Tan0007828 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTCATTACAATTTAGAAAATTACACCAACGAAACACAGAATGAGAAATATCTGAGAAATTGGGTGTGGTTTATCCAGCCGAATTAATATATGTGGATCAAAAGAACTCTCTCTCTCTCTGTTTCTGGAGCTTTTCATTGCCACTCTGCTGTAATGCACTCCATTGCCAACCTCCGCTCCATTCCTCTTTCACTTCCCATCGTTTGTTCATCCCCATCTTCTTCTCCAAGTAAGTTTACACAGCTCTCTGTATCTCCATCGCATTCTTGTGATTCCGGCATGTATGATTGTGTTTCAGGGTAACATTCGTTTGATTGCTATGGAACAGATGGAAAATCGGAATCGAAGCAAGTAAAGCTCAGGGACGACTGGAGGCAACGCTCCAGACCGATTCCTCCTGGAGGCACCTACCCTGCCAAAGAACATTGCAGGTTCAATCTAATCTTCACTGTTTTCCTCTGTTTTTGTGAAGATTACGAAATGGTTTTGGCGGCAAGGGGCTGTTCTTTTCATTTTATCCCTTTGATTCTTGTTCATTTTTTTTAAAGATTATTGCTAACAAATTAAGTTTTCGGTAACCCATCGGGTTTACTGGTGGTTTACAACTTCAATATAGTATTAGAGTGGGAGATATTATATTCGAAACCTTCTATTGATATTGATAGTCACTTGTTGAGAATCATGCTAATTTCAGATAAAGAACAGTGTTAACTCTATTAATAAAAGATGATAATAATATATATATATATATATATATATATATGTTAGGGACAACGGACCTCCACATATCTCTACAATGGTATGATATTGTCCACTTTGGACATAAACCCTCATGGCTTTGCTTTTGGTTCCCCAAAAGGCCTCATACCAATGGAGATAATTGTCCTTACCCATGATCAATTCCTTCCCTAGCCAATGTGGGACATTTGTTTGCACCCTAACAATCCTCCCCTCGAACAAAGTACCACACTTGAGCCTCCCTTCGAGTCTCCCCTCGAACAAATCCGTCTGCTCCAACGGATCACCACATTGTGTGATATTCCTTAATCCTCCCCTCGAACAAAGATTTACTCCTCTACCAGGCAGCTTGATAGAGTTTACTACTTGCTTGCCGCTCCAAGCACTTTTTGTTCGACTCTAGGGTTCATCCACAATGTCCACATAAAGCTCATTAATTTTTGTTCCACTTTGAGGATTCCTCCGACACATAGTTAGGTTTTATCGTGGCTCTGATACCAATTGTTAGGGACAATGGACCTCCACATATCTCCACTATGGTATGATATTGTCCACTTTGGGCATTAACCCTCATGGCTTTGCTTTTGGTTCCCCAAAAAGGTCTCATACCAATGGAGATAATTGTCCTTACCCATGATCAATTCCTTCCCTAGCCAATGTGGGACATTTGTTTGCACCCTAACAATATATAGTTCGTGAACACATGAGGGTGGAGATTCGTGTCGAGGATCACACGTTAGAAAGGTGGAGAGAAACCTCAGAACTTTTAAGATATGTGAGCTAGTTTTCTCGTTGCCAATTGGTTTTGAGATGTAACCCATGTAATTTAATAATTCGAACCTCCAACCTCTAGAACAAGGGTATGTCTTACCCAGGTGACTTGCTTAATGACTAGTTTAATATTGTCTTTGATTTTTGGTTTTTTTACTTGCAGTCGATGCGGCTTGTGTGATACTTATTACATTGCCCACGTGAAGAATGCTTGTGCTTTCTTGGGCGATGGCATGTCTAGAATTGAAGTAAGTCCCCTTGCTTCTGTTTGTATGTGTTCCGTATCTGCCTTTACCTCTTTTTTTTTTTTTATTTTTTTTTTTATTTTGTTTTTTATATTAGTTCGCATAATATTCGTCAGTGGAGTTTGGATGTTGAATTCCCTGTAATATAGAAGTTGAACAAAGGACTAGAGGTTGTTAAATTGATGCTTGTGTTACCTTTTAAATTCTGTAAATAGTTTTTCTTACAAGAGAGATAATATGCATTATGAAGCTAATTCTGTGATGGTAAAGCTCTCTTGTCTCCTAGCTATTTGACTAGTGGGGATGGAACCAGATCTCTTTAGTGTATTGACTATTGATCATGCTGTCCTTATTTTCCCTTTTCCATTCAATATTAGATTATTAATGTTCTCAAAGTCAAATTGCTCGCCTGACGTAGTACTGGCTCCTGCTCATCAAGTGATAGCAAAGTGCTCCTCATATGAGTAATTAGTCTGTTCATCAGTTTCATAAGTGGTATCAGAGTTTCACTGATATTTCATCAGGAATTGGAACCTGTAGTTCATGGTAGAGGGAGGAAGACAGATGTGCTGGATGAGACGTATTTTGGAGTTCATGAGAAGCTATTATATGCTCGTAAGATTAAACCAGTGGAAGGTATAAGTGTTTATAACGTAAGAAATAATCTTAGATGTTTCTTCTTTGGTTTCTATGATACTTCAGCAGGTTGTTTTAAAATGCATTGTATTGCTCTTTTTGGTAGTCTTGGTGTTGGATCGGGCTGCTTGACAACCCCTGTCAATATTTTGTCCTATCCTTGTTTGTTTGACTACATTATCATTAGATTTCTCCAGAACACTCCAGCTTTTTTTTTTTGTTTATAATTATAAATCTACAGTTTGAGGATCAAATTTCCGCAAACATGCAGGAGCTCAATGGACGGGGATAGTAACAACCATAGCAATTGAAATGCTAAAATCAGGCATGGTCGAGGCTGTTATTTGTGTACAGAGGTAACTCTGAGATTTTCTCGATAAAGCTATGTAATTGCTTTTGGAGTCTTCATTTCATTTTTTTTCTAATGACATTGTTGTAGTGAACATCTCATTGATTTGTTATATTGCAGTGATCCAGAGGACAGACTCAGTCCAAGGCCTATTTTAGCGAGGTTATTCTAGTTTATTTACTGCAATCTTTGGTAGTTTTGCTAATATTCTGGAATCTGTATTGACAAATAGCCTCTCCGTCAGTTCACTTTTACTGATTTGCTACTATAATCATTCTTGCTCTCTTAATAGGACACCAGATGAAGTTCTAGCAGCCAGAGGAGTAAAGCCAACGTTGTCTCCCAACTTGAATACCCTTGCTCTAGTTGAGGTGCTTTTGTGTTTCCATTATTAAGAGGGAGAGATACTCAGTTTATGCTTTTCTTTTTAGTAGGCAACTTTCTCTTGAGGGAGTTCACATAATTTTTGTTAGACTAAATTGATTTTAAATTCCAAGCTGGTAAATCAACTAAATAATCAAATTAGATGCTTAAATTGCCAGATGGGTTTTATATCAACTTGTTAGAGGTCACAAGAAAATAAGGGGTACTTGCATTAGCACCTATAATTGAACTAGAAGTCGAATGATACTATAGTGTATTTAATGAGACGTATCGATACTTTTTTGAAACAGGCTGCCGGAGTCAAACGCCTTCTATTTTGTGGTGTGGGCTGTCAAGTGCAAGGTAATGTTTATGTTTTACTTGGTGGATTTATTAATAATACCTGTTTGAGGGTGTGTTATGGTACTCCCATATTCTGGGAATCAAGACAATTTTCGATTCGATGTGTTTCTGGGGTGCATAAAGATCCTTAGTTCGTTTCGCTATTGTGACTTCTACAACTATAATGCAGAATGATATCTTAAACTGCAGCATTAAGATCTGTGGAGCAGCATTTAAATCTGGAGAAGCTTTATGTACTGGGCACTAATTGTGGTAACTCTCTGCATTTTTATCTTTCATATAAGAGTTTCTGGTTTTTATGGCATCTTACCCTTACTACTTTTAGATGTTTCTGTCTGTAAGTTTTAATTTTTTCCCCCTTTTTATTTGAACAGTGGATAATGGAACTCGAGAAGGACTAGATAAATTTCTCAAGGCTGCAAGTATGGAACCAGAGACAGTTCTTCATTACGAGTTCATGCAAGATTACAAGGTTTGTTTTGGGACTCTCTTTTTTATATATATATATAACTCCCTGTGAAAAAGATTTAGAATATGACTGAGAAATATAATTCATCCAATGTGCATCTCTCGAGGTCTCTAGATATCCTCTCGGTGGCTTAGGTGTGAGATTTAGGTTAACTTTTAGGCTTCATGTCGAGACCTAAACTTGTAATGGTTAGAATTATGATATTTTCACATTTTAAGTTTCTTTAGATATTTGAATCCATAATGAGAGAGTGAAATTTTGATTTGCTATATATGAGATAGATTTAAGTAAGGTGTCAACTTGTCAATTCAAGCATATCTTAGTGGATAAAACATATATTATCTTTCTAAGGATCCTCAACCCGAGTTCCTTTTTATTTTTTTAGAATGATATGATCCTTAGCCTTGCAAAGCTGATACCTTGCAAAGCTGATACACAAACAGTGCAATTTGCCCCTTTGTGCCTTGTGATTCATGTGTTCACTTAGATATTGATTCATGTAATAGCTCATTGAAGGCTCAGTTTCTTCTTAAAAAAAATGCACTGGCTTAGTAGGAAAATATTGTATCTTTTGTGCAACTGTGCCACAAGTTTCAATTTTTAGCCTTTGTTAACTCTATTGCTTCTCAGCCAAGTTCTTATTGCTCTAATAGGTTCATCTAAAGCATTTGGATGGTCATATTGAAGAGGTAAGTCTCTGCAGCGTTATTGTTCATGAACATCTGTGTTGTGCTGCCTCATCGAGTTAACCATACTGAAACAGGTTCCATATTTCTGTCTACCTGCAAATGACTTGGTTGATGTTATTGCACCATCTTGCTACAGGTATTTACCTCATTGTTTCCTATTTCAATTGTTGGGAGTTTTGCATATTTGATCTCTCGTTGGAACGAGTTGCATATATTGCAGATGCTGAGAATTGAACATTAGTATTTTGTGTTTGTCTGGTCTGATGCAAGAGTGAAAGGCATTGCAAATGCATACTTACCCGTGTTTTAAATTAAATGAAGTCATTAAGGAATCATCCCTAAACACTTAAACTAAGGTACATGACAGGAAAACATAAAAAATGAATTTTCTTTTTTTTTTTAAAAAAACTCAATAAAATTGGTTGCAAATCTGAAAGTTTTTTTCTCCTGAATTTGAAAGATTCAAATCTATCTATTGTTCTATTCACAAAACAAATATACATATATTAAATACCATCTTTAACTTAAGTTTTTTTTAAGATAGAAACATCATTAACTTAAGTTAACTAGCTCAATTTATTTATAATCTCTTCATTCGGATAAGAAGTGAGAACTGATTGATAAGACACTTAAATCAAAATAATGAAACGTACAAAAGGGGAGGGGAAAGCCTGAACCCAAGCTATAGGAAGTTGTGGAAGAAGCCTTCCATGGGAGGTCGAAACAGAAAAGAGGCAATTTTTAAGACTAAAATATGTTTCTTCACTCTCTCTCTCTCTCAATTTTTAGAAGTGTGTCCAGGCAGACTAAATGTAGTGGAGGGGAGTTGTCCAACTAAAAGTTGAGAGGATCAACCTCCCTTTGTACTACAATTTTCTTTTTTTAAAAATCTACAAATATACTTCACAAAATTGTATCTTATGTTTGAATCCTCGTTTTAAGAAAAATGAAGAATTTTGTAAACGAAAAACAACACTGATTTTTTTTTTTTGTGGTATTCAAAAGTAAGTTTCCTAATTTCGGATTTAGTTGTGATGAACACAGTTTCTACAGATTTTCTTCATTTTTTTAGAAATGGATACAACGTTTTAAATTTTGCATCATGTTATGAGTAGTTACTTCTCCTAGTGATGTCTTTTCTTCACTCTTTCGAAGTAATTATCTAATTGAGTTTTGGTTTGCATTGCAGCTGTTTTGATTATACAAATGCTTTAGCGGTCAGTATTTCTACTCATCCAACTTAATATGAATGCCAATGTATCAAATTGTTTCTTCTCCTTTAGTTAGCGTGGGGTGCAATATTTTTGTACTTATGATAGCAACGCATTATTGTTACTTCTTTACGATCTTTATTTGAACGTGATGCGGCATTTTTGTATCTAATTGTTTACTGCCCTTTTGTAGGTAGAGGTAAAAATACATTTGTCTATAAAACAGTCATTTGTTTGTTATTGTTTCATTATCCTATTCTTGGTTGATCTTGTCGCATACATTTTGTTATTAGTAGCTTTCTCTTGTATAAGAATAACTTGTATTTTATTCATATATACAAGGGAAATATAAGATTCTTTTTTCTCATAAAAATAATTGAACAAGATTGTAATTGGTCTCCCAAAATTATTTCCAGTGGTAAACTTGGGACAACCAAGAATCTATGCGAAACACAATGAGATTCAAAACTTAGTCGATTGCTTAAGGCAAATTATGGTGCACGTGTGTGTTTTCCCGTCAAAATTATTCTGGCATGGTTAAACTGTATCCAACAAGGCCTAGAAAGAGTTACTAAATCAACCTTTGCCATTTGCCATATACCCCCTTCGTCCGTCAGGTTTGCCATGAAGAAGTTCCCTGGCTTGAAAGATTTAAATTTTACTCTAGTTTAGATCTAAAAGTGGATGTCACATGGATACATTAAATTTGAAATGTTAAAAAAAATATTTTTTTCAAATTAATTGAAGTGGTTAGCCTTTCTTTAAGTGAGCATGCTTTCAGACACATTACTAACGATTAACTTGTTCTTTACATTTGTTACTATAAAGCTGCTCAGGCACAAACAAAATACTGTTTGACTTCCATCTTTGATCAATGGTGTAAAACTTTCAGGATCTGGTTGTTGGATACATGGGTGTGCCAAAATATTCTGGAATCAGCATGACCAAACATCCACAGTATATTACTGTTAGGTAATATTATTGTTTAGGTTCTTTCTGTACCTTTCATGCCTGGCCATGTTACTAGAGACTATTTTGTGTTAATATTTAGTAGACATTCTAACATTCCATTATTGTTGTATCCTTAACATTGTAGAAATGAGCGTGGTAGAGAGATGCTGGGTTTAGTAGAACAGTACTTGGAAATTACTCCAACAATTAGCGATGTAAGTTTCTTGCCTTCCCATATTTTCTATAATAAGGAGCATAGCGTATATTACTAAGAAAAATATTCTGGGCTCAGGGTAATCGAAGACCTTTAGTTATGGAGACTGTGAAGGCAGATGACAATGCTAAGCTTGGTATGTATGGATGTCTTTACAGTCTCTCAAACTCAGTTCTAATTTTGTACACTAATTTTTTTTATTCGGACTTATTTTTAAATCAAATTTCCTTCAAATGTTATTGTGTTATAGTGTACAATGTAATCTATTTGGAGGAATCCATTTGCAATTATCTTGCTTATCTATCCTTCTGTAATGGGTCAAAGAATTCTTCCCAATCCTTAATCATTTTCGTCCTGAAGATAGACAGGCTATGTTCCTTGTCATTTCTTTAAAATCACGGAAAAGCAGAATTTCCTAGCTTTGTTATGAATGCTCCATATAGTACCTGCTTTCTCTGTAATTGCTAGTGAGCATGCTGATTAGAATTTCTTCTTTTAATGTGAATCCATGGCAGGTTTCTATGACCTTTAATTTGTATACTTGTGTTGTTCTTACTCTCAGGGAAAGGTCCTTCACAGCCTGCTCCAAAATTTATTGGGAACATCATAGCGTTTTTTCTGAACTTGGTGGGAAATATAAAATACCAACTTTTAGAAATGAAAGTGTTCAAGTTCATTGATCTATGATACATATACAATAAAGTATATGCAGAAACTTCATTATCTTGAATTTTCTTTTCTCTAGATTGGTCCGAAAGGTCTGGAGTTTGCTCGTTATTCACTGGATTATCATACCATCCGGAACCATTTATACGTCTCTCGAACATGGGGAAAACAAAGGTAAACTCAATTGAGCTGTGTATGAAGAACCCTTTCATTTCTGTTTCATTTTCCTATTTTTGATAAAGATTTATTGACTGCAGAGCTGATAAGCATGAACCTACATATGCTAAAAAGATAGTGGATTTGTACAACCAGAAGGGTGAAATTGATCGTATGGTTTCCAACTCAAAGTAATCGTACTGTTCAGAGACAGATAGCAGTTGCACTTATATTACTGGCTCTCTTGCTTTTGGTTACACAAAATCAGAAGGCTTAGTGGTCATGAAATAATGTTACGGAACTTCAAGATTCTTGCTGTGAGCTCTTGGTTCCACTACTTTTGTCTTGTTTCAGTCCCTGAATCATCCACCTCTTTCTATGGGCTGTTTATTGAAATCCTTTCGTCTGTAAGAGAGTAAAACTCTGTCTCAACTTATTTTTAGTTACAAGTAGTGTTTATTTTAGGATTAGGCGACAAAATGTAGTAATGAACATTTGCTCAATTTTACTACGGCGTCTTTCTTTTCAAAGAGCTTCATTTTGATAACATAATGCATTTTTTGGAAGTTGATCAAGCCCTTCTAACTAAATCGAGCAAAAATGCTCGAACGGGTCAGCCTCATTACAATTTAGAAAATTACACCAACGAAACACAGAATGAGAAATATCTGAGAAATTGGGTGTGGTTTATCCAGCCGAATTAATATATGTGGATCAAAAGAACTCTCTCTCTCTCTGTTTCTGGAGCTTTTCATTGCCACTCTGCTGTAATGCACTCCATTGCCAACCTCCGCTCCATTCCTCTTTCACTTCCCATCGTTTGTTCATCCCCATCTTCTTCTCCAAATGGAAAATCGGAATCGAAGCAAGTAAAGCTCAGGGACGACTGGAGGCAACGCTCCAGACCGATTCCTCCTGGAGGCACCTACCCTGCCAAAGAACATTGCAGTCGATGCGGCTTGTGTGATACTTATTACATTGCCCACGTGAAGAATGCTTGTGCTTTCTTGGGCGATGGCATGTCTAGAATTGAAGAATTGGAACCTGTAGTTCATGGTAGAGGGAGGAAGACAGATGTGCTGGATGAGACGTATTTTGGAGTTCATGAGAAGCTATTATATGCTCGTAAGATTAAACCAGTGGAAGGAGCTCAATGGACGGGGATAGTAACAACCATAGCAATTGAAATGCTAAAATCAGGCATGGTCGAGGCTGTTATTTGTGTACAGAGTGATCCAGAGGACAGACTCAGTCCAAGGCCTATTTTAGCGAGGACACCAGATGAAGTTCTAGCAGCCAGAGGAGTAAAGCCAACGTTGTCTCCCAACTTGAATACCCTTGCTCTAGTTGAGGCTGCCGGAGTCAAACGCCTTCTATTTTGTGGTGTGGGCTGTCAAGTGCAAGCATTAAGATCTGTGGAGCAGCATTTAAATCTGGAGAAGCTTTATGTACTGGGCACTAATTGTGTGGATAATGGAACTCGAGAAGGACTAGATAAATTTCTCAAGGCTGCAAGTATGGAACCAGAGACAGTTCTTCATTACGAGTTCATGCAAGATTACAAGGTTCATCTAAAGCATTTGGATGGTCATATTGAAGAGGTTCCATATTTCTGTCTACCTGCAAATGACTTGGTTGATGTTATTGCACCATCTTGCTACAGCTGTTTTGATTATACAAATGCTTTAGCGGATCTGGTTGTTGGATACATGGGTGTGCCAAAATATTCTGGAATCAGCATGACCAAACATCCACAGTATATTACTGTTAGAAATGAGCGTGGTAGAGAGATGCTGGGTTTAGTAGAACAGTACTTGGAAATTACTCCAACAATTAGCGATGGTAATCGAAGACCTTTAGTTATGGAGACTGTGAAGGCAGATGACAATGCTAAGCTTGGGAAAGGTCCTTCACAGCCTGCTCCAAAATTTATTGGGAACATCATAGCGTTTTTTCTGAACTTGATTGGTCCGAAAGGTCTGGAGTTTGCTCGTTATTCACTGGATTATCATACCATCCGGAACCATTTATACGTCTCTCGAACATGGGGAAAACAAAGAGCTGATAAGCATGAACCTACATATGCTAAAAAGATAGTGGATTTGTACAACCAGAAGGGTGAAATTGATCGTATGGTTTCCAACTCAAAGTAATCGTACTGTTCAGAGACAGATAGCAGTTGCACTTATATTACTGGCTCTCTTGCTTTTGGTTACACAAAATCAGAAGGCTTAGTGGTCATGAAATAATGTTACGGAACTTCAAGATTCTTGCTGTGAGCTCTTGGTTCCACTACTTTTGTCTTGTTTCAGTCCCTGAATCATCCACCTCTTTCTATGGGCTGTTTATTGAAATCCTTTCGTCTGTAAGAGAGTAAAACTCTGTCTCAACTTATTTTTAGTTACAAGTAGTGTTTATTTTAGGATTAGGCGACAAAATGTAGTAATGAACATTTGCTCAATTTTACTACGGCGTCTTTCTTTTCAAAGAGCTTCATTTTGATAACATAATGCATTTTTTGGAAGTTGATCAAGCCCTTCTAACTAAATCGAGCAAAAATGCTCGAACGGGTCAGC ATGTGGATCAAAAGAACTCTCTCTCTCTCTGTTTCTGGAGCTTTTCATTGCCACTCTGCTGTAATGCACTCCATTGCCAACCTCCGCTCCATTCCTCTTTCACTTCCCATCGTTTGTTCATCCCCATCTTCTTCTCCAAATGGAAAATCGGAATCGAAGCAAGTAAAGCTCAGGGACGACTGGAGGCAACGCTCCAGACCGATTCCTCCTGGAGGCACCTACCCTGCCAAAGAACATTGCAGTCGATGCGGCTTGTGTGATACTTATTACATTGCCCACGTGAAGAATGCTTGTGCTTTCTTGGGCGATGGCATGTCTAGAATTGAAGAATTGGAACCTGTAGTTCATGGTAGAGGGAGGAAGACAGATGTGCTGGATGAGACGTATTTTGGAGTTCATGAGAAGCTATTATATGCTCGTAAGATTAAACCAGTGGAAGGAGCTCAATGGACGGGGATAGTAACAACCATAGCAATTGAAATGCTAAAATCAGGCATGGTCGAGGCTGTTATTTGTGTACAGAGTGATCCAGAGGACAGACTCAGTCCAAGGCCTATTTTAGCGAGGACACCAGATGAAGTTCTAGCAGCCAGAGGAGTAAAGCCAACGTTGTCTCCCAACTTGAATACCCTTGCTCTAGTTGAGGCTGCCGGAGTCAAACGCCTTCTATTTTGTGGTGTGGGCTGTCAAGTGCAAGCATTAAGATCTGTGGAGCAGCATTTAAATCTGGAGAAGCTTTATGTACTGGGCACTAATTGTGTGGATAATGGAACTCGAGAAGGACTAGATAAATTTCTCAAGGCTGCAAGTATGGAACCAGAGACAGTTCTTCATTACGAGTTCATGCAAGATTACAAGGTTCATCTAAAGCATTTGGATGGTCATATTGAAGAGGTTCCATATTTCTGTCTACCTGCAAATGACTTGGTTGATGTTATTGCACCATCTTGCTACAGCTGTTTTGATTATACAAATGCTTTAGCGGATCTGGTTGTTGGATACATGGGTGTGCCAAAATATTCTGGAATCAGCATGACCAAACATCCACAGTATATTACTGTTAGAAATGAGCGTGGTAGAGAGATGCTGGGTTTAGTAGAACAGTACTTGGAAATTACTCCAACAATTAGCGATGGTAATCGAAGACCTTTAGTTATGGAGACTGTGAAGGCAGATGACAATGCTAAGCTTGGGAAAGGTCCTTCACAGCCTGCTCCAAAATTTATTGGGAACATCATAGCGTTTTTTCTGAACTTGATTGGTCCGAAAGGTCTGGAGTTTGCTCGTTATTCACTGGATTATCATACCATCCGGAACCATTTATACGTCTCTCGAACATGGGGAAAACAAAGAGCTGATAAGCATGAACCTACATATGCTAAAAAGATAGTGGATTTGTACAACCAGAAGGGTGAAATTGATCGTATGGTTTCCAACTCAAAGTAA MWIKRTLSLSVSGAFHCHSAVMHSIANLRSIPLSLPIVCSSPSSSPNGKSESKQVKLRDDWRQRSRPIPPGGTYPAKEHCSRCGLCDTYYIAHVKNACAFLGDGMSRIEELEPVVHGRGRKTDVLDETYFGVHEKLLYARKIKPVEGAQWTGIVTTIAIEMLKSGMVEAVICVQSDPEDRLSPRPILARTPDEVLAARGVKPTLSPNLNTLALVEAAGVKRLLFCGVGCQVQALRSVEQHLNLEKLYVLGTNCVDNGTREGLDKFLKAASMEPETVLHYEFMQDYKVHLKHLDGHIEEVPYFCLPANDLVDVIAPSCYSCFDYTNALADLVVGYMGVPKYSGISMTKHPQYITVRNERGREMLGLVEQYLEITPTISDGNRRPLVMETVKADDNAKLGKGPSQPAPKFIGNIIAFFLNLIGPKGLEFARYSLDYHTIRNHLYVSRTWGKQRADKHEPTYAKKIVDLYNQKGEIDRMVSNSK Homology
BLAST of Tan0007828 vs. ExPASy Swiss-Prot
Match: Q8GS60 (7-hydroxymethyl chlorophyll a reductase, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=HCAR PE=1 SV=1) HSP 1 Score: 780.4 bits (2014), Expect = 1.2e-224 Identity = 373/454 (82.16%), Postives = 412/454 (90.75%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy Swiss-Prot
Match: Q7XTG7 (7-hydroxymethyl chlorophyll a reductase, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=HCAR PE=3 SV=2) HSP 1 Score: 747.3 bits (1928), Expect = 1.1e-214 Identity = 355/444 (79.95%), Postives = 403/444 (90.77%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy Swiss-Prot
Match: P46015 (Uncharacterized protein all1601 OS=Nostoc sp. (strain PCC 7120 / SAG 25.82 / UTEX 2576) OX=103690 GN=all1601 PE=4 SV=2) HSP 1 Score: 434.5 bits (1116), Expect = 1.6e-120 Identity = 220/405 (54.32%), Postives = 282/405 (69.63%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy Swiss-Prot
Match: Q00391 (Coenzyme F420 hydrogenase subunit beta OS=Methanococcus voltae OX=2188 GN=frhB PE=3 SV=1) HSP 1 Score: 77.0 bits (188), Expect = 6.4e-13 Identity = 76/259 (29.34%), Postives = 128/259 (49.42%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy Swiss-Prot
Match: Q60341 (Coenzyme F420 hydrogenase subunit beta OS=Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) OX=243232 GN=frhB PE=3 SV=1) HSP 1 Score: 72.4 bits (176), Expect = 1.6e-11 Identity = 73/258 (28.29%), Postives = 128/258 (49.61%), Query Frame = 0
BLAST of Tan0007828 vs. NCBI nr
Match: XP_038895859.1 (7-hydroxymethyl chlorophyll a reductase, chloroplastic [Benincasa hispida]) HSP 1 Score: 930.2 bits (2403), Expect = 7.0e-267 Identity = 453/481 (94.18%), Postives = 467/481 (97.09%), Query Frame = 0
BLAST of Tan0007828 vs. NCBI nr
Match: XP_022924576.1 (7-hydroxymethyl chlorophyll a reductase, chloroplastic [Cucurbita moschata]) HSP 1 Score: 907.1 bits (2343), Expect = 6.3e-260 Identity = 437/460 (95.00%), Postives = 451/460 (98.04%), Query Frame = 0
BLAST of Tan0007828 vs. NCBI nr
Match: KAG6582432.1 (7-hydroxymethyl chlorophyll a reductase, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 905.2 bits (2338), Expect = 2.4e-259 Identity = 436/459 (94.99%), Postives = 450/459 (98.04%), Query Frame = 0
BLAST of Tan0007828 vs. NCBI nr
Match: XP_023526945.1 (7-hydroxymethyl chlorophyll a reductase, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 904.4 bits (2336), Expect = 4.1e-259 Identity = 436/460 (94.78%), Postives = 449/460 (97.61%), Query Frame = 0
BLAST of Tan0007828 vs. NCBI nr
Match: XP_022157982.1 (7-hydroxymethyl chlorophyll a reductase, chloroplastic isoform X1 [Momordica charantia]) HSP 1 Score: 903.3 bits (2333), Expect = 9.1e-259 Identity = 437/457 (95.62%), Postives = 448/457 (98.03%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy TrEMBL
Match: A0A6J1E9U1 (7-hydroxymethyl chlorophyll a reductase, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111432016 PE=4 SV=1) HSP 1 Score: 907.1 bits (2343), Expect = 3.1e-260 Identity = 437/460 (95.00%), Postives = 451/460 (98.04%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy TrEMBL
Match: A0A6J1DVZ0 (7-hydroxymethyl chlorophyll a reductase, chloroplastic isoform X1 OS=Momordica charantia OX=3673 GN=LOC111024578 PE=4 SV=1) HSP 1 Score: 903.3 bits (2333), Expect = 4.4e-259 Identity = 437/457 (95.62%), Postives = 448/457 (98.03%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy TrEMBL
Match: A0A0A0L475 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G133900 PE=4 SV=1) HSP 1 Score: 902.5 bits (2331), Expect = 7.5e-259 Identity = 438/460 (95.22%), Postives = 452/460 (98.26%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy TrEMBL
Match: A0A6J1IYV3 (7-hydroxymethyl chlorophyll a reductase, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111479706 PE=4 SV=1) HSP 1 Score: 902.1 bits (2330), Expect = 9.8e-259 Identity = 434/460 (94.35%), Postives = 450/460 (97.83%), Query Frame = 0
BLAST of Tan0007828 vs. ExPASy TrEMBL
Match: A0A6J1DUU6 (7-hydroxymethyl chlorophyll a reductase, chloroplastic isoform X2 OS=Momordica charantia OX=3673 GN=LOC111024578 PE=4 SV=1) HSP 1 Score: 888.3 bits (2294), Expect = 1.5e-254 Identity = 433/457 (94.75%), Postives = 443/457 (96.94%), Query Frame = 0
BLAST of Tan0007828 vs. TAIR 10
Match: AT1G04620.1 (coenzyme F420 hydrogenase family / dehydrogenase, beta subunit family ) HSP 1 Score: 780.4 bits (2014), Expect = 8.3e-226 Identity = 373/454 (82.16%), Postives = 412/454 (90.75%), 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 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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