAAATCCAAAAGCGAAACAAGTGCAAGCAAAACATAACAAGAGATTTTTACGTTGATTTGGTTGATCATCCTTGCAGTGGAATTGACAACAAAAGTTTATTTTCATTACATTGTCTTTGGGAAATATCTGTCTACTAAATATGATATCCTTGGGAGTTATCAAATTAAAAAGGATGCGATCATCAAGCTTACTAGAATATCTTAATTTTTGTCTGCTTGAAAGAATTGGTGACAAGGACCTATTTTATTATCCTTTGTGATCTAAGTGCTCTTAATAACAGATGATGAATATTGCAGACCATTGTGGCCATTTGTGTTTCTTTTGAGTTAAATAGAAAGCCTCACATGTTTGACCACTAAAGTACGGGCATGGTGCCATTGACTTTAAGAATAGAATGTGTAGTTTTGGACTATGCACATTTTCTAGTCATGTTTCTCATTAAAGTTTTTAGTTGAGATCTTTTGCACTAGTCTTCTTCTCATCTGTTAATTTTGGTCCCATTCTGCAGGTGGGCACGGCCAAAAAGCCCCTTTGTCTTCATAATTAGGGAGGTTTCTAATGCCTAAAATCCACAAAAGAAGGTTGGTCCTTCACTCTTGCCTTTTTTCGGCGTGGCTCAACTTCCTTTACAATTCCATGTCGGTTCATTTCCCTTTTCCTCATAGCATTTTGTTCATCCATATTTCAAGTGAAACTCAAGTTGATCTTCTCGATCGAGCTTTTTATTGACAGTGCTACTTCACGACTTCTAACTTACCCAAACATGATATCAGTAGCAATGTAAGAGAAAGCTAATGTTATATTGTTGCTTTTGAGTCTTGATATCTCAAATATTTTGAGGCTTCAACTTTTTTTTTTTTTTTTTTTTTTTGACTTTGTGAATATAGGCTTTAATATTTTGATATCTTAAATATTTTGACACTGTAAAGCGAATATGATTGTTTCATTACAATTTCTTTACTATGATTTTCACCTTTTTTTTAAGAAACATTTTGATTTCTTTGTCAAATTTTAAAATAAATATACTTTTTTTTTTAGTTTTCAAACCTTGGGTTAGATTTTGAAAACATTTTTAGAAAGTAGACAACTAAGGGTTCGTTTGATAACTATTTGATTTTTTTTTCAATTTTTAGAAATTGTGCTTGTTTTTTTTTTTAATTTATTTATAAATTTTCTACTACTAGGTTTCATCGATTTTTCTTAAAAAAACATTTGAATTCTTAGCCAAATTCCAAAAACAAACACAAGGTTTTGAAAAATACTAGGTTTCACTAATGAGATGATTTTCATGGAAATAAAATACAACTTCTTCTGAATCAGAACGAGAAAATTCTCCACACATCAAAACGTAGGGTGCTTCAAAATTTCATCAATTTAAAAGCTTCGAATACAAAGAAGAGGTTAATTTGATTACAAGAATTGACATGATCTCATCAATATTGATTGATTTGACTATTCATACATGTCTGTTTGATAATAGAATTCTCCTTTAATCCAATTTTGACAACACAACAGAAGGACAAATGTTCTGGGCCTATGACATTATTAGTCATCTTGAAATGGAACGTAGCCTTTTGTATTATAAATTTTGACATCTATATAGTTGAATCAACAGACTTGGAAAGTGCTAATTATTCTTCAGTAAAGACAAAAGTTGGGATTGCAAACTTTCTTGTTCAACTTGAAAATAGAAGATCCATTAAGGTATGTAATACCGCACAAATCTCTATTACAAGAAGTTTAACTCAATCTTTTTCCATTTGTTTCCTTGATAACTTTTCACATAACACCTATATAGAATTATGAGTACCATAGATAATTCCATTTGTTTACCATATTAAGATGGTCTGAGTATTCTTTGAATCTATGCTTCATAATGATTTATTTTGAGATGGATGAATTTGATGGAATAATGGCTCTTTTGGAAACCTCATGAAGTCTCATTTCATAAGATTGCTCACATAGGAATTGCAAAAATGTTGTAGCTTACAGATTAGTTGATGTTCTTCTTTGTCTCTTGCTTCTTGTTTTCGATCACATGGTTGAGTTAAGTTGTTCATTTTGCAGTTTAGAGTCTTGAATATGATTAAAAAAAAAAAAAATCTAAAATGAGAACTGGAGCTAGAAGGAAAAAATATTTCATTGCACATTTAAGATAATTACTTTGCAACTGCTGTCTATAAGCTTAATTTCCCTACAATTTTTACTCACTCCTTGTTTAAGTAGAGTCATGGGCACTTTTGTCTATAAGCTTAATCATTCTTTTTTACACATCCATTTCTAGGAATCTCTTGCTTTTTACAAAGAAGTGTACTGCACTCTTGCTACACGCTTATAACATGGATAAGAGTTGGATGCAAATTGGAAATCGAGCTTTGAAAGAATATAGAAATGGAGTTAGAAGTTTTCTAAATTTTGCATTTATGCATGCAACATCAGGTCAAATTTCTTGTCCATGTAAGAGATGTAATAATGCAGTACTTAAAACTCGAGATGATATTGAAGTAGAGTTGTTAATGTTTGGGATAGTTCCAAGTTACACTCAATGGACATCTAAGTTTACATTCATCTTAAACTACTTTAATAGTAGTTACTATTTCCCTTGCCTATTCTTTCTATTCCATATCCTTGCATTTGCAATTCAAGGAATTATAGGTAAGTAGATCAGTAGAGAACATTCCGAGGTTTGCCAATAATAAGTTGAAAATAAATTTAATTTGGTTTATATTATTGTATTCAAGTGCTAAAGCTTTTTGCAAGAGCTTTTTCGAAAGATTTATAAATATCGATAACGAAGTATTTCTGAAGGCTTTAAAGTCTTTGAAAATAGTATTATAAGCCTTTAAAAATAATAAAAACCTTCGAAAAAGATAATTGACATTGAATAATTATCGATAAATAATTTGACAATTTTCGAAGACATATGACCTTTGAAAAATAATCCTTTTTCGAAGGTTAATGTACCTTTGATAAAAGATTTTTCGACAGGATCTATTTCGACACTTTTGAAGGTTTTGTTAATCTTCGAAAAAAGATTGATCGAAGGTTTGTTTAGTACTTTTTCGAAGGTTGTGACCTCGAAAAAAAGTCAATTTTCTTGTTCGGCTCCAGAGGTGTACGGACTTGCTGGTGGATTTGCTCTTGTTTTCGCCTTTTCGTGGTAGAGGGTTGTTTCTATGGCAGTCAGGGGTTTGTGCTACGGTTTGGTGCTTGTAGAATGAGAGGAACTATAGAACTTTCAGGGGGCACGAGAGATCTAGTAGTGATTTGTGGTCTCTTGTTAGATTTTTTAGCTCTCTTTGGGCTTCAATTACGAAGCTTTTTTGTAATTATTCGCTTAACCTTATTTTGTTAGATTGAAGCCCTTTTTGCCAAGGGTCTCCCATTTTTTGTGGACTTTGTTTTTGTGTTCCCTTGTATTTTTTCATTTGGTCTTAATGAAAGTTTGGTTTTTCATATATATATATATATATATATTTTTGATTATTGAAGTATTGTTTAGAACTTTGGATGGAGAAGAATAGCCAGTTTTTTCAGGTGTTGTTTGTGAGTTGGAACATGGAAGTATTGAGTAAACTACTTTTTATGGTTTCGTTATGATCTTCAATGTTGAGCAGTTTTATAGTTTTTTCCCATCATAGCAATAAAACTGATGCCCCCACCCGCCCCACAATAAAAAAAAAAAAAAGGTACTGTTGGATATGGTAGGTGGACGTATCCAGCTAAATAGATGGCAGCAAGCAGCAGTTGCACTTGGTTCAGCAGTAGGCGCCTTACTAGATCCACGGCGAGCAGATCTCATAGCAGCTCTTGGGGAGACAACCGGAAAGCCAGCATTTGAAAGAGTCCTCGAGAGGATGAAAAGAAGTGCTGAAGGCAGAGTAAGCTTTTAATTTTGTAATGTTATGTTTTATGTTTCCATGTTTCATATTCCTTCATCGTTTGCAAGTGTTTTCACAGGGAATGAAAATGAAAAACCTAATATGCTTTTATTTAAGATGGTGAAAAAAACAAAATAAAATGAATTTTCCTCTATATTATTGAATAGAACGGCTATCTTGTATAAATGATGGAATTACTTTTATTTGAGTGCTGGAGAAACTACTTGGGTTGTTTGCTTTATCAAATTTATATTTGAGAATGAATTGGGACTTGTAATTTATTGAGTTGATGTGCTTGTGTATTCATATTGGATCTTGTAATTGGCTGAGAAGCTCATGGAGTCCTTTCTCCCCCTTCCCATCAAGGCTTCCTTTCCTCCCTTGGAAACACAAACATGAAACACTAGTTTAACTGAAGTGTTGGTGTTGGACATGCTCTAGAACATATGATTTGGAGCATCTGATTTTTTAAATATATATTATGATAAAAACAAAATCTATCTATCTATCTATATATATATATATATATATATATATATATATATATATTTTTGGTTAAGATTGAGCAATGCAACTAAGCTGGAAACCGCAATTTATCATTTGAACGGAATATTTTAGCTTCTTTTATTCCATGCTCTGCTCCAATTAAATTGTTTCCTTTTTGTATTGCTAATACAGAGACATTAAATGAACTTTATCAAGAAGTTCCCAATTTTAGCTTGCTAAATTTATTTCTCGTTTGTTGGATGACTAGACTTTCTTGAAATTCCTTTGTACCATGCATTGGTTATCGTAAATCGTCCATTTGAATATGAATCAAAACAAATTTCTTCTTCAGGCAGTGTTGTTGGAGCGACCACGTGTCTTATCATCAGAAGTTGGGCATGCATGGGACCTTCCATCCAACACATTTGGAGCTGCATATGCCAATTTTATGGGTTCCAGGAACTTTTCTCCAGATGACCGGCCTCCTGTTCGATTCATGGATACTGACGAACTGGAGTATGTTACCATGCGAGCTCGCGAGGTTCATGACTTTTGGCACACCCTTTTTGGTCTTCCCACGAACTTGATTGGTGAGTCGGCATTGAAGGTTATTGAATTTGAGCAAATGCACCTCCCAATGTGCATGCTGGCCGTTTTGGGAGGCACAGCAAAATTCAATGACAAACAGAGAAAATTGTTCTTCCAACACTACTTCCCTTGGGCCATCCGTGCTGGCATGCAGTGCACAGATCTCATGTGCGTATATTATGAGCGACACTTCCACGAGGATTTGGATGACGTGCGGGCGAAATGGGGAATAATTCCTGCACCTCCATCTCCAAAAGTTAACTTTGCTTGACAAGTAAGATAAAGGTGTTTAATCAACCAGAAGCCACCTATATCTTGTTTACTTGCAAGTTGCTACCTTATCATTTACATAATTACCTTTTTGCACCTATCTTGTCTGAACTGTTTTAGGTCTTAAATCCTGACTCACGATAGGTATGATTGATAATCCATAGCAAAGTATGGTCATAAGAGCTCAACCAGCTCATCTCCATCTGTCTTGATGTTGGCTTCGTTCATGGATGTCATTGGAATATTCTCCTGATAAGGTATGTAACAAGCAGCCATTATCAACTTTAGACGATCCAACGCATACATTTTTCATTGAGCAAATTTATTTGATAAGCTCGTGCATTATTGACCGTAGGCTCGAGGATTGTATCTCAGTGCTAAATGTAGAGAATATTTGTAGGGTTGTAGTAATGAGTATTTACTCTTTATTTTTTTTTTAAAAAAGAGTATTTACTCTATATCACGACTCAAATTGATATTTTTAATGTAAACTAATTATTATTTTATCTAGTTGAGATTGAAGAGTTTGGCACAACCTCTGACTTTACTGATTATAATTTGATAAACATTCTATTTAAGTAAATAAATAAAAAAAGGTAAATTGGTAGTTCATTAATGAACTTTAGTTATTGTTATAATTCCACCTACAAAGTTTAAATTTAAAAGTCCACCTGCAAACATGCATGAATAGAAGATTGTGTTCTGCCATATTTCATTAAAATTTCATATGATGAGAGGTCCCTCTTTCTCAAAAAAGAAAAAGGAAGTCTCTCTTTATTCTACTTCTCTCTATGTTCCTTTCCTATGTTTCACTTCTCTCTTAAAAAATCTTCTTCTCTCTAACTCACTAAAAAACATCTCTCATTCGGTTTAAACATCAACATGATCAACATGTTCAAATTGGATTAGTCAGTCCTTTAACATCTTGTTTGGGCCAATAAAATCCTACCTAATGGTGAGATACTTAGAGAGGTAACAAAATACTATTATCATTACGAAAACAATAAACTTGGAAAGGATGGAATATTTTGGGAAAGTATTTTTGGGTCTATAAAAATTAGGCAACACATTTCTCTGGGAAAAAAATAATAAAAAACTCTCTTTCTAGTACACTTTTATCTTTAATAAGTATATCTTTAGTAGAAGATTTTCACCATTACAATAAAATAGTTCGATACCATTATTCAGTAAATAGTCATATCAAAACTATTTAAAATGGCGAAAGTTTATAAACACTATGAGACTATTTAGGACGTTAAGTATGATGTGATAATATGAGTTATAATAGTCTATGAAATTATGTAATATGGTTTAAAATGTAGAGTTGTTTAGTTTAGATTATAATAATCTGTATTTGAGATGCAAAGTATCATAAACTATTATAACTCATATTATTATAACATGCACTTCAAACAAATCTTATAATGTTAAGGGAGAGTGGATATTATAAAAAATATATATATATATATATATTATCTTTGTCTCTTTTTCAAGTTTAGCAACCTTCCTTAATAGAAAGGTTTCTCTGTATTCTTTTTGTTTTTTTTAGTACAACAACATTTGGGGTGGTAGATTCGAACCAACTATCTCTTAGTTATAAGTCTTACTTACTGTAGTTGTACTCTTTGCATTCTCTCTTGAAATAACCTTCCCTTGAAAAAAAACATCTCCCATCTCACGATAACACATTTCCCATTTATAAAGTTTAGGTACTTTTAACTTTTGGAGATATTATAATTAAATCAATGTCTAGGAGAGAAAATTTGAACAGAATGTCAGATTTAGTGGCATTGTTGATGATAAAGGCAGGCTAAATAGCATATATTTCATTAAATTTGATACCCATATGATTATGCAATCTGAATATATATATATATATAAATGGGTGGTGGGATTCTTCTGTTCTGAGAGTGAGACAGACAGGGAAGTAGGGCGGCGCCGGAATGGGTATTGTGTGTGACAGTGTAAGTGTAATGTAAATGTTGCCACACTGCCCACTGTATTTATTTTCACTGCACCGTACAAAAAAATGCACAGAAAATTACTTTTAACTCTCTGTAATGATCTGACCATGCCATTCCTTTCCTTCTCCTTTCTTGGGAAAGATTTCCATTTCATTGGTTCATACTGATATCAACGTGACAGCATTCCGTGAAAGTAGTATGAATATTTTTTTTATACTACAATAATATTAGAAGTTTTCTCTCTAGGAGAAAAACTATTATCAATAGTATGAAAAAATTTACATATTATTTTTCTTGATTACTTGTCACATCAACTTTCTTTTGTTATGATGATATGACGATGAAGAAAATCGAAAATTTTCTAATATTATGGTAGTATGAAATTTTTTTAATACTACTCTCATTTATTGTTTGTCACGTCAATATTCCTTGATAAATGTAGGGTCTACTAATGTTAAAATATAGTGTGAACACAGAAAATATGAATTTTTAGGAAGAATATGGTGTGAATAAAGGAAGTATTGTTAGGTTGGTGGTGTATGCTATAAAATTAGGGTTTTTGTAGGGTTTTCAGCTATCTGGTCTCTACCGTACTCTGTGTATTGGGAACACAACCCTCACCATCCTCACACGCCTCTCTTACTTCTGTTTAATTACCCAAATGTCTCTGTTCTCCTCTTTCTCACACTTTACCACTTCACTTTCACACTTATTTATGTTTTCTTTTTATATATATCTTATTCCATAACTTGTGTTGTGTGAGTCTCTTTATTTTTTCTTTATATTTTTGTACTTTGTGTTAAGGTTATGTTGAGATTTAGTATTCATTACTCTGCCCACTTGAGATATGGTATCATATTATAAGTTCTTGACTTTTGGGATTTTTTCTGATTGTTTAATATTGGTAACAGGTGCTTGTTTGATACACGTTGGTGGGAGGGTTTTGCCCTTTAAACTTTTAGTCGAACGTTACATGGCGATGGCTACACACTGATGTGTAGGTATTTTCGTATACACTTCATTAAAATTTTGACAGCCAAGAGTGGAAAAGTTAAAAACCTACCATTCCTTTTTTTCTACTTTTCTCTTTCTTAATTATAAAAAATTTAATGGTAGTGTATAGCTAAGTATGGTTCCTTTTAGTTTCATCTAATTAGACTTCCGACTTTGTTAACTGTTACGAAATTTACTTACAATTTGTATAAATGTTGCAATATTTACTTTATACTTTAATTGGTGTTGTATTTTTTTTTTCTTTTTATAGATTTCTGTTGAAAATTTGTTGATAAAAGTATTCCTGTGTTTGG GACATTTTGGGGAAGACAAGTCGGCTTAGGGTTTTGCAAAAAGAATATTTGTCTTTTTGTGAGCCTTCTTCATCCTCTTCGTTTCGAACCCAGTTTCGCGCCCCATTGCAAGTTGCCCATCGACCACACAACAGCCAGCCGACACGTTCCGGTCCGACCAACCTCGCAGATCTGTTCGTCACGCCGTCGTCAACCTTCAGCCGGAGTTCCCTCCGAACCGTCCGCGACCACGACCACACGCGGGAGTCTCGATCGCCGTCACGCTTGCAGTCGCGACCCACTGTCGACCAACCGAGCTTCACCGAAATGACTTGTTAAAGCTTACGGCTAGAGAAATACTTTTACAAGAAAGTCAGTGTGAAAGAGTTCTCTTCTGACGATTCCGACCAGTGTGGGATATGAACAAAATCCGTTGAGTTTGTATTACTGCTACGAAACCGAAGACTCTGTGCAGCACTTGAAGAAGTGCATAGCTGAGGTGGGCACGGCCAAAAAGCCCCTTTGTCTTCATAATTAGGGAGGTTTCTAATGCCTAAAATCCACAAAAGAAGTTGAATCAACAGACTTGGAAAGTGCTAATTATTCTTCAGTAAAGACAAAAGTTGGGATTGCAAACTTTCTTGTTCAACTTGAAAATAGAAGATCCATTAAGGTACTGTTGGATATGGTAGGTGGACGTATCCAGCTAAATAGATGGCAGCAAGCAGCAGTTGCACTTGGTTCAGCAGTAGGCGCCTTACTAGATCCACGGCGAGCAGATCTCATAGCAGCTCTTGGGGAGACAACCGGAAAGCCAGCATTTGAAAGAGTCCTCGAGAGGATGAAAAGAAGTGCTGAAGGCAGAGCAGTGTTGTTGGAGCGACCACGTGTCTTATCATCAGAAGTTGGGCATGCATGGGACCTTCCATCCAACACATTTGGAGCTGCATATGCCAATTTTATGGGTTCCAGGAACTTTTCTCCAGATGACCGGCCTCCTGTTCGATTCATGGATACTGACGAACTGGAGTATGTTACCATGCGAGCTCGCGAGGTTCATGACTTTTGGCACACCCTTTTTGGTCTTCCCACGAACTTGATTGGTGAGTCGGCATTGAAGGTTATTGAATTTGAGCAAATGCACCTCCCAATGTGCATGCTGGCCGTTTTGGGAGGCACAGCAAAATTCAATGACAAACAGAGAAAATTGTTCTTCCAACACTACTTCCCTTGGGCCATCCGTGCTGGCATGCAGTGCACAGATCTCATGTGCGTATATTATGAGCGACACTTCCACGAGGATTTGGATGACGTGCGGGCGAAATGGGGAATAATTCCTGCACCTCCATCTCCAAAAGTTAACTTTGCTTGACAAGTCTTAAATCCTGACTCACGATAGGTATGATTGATAATCCATAGCAAAGTATGGTCATAAGAGCTCAACCAGCTCATCTCCATCTGTCTTGATGTTGGCTTCGTTCATGGATGTCATTGGAATATTCTCCTGATAAGGTGCTTGTTTGATACACGTTGGTGGGAGGGTTTTGCCCTTTAAACTTTTAGTCGAACGTTACATGGCGATGGCTACACACTGATGTGTAGGTATTTTCGTATACACTTCATTAAAATTTTGACAGCCAAGAGTGGAAAAGTTAAAAACCTACCATTCCTTTTTTTCTACTTTTCTCTTTCTTAATTATAAAAAATTTAATGGTAGTGTATAGCTAAGTATGGTTCCTTTTAGTTTCATCTAATTAGACTTCCGACTTTGTTAACTGTTACGAAATTTACTTACAATTTGTATAAATGTTGCAATATTTACTTTATACTTTAATTGGTGTTGTATTTTTTTTTTCTTTTTATAGATTTCTGTTGAAAATTTGTTGATAAAAGTATTCCTGTGTTTGG ATGGTAGGTGGACGTATCCAGCTAAATAGATGGCAGCAAGCAGCAGTTGCACTTGGTTCAGCAGTAGGCGCCTTACTAGATCCACGGCGAGCAGATCTCATAGCAGCTCTTGGGGAGACAACCGGAAAGCCAGCATTTGAAAGAGTCCTCGAGAGGATGAAAAGAAGTGCTGAAGGCAGAGCAGTGTTGTTGGAGCGACCACGTGTCTTATCATCAGAAGTTGGGCATGCATGGGACCTTCCATCCAACACATTTGGAGCTGCATATGCCAATTTTATGGGTTCCAGGAACTTTTCTCCAGATGACCGGCCTCCTGTTCGATTCATGGATACTGACGAACTGGAGTATGTTACCATGCGAGCTCGCGAGGTTCATGACTTTTGGCACACCCTTTTTGGTCTTCCCACGAACTTGATTGGTGAGTCGGCATTGAAGGTTATTGAATTTGAGCAAATGCACCTCCCAATGTGCATGCTGGCCGTTTTGGGAGGCACAGCAAAATTCAATGACAAACAGAGAAAATTGTTCTTCCAACACTACTTCCCTTGGGCCATCCGTGCTGGCATGCAGTGCACAGATCTCATGTGCGTATATTATGAGCGACACTTCCACGAGGATTTGGATGACGTGCGGGCGAAATGGGGAATAATTCCTGCACCTCCATCTCCAAAAGTTAACTTTGCTTGA MVGGRIQLNRWQQAAVALGSAVGALLDPRRADLIAALGETTGKPAFERVLERMKRSAEGRAVLLERPRVLSSEVGHAWDLPSNTFGAAYANFMGSRNFSPDDRPPVRFMDTDELEYVTMRAREVHDFWHTLFGLPTNLIGESALKVIEFEQMHLPMCMLAVLGGTAKFNDKQRKLFFQHYFPWAIRAGMQCTDLMCVYYERHFHEDLDDVRAKWGIIPAPPSPKVNFA Homology
BLAST of Tan0016823 vs. ExPASy Swiss-Prot
Match: Q9ZPR0 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At2g03690 PE=2 SV=1) HSP 1 Score: 394.0 bits (1011), Expect = 1.1e-108 Identity = 180/220 (81.82%), Postives = 200/220 (90.91%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy Swiss-Prot
Match: Q16FT5 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Aedes aegypti OX=7159 GN=AAEL014646 PE=3 SV=1) HSP 1 Score: 199.5 bits (506), Expect = 4.0e-50 Identity = 94/214 (43.93%), Postives = 137/214 (64.02%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy Swiss-Prot
Match: B3M6C8 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Drosophila ananassae OX=7217 GN=GF24309 PE=3 SV=1) HSP 1 Score: 191.4 bits (485), Expect = 1.1e-47 Identity = 89/214 (41.59%), Postives = 137/214 (64.02%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy Swiss-Prot
Match: B4H6M2 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Drosophila persimilis OX=7234 GN=GL15483 PE=3 SV=2) HSP 1 Score: 185.3 bits (469), Expect = 7.9e-46 Identity = 85/214 (39.72%), Postives = 135/214 (63.08%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy Swiss-Prot
Match: Q2LZH7 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Drosophila pseudoobscura pseudoobscura OX=46245 GN=GA16732 PE=3 SV=3) HSP 1 Score: 185.3 bits (469), Expect = 7.9e-46 Identity = 85/214 (39.72%), Postives = 135/214 (63.08%), Query Frame = 0
BLAST of Tan0016823 vs. NCBI nr
Match: KAG7020173.1 (Ubiquinone biosynthesis protein COQ4-like, mitochondrial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 455.7 bits (1171), Expect = 2.4e-124 Identity = 215/227 (94.71%), Postives = 221/227 (97.36%), Query Frame = 0
BLAST of Tan0016823 vs. NCBI nr
Match: XP_023537801.1 (ubiquinone biosynthesis protein COQ4 homolog, mitochondrial [Cucurbita pepo subsp. pepo]) HSP 1 Score: 453.8 bits (1166), Expect = 9.1e-124 Identity = 215/224 (95.98%), Postives = 220/224 (98.21%), Query Frame = 0
BLAST of Tan0016823 vs. NCBI nr
Match: KAG6585252.1 (Ubiquinone biosynthesis protein COQ4-like, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 453.8 bits (1166), Expect = 9.1e-124 Identity = 215/224 (95.98%), Postives = 220/224 (98.21%), Query Frame = 0
BLAST of Tan0016823 vs. NCBI nr
Match: XP_023002713.1 (ubiquinone biosynthesis protein COQ4 homolog, mitochondrial isoform X2 [Cucurbita maxima] >XP_023002714.1 ubiquinone biosynthesis protein COQ4 homolog, mitochondrial isoform X2 [Cucurbita maxima]) HSP 1 Score: 453.4 bits (1165), Expect = 1.2e-123 Identity = 216/226 (95.58%), Postives = 220/226 (97.35%), Query Frame = 0
BLAST of Tan0016823 vs. NCBI nr
Match: XP_022131867.1 (ubiquinone biosynthesis protein COQ4 homolog, mitochondrial isoform X2 [Momordica charantia]) HSP 1 Score: 451.8 bits (1161), Expect = 3.4e-123 Identity = 215/229 (93.89%), Postives = 222/229 (96.94%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy TrEMBL
Match: A0A6J1KR89 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111496490 PE=3 SV=1) HSP 1 Score: 453.4 bits (1165), Expect = 5.7e-124 Identity = 216/226 (95.58%), Postives = 220/226 (97.35%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy TrEMBL
Match: A0A6J1BQN4 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111004907 PE=3 SV=1) HSP 1 Score: 451.8 bits (1161), Expect = 1.7e-123 Identity = 215/229 (93.89%), Postives = 222/229 (96.94%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy TrEMBL
Match: A0A6J1BS76 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111004907 PE=3 SV=1) HSP 1 Score: 451.8 bits (1161), Expect = 1.7e-123 Identity = 215/229 (93.89%), Postives = 222/229 (96.94%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy TrEMBL
Match: A0A6J1KM27 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111496490 PE=3 SV=1) HSP 1 Score: 449.1 bits (1154), Expect = 1.1e-122 Identity = 214/224 (95.54%), Postives = 218/224 (97.32%), Query Frame = 0
BLAST of Tan0016823 vs. ExPASy TrEMBL
Match: A0A1S3BDF6 (Ubiquinone biosynthesis protein COQ4 homolog, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103488460 PE=3 SV=1) HSP 1 Score: 446.4 bits (1147), Expect = 7.0e-122 Identity = 212/226 (93.81%), Postives = 222/226 (98.23%), Query Frame = 0
BLAST of Tan0016823 vs. TAIR 10
Match: AT2G03690.1 (coenzyme Q biosynthesis Coq4 family protein / ubiquinone biosynthesis Coq4 family protein ) HSP 1 Score: 394.0 bits (1011), Expect = 7.9e-110 Identity = 180/220 (81.82%), Postives = 200/220 (90.91%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
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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