Tan0009398 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATTTTTTTAAAAAAAATCAGCAGAGAGACACACGTTCGCAATTCATTGGCCAAGACGAAACTCTCCGGTACGGGAACAATGCTTCAGATTTCTCTCCATCGAGCTCCGGCCCGTTTTCTTCACAATTTCCATCTCTCAATTGCTGTTGAAGCTCAAAGCAACCGTCTCCAATGGCGTCTCTACACGCTTCTCTCCCTTCAGTCTCTTCAATTCGCTCCCGTCGTTCACCGCTGGTTTCTCCCAACACCGTAGCTTCTTTGGTTTTTGACTCCGGGCTGCCGTCCACTGGCCGCAGCCGGAGACTTATCCGCAGACGGCTCTGTAGAGCTATGGTTCAGCAGGCCGCACAAGGAGCTCCGGCGATTTATGCCAAGGAGATGGAGAGACTCTCTGCTAAAGAATCGCTGCTGTTGGCTGTGAGTATCGGTGTTTGAGTTTCTTGATTGTTCAAAGTATCGTTTGATTCGTTTCACTTCAACGACCGTGATTTTAGTAGAGCATAGCATTGGCCGGGAATTATGTATCTATATTTGTGAATTTAGTATTATGTGCTCGTGAAGTACATTTCGCTGTGAAAATTGAAACATGCTTGATTTAATGCCATTTTTGCTGTCGAGGAGCTACTTTGTGTCGATTTGAATCTAACATAGTATGTAGTTTGACTTTCTCCTGTTTACCACTACAACGAAACTGGAAACACAACAGCCTGGAACTGAGAAAGTTAGCTGAAGATTTGAATTAAAAAAGGCTCCGATATCAATTTTCGATGGCTGGCCTCCAAGAGTTTTAATCTCAAGTCAAGAGAAAAAGAGAGAAGCAAAGAACTCTCATAACCAAGATTTTGCTAGAAAAGAAAATAGAGAGGCTGAGACATGATGTTTAAGGGATATGTGTTAGACTATGTTAATATAATTAAATTTGCTCCAACCTATTATTTGGCCTTTCTTCAAATTTCCAAGCCTACCAGTGAGGTGAAGTGTTAGACTATGTTAATATAATTAAATTTGCCCCAACCTATCAACTTAAATTTTTGGATTGATTGGTGATTTAAGAGTAAGCAAGGATATCCTACCTACAACAAAAACAATTTTGTTTATTTCCCAGATAGGAATTACCAGAGGGAAGAGCAAGAAGATGATCCCCCTAGCCCCCTTTACACCCTTTTTATAAACAATAAAGGTTTTTATCTTCAAGTGGCCTAAAATTGTTTCAAAAGAAAATAGTTAGTAATCTGTTTTAACTAATGGAAATTGGAGGAGCGAACTGTCACATTTCTGAACGAGATAGTTAGAAGAAACGCCTCCCCTCGACCTCTCCTCGCAGATTTCATTATCTTTTCAATTATTTCTTATGGTCTAACGTTTGGTAGGTTTGATTTTTTTTTTTCTTTTTCAATAGAATGAGTATCCACCCACTTTCTCTGTGATTTGAGACATCTTAATGATTGAATTCAAGAAGTTGATTGGATTGGTAGACTGTTCCAATCTCTTAATCTTTCTTTCCAGAATATCTATTTTTCTTTCTTCTCTAGTTTGAAACTCATGCAAGTTTTATGAGTACGAATTTATTCACTCCGTCAAGTGCAACTGTTTTGATCGTGATGTGTGAATTTATGGTTGCTGTTTGTTGATCTGTGATGTGTATCTCTGCAACTGCATCCATGTTTGTACGGACAAGTTCATAAGCCATTGCCTGTGTATGTCATTTTCACATTATTAAGTTTTATTTTTGTGTTTCTAATGTAGATCAATTGTTTCAGTTCAAAGATTCTGGAGGTTTTGAGGCTTTAGTTACTGGAAAAACAACGGATATGCAACGAATTGATGTGAATGAAAGGATAACTGGCCTTGAGCGTCTTAATCCAACTCCTCGACCAACAACGTAGGCTCCTTTGATATTTTTTTTTAAATTTTATTTTCTATGGCTTTGGGTGTTCTTACTTGTATGTTTCAGCTGCTCAGGTCCCCTTTTCTGGAAGGTAGATGGAATTTTGAATGGTTTGGATCTGGAAGCCCAGGATTTGCTGCTACGTTAATATTTCAGTAAGTCTATGTGTCTGTACCAATATATATTTTTTTCCATAGCCACATTGTCAGGTAAAACTGGTGATGAGAATTCGAGTGCCATTATAACTGAGAATCTTTTTTTTTTGTAGGGGATTTCCGTCAACTCTGGCTAATTTGTCAAAACTGGATGCTTTTATCAAAGATGGAACTGCTAGGATTACTGCTAATGTTAAGCTATTAAACGCGGTAACCTTTATGCTTGTAACTATATTTTCATCTTCAAATATTCAGCTTTTTTTTCACCCGCATGAATCATTACACGAGCCATTATTTGTTTCTCAAGAAAAGGAGAGATTAACTCTCGTCATCTAGTGGCTTAGCCTCAGATATTTTATCAGATGATGTGTTAAAAGAAATTATGTTATTGCTTTGTCTGTTGAAAGGAAACAATATGGTTTGGTCTAGCCAACAAGAGCTTAGCTCAAATAGCATTAAGTATGACTCATGACTAAGAGTTCATGGGTTTGAATCCACCCACCCCCAATTGTTAATGTACTCAAAAAATATATATTTCTAAAAAAAACAGTATGGTTTGGTCTACTGACAAATTTCTTGTTGTAAATTGCGTTGCATTCCTCATCTTGTAATGTTATCTTCTGTAAGAGTTCTGATGAAGTAAGCTTTTATTGTTTTGTTGTGGCCATTAGATTTGGTTGATTTGTGGTGAGATATACTTGGAGTTGAGACATAGTCATTCAATTGTGTTATATGACTGTTGAATATTAAATTTTGGGTTTGGTTAAATTACAAAGTTGGTCCCTATGATTTTGAAAAAGTTAGAATTTAGTCCCAATAGTTTAAATTTTAAAATTAATCCCTATGGTTTGATAAAACTATCATAAATAGTCCCTACAATAGGAATTATTTATGAGGGTTTGATCAAATCATAGGGACTATTTATGAGGTTGTTTAAAACTATAAGGACAAAATTCTAAAATAGAAACTAAATTCCAACTTTTCAAAACAATAGAGACCAAATTTGTAATTTAACCCGTATTTTGTCAACAGATTTATTGTTTTGAATGCTGTGAAACTTAAGCATGTGCATGGAAGTAATCTATGTTGTAAACTCCTGATATATGTGTGTTTATATATATAGTGATGGGAATAAAATTGCATTAAATAAAGAATAGATAAGACAAGACATTTGTCCGAACATAATAGTTACTTGGAGTGATTAATTGTAGCCTCTGGAGCTTACAGTAAACGACTGCAATTGACAATAATATTTGCTGTGGAACAATTACGGAACGGAAGTGTGTAGAAAAAGAACTCCAGATAGAAGTTGGAGAAGACACCAAATGTCACAAATCCTTAATTGAGATACTAATCCCTCTCACAGAAGGTTTCGTCGCCTCTTTGAGGCAACTAATTCTGAAGAATGGCCATAACGCTATTAAGCCACAAAAATTCTAGCTTTCTTTCTAAATGAGTGCCCATAGGAAATCTGCCTAGGAAATCCAAAAAGTTTTTAGGGAAGCACTTGCAGAGAGTGAATTTGTTCAACAAGTGCAACCAAAGCGCCGTAGTAGAAGGACATTGTTCGACTGTTGATATAATTAAATTTACCATAACCTATCAGTTTAAGTTTTTGAGTTGATTGGTGATTCAAGATAGTATCATAGCAGCAGGTCCTGAGTTTGAACTCCTATAAAGTCGTTTCCTCCTGAATGAATATTGATTTCTACTTATTTGACTTTTCTTCAAATTTCCAAGCCAACAAGTGAGGTGGAGTGTTAGACTATGTCGATATAATTAAAATTATCCCAATCTATTAACTTAAGTTTTTGGGTTGATTGGTGATTTAAGATAGTATCAGAGCAGGAAGTTTTGTGGTACTTGTTAGGACAGATTTTCAAGCCTACAAGTGAGAGAGAGTGTTGGAGTGTTCATATAATTAAATTTACCATAACCTATTAGCTTAAGCTTTTGGGTTGATTGGTGATTGATTGGTGATTTAAGAGACATGACTAGAATAAGGGATTAAAATCCTCCACATTCCTCAATTACGGAACATAAGAGTTCCATTTTTGAATTCATCAACCATGGTCGGAAAAATCCATTCTTCTTAGCACATATATCCGTTCAAAAGACTTCATTGGGTTTCTCAGGTGGAACTTGAATGTGTTTGGAATTATGCACAAATAAGGAGAGCTTGAATCTCTTTGGTAGTATGCGCAAAGAGGGATTTGCAACTAAATAAACCTAACTTGTTCAGACACCATCTTGAATCAAAGAGTTGATTGGGGATGTAATCTTCCAATGGGAAAGCAAGCCATTTCTGAAAACTCTCTAATCTAAAAGTTCCTTCTAAATTTGAGGTTAGTTCAATATTTCAAACTGAGTTGAAGACAACATTTGCAGTGTGGTTGTTAACCTCTCCTCCCTCTTGACCCTCCCCCGTTGGGGTGGAAGTCTCGAACTACACCAAGTGCTTATCTCACTGTTCGTCAGATATCTTTCCCCATTGAAGATCAAGTTGGTAGTAAGAACAGAGGCAGCCAAGCAGGATCACGGACGCGACAACTCCTATTCCTTCACCCTTCAGTGGAACTCCATAGTCTGGCTTGTGGATTGTTTTAAAACGTTCAGATTGCTCTTATTAGTTTCTTTGCCACCTAATTTCGTTTTGTTTTCTGAGATTAGGGGCCTATGAATTAAGGTTTTACTGGCAACTGCAGATAGAAAGTAAAGTTATTTTGTCCACCAAGTTATCTGTGGAGGGACCCCTGCGACTGAAAGAGGAATATATTGAAGGGATACTTGAAACACCTTCTGTTAGCGAACAAGCATTGCCAGAACAGCTAAAAGGCGCATTTAACCAGGCAGTCAACACAGTCCAGCAACTTCCAGTTCCTATCAAAGATGTCATTGCCGGTGGGCTAAAAGTTCCTCTAAGTACGATTTTTTTCATGATTTCTTCAATTTTATCAATTTAATGCTAATAGGTTGTTTAGAAAATTTGAAATATATTATAATTACTTTTTCGAAACGTGATTGAAATTGCGACTAGATGTTGTCCTCCTTTGCATTTCGGGAATTCTTCTTTCATTCACCTTTTATCCTTTAATGATTGTTTTTTGTTGACCACTTGACCTTCCTTTTCTAATTGTAGCTCAGTTCTTTGTATCTGCATTTGATGTACGCCCGGGAATACAGATCCTGTTTCCTTTTAGATTATTTTCAATTTTTCATTCATCCCTATTCCCTAATTATTTGATTGTTAATATTATATTTATTGTTTATTTCACGCATCTAATATAGAAAACTATTAAGATGTGTTAGACTAGTATTGATATTATTAAATTTATCCAATCTATCAGATTAACCTTTTGGGTTGATTGGTGATTTAAGATAGTATCAGAGCAAGAGGTCTTGTGTTTGAACCCCTATAAGGTCATTTCCTCCTCAATTAATATTGATTTTCCCTTGTTTGGTTTTTCTTCAAATTTCCAAACCCACAAGTGAGGGGGGAGTGTTAGACTAGTGTTGATATAATTAAATTTATCATAACCTATCAGTTTAAGCTTTTGAGTTGATTGGTGATTTTTAAGATAGACCTGATAAAAATATTACAACTCCAGGGGATGATAATTTGAATTTATGAGCTCTTAGATGACCTGTTGCTTGCTTTTATAGTTCTACTATTCCATCCATTTTGAACTCAATCGATGATTTTTAGTTTCAGTTCGAACTTTTGTAAAACTGATATAGTTTATATGCAATGTTCAAACAATTTTTATCACATCAATTGTATTTATGAAACTGACTACGTGATAAGAAAACAGCTAAAGATTCATTCATATAAAAGGTGAAGATCACTATAGAAAAGAAAGGTGAGGGAGATCGGGAATCTCCTCAGCATAAGCCCAGGACCTATGAGAATATCCTTCAAATTAACATTGATTAAGAAAGTAGAATAGCTATGAAAATCCTTGTAAAGCAATTTAAGTTCCGGTCATTAATATTATAGTTTGCCATTTTGGACTCTGCATAATAAGTGTGAAGTGATTTCATGGTCTTGGATGCTTGTCATCTGCGCTCTGCCAAAACCATTAATCATGGACCTTTGTGAAGGGAAGGCTCATCCCTCAGTTGAGGCAAAAGGATGGATGTTAAGCTTTATGTTTCGTTAGTGACAGTGGCACATCTGATCATTTATTGTATAACATTTGATGCAATTCCCCCATCCAGCATGTGCATATTGAATACTCAATAAATAATCTTAAAAGCAAACAAATATGAGCTCTGTTCTAATTGTTTCAACTTCATGCTAAAGCTCTTTACCATTATGCCTGCAGCTGGATCTTATCAGAGGCTCATGATGATTTCTTATCTTGACGAGGAAATTCTAGTAAGTACTTTTCTAATTGGATCAGAAATTTCTATCATTCATATGGTATGCTGGATTTAGAGAAAGAACAAAAGTCCCATTGATGTCAATAAAATGCATCCATCTACTAGGTTGATTTGATTTTGCTCCAAGATAGCCTTTACCATCTGTTTTATTGATTTGATTTAATTTCGACGTTTGAGTCAATATTTTTATTTAGTAAAACTATGAATCGTAGCTGTCTTTCGTACATGACAATGTCTTTCTGATAGGAAAGAAAAGCTTCACTTATTCTAGAAGGAATAGGAAGGAGAACATGCAAGGGTAAGAAGGGATTTTTGTAGGGGAATTTGACAGATTGCGTGAATATAAGTGGGAGATTGGGGGTGTGAATGTGTGTGACTTAATGTAAGATTCAACAGTTATTAGGTGGGAACTTAAACTGTAATTTAATTTGGGAAAAGAGGAAAAGATAGGCATACTGGTAGGAAGTTATGGGAAGAGACTCGGACATCTTGAAAGTCTAGAATTTTGGTTGTAATTCTCTCTTTAGGCATATAATCAAATTACTGGGAAGTGTGTTCTATCACCTTCTTCTCCACAGTGGTGCCATTGAAGGTTTTCAATATAGAGATTAGAACCATTGATCTGCAAAATTGCATGGTCTTGAACTTATGTAAATTTTCATTGAAATAGAGTGAAAATTAAAGTTTGTAAGTTTTAGGGGAAAAATACCGCACAATTGGTATCCTCAACATAAAACAGTAAGAACACAAAGCTCTCCCGAAACAGTTCAAACTACTTGTACAACAATATTTTGAACAGAAAAAAAGAAAAAAACTCCCCAAATATAATTAAAACCAGAAACAGAAAATCCCTCGAACTCCCAATCTAAAGATACCATAAAGAACCATTAGTTTTATCACAATCTAAAACCTCCCCCATATCTTTCCCACCACCCATTAAACAATCTATATCCTTTCTAACCATATGTTTCACAAAAAAGATCTTACAGCATTGATCACAGGTTACTTGCTTTTCCTTTGAAAGGATTTCCACATAACAATTGCTTCATGCTCTCTGATGATGAAAAACCCATCTCAAAACCAATTGGCCATGAGAGAAGTAGCCCATGTCTCTTATAAATTGTGAGGTCTCTTTACATTTTTCCAATATGGGATCCTCAACATGCCCCTCTAGATGGTGCCTTTTTTGGTTCGTCATTCTTGGATCGGATCCCAATTTCATTTTTTTGGACCGAATATCCATTTGGATTTTATGGGCTCTGATACTATATTAGATTACATGAGATTCCATCTCAAAACTAGTTGGCCATGAGACGAATAACTCATGTCTCTTATAAATTATGAGGTCTCTCTACATTTTTCCAATGTGCGATCCTCAACATAGTGCCACCAACTCCAGCTAAACATGTTGACCAAACGAAAACTTTGACCTCTTTTTGTTAAGTTTAACACAAACTTAACATCCAAAATCTTACTACCATCAGCCAATTTGTGAAATAGAGACCTCACCAAGGAGCAACACTTGATTCCAACAACCAAACGTTTTTGTCTGTACCTTTATCCCAACAGAACTAACCATTTCCAGCAACAACTACAGCTCGGCTTCCTTTTCTTGCTGTAAATTTCTTCTAGTTGTGTTAAACATTTTGCCTCTAAATCCCACAACTCACTGTTTTGACTTTATCTACCACCACATATTGTAAATTGTAATACAACATTGGAAACTTGATTGTTAAAAAACCATCATTTACCCACTTATCTTCCCAAAACTTGGTCATCATCCCATTCCCAACCTTTATTCTGTAAAATTTGAATATCACATCTTTTAATTTTACAATATTCCCTCAAGAACTTTTCTACTTCCCTCTCTTCTTCAACCTTCGACAAATCATTTCCCATTTCCCTTTCCATGCATACTGATATACTGTTAACCACTGAAAACCATTTTTTTTAACGAAACCTGTGTAATAATACAAAAGAAAAGGAAGACACAGCCTAAGGGTTGGAGAAGAGGGAACCCCCGGCTACCAAAAAAACTAAAAGAGTTTTCCAATTGTTCATGATCATGGAAAAACTATAATAACAAAAGGATTTTTTGTGATTAAAACAAGACCAAGAACTTTTTCAATATTTTAAGCCTTGTTTGATATCCATTTTGTTATCTATTTTTTACATGTATTTTTAAAAACTAAGCCAAGTTTTGAAAACTTGTTTTTCTTTTTGGAATTTGGCTAAAAATTCAAATGTTTCTTTAAGAAAGATGAAATCTATTGTAGAGAAATTGAAAGAAAACAAACTTAATTTTCAAAAACCAAATAGTTATCAAACTCTAATACCAACTATAATGACCCTTGAGAAACCGACAAACTATCAACCGACTAAGCTGAATAATGCCACTTATGCTCAAAATTTTGGCAACATAACGGCTTAAATTTAGCTAACTAAAAATTTAGGATTAAACTTTTTTGGACAAGACACTGAAAACCAAAATTGGTTGGTCATATTGAAAAAGCTGGAATAAGCATTCAACTTTTTGATTCTTAAAAAATTGAAATATGAAATTGCATTGAGATTTTGAAGAATATGAATAATTTACAAATGGTTTTGGATTGGTACAGATAATCAGAGATACTTCTGGGGTGCCTGAAGTTCTTACAAGGCTGGATTCTCCTCCATCTCCCCTGGAGCCAAACGCAACAGACTATGAAAGCTAGTGTGTGTGATCTTTCTTGATTGCACTTCCATTTTAATAAATCCCATTTATCTTTCATATTCTTTTGCCTTTTCATCCCATACACTTCCACTTTATGAATGCCATAGCAATTGACAAATTCTCTTGTCATTTCTGCCATAAAACTAATCCAAAAGGTGATTTTTTTAAAAAAAATCAGCAGAGAGACACACGTTCGCAATTCATTGGCCAAGACGAAACTCTCCGGTACGGGAACAATGCTTCAGATTTCTCTCCATCGAGCTCCGGCCCGTTTTCTTCACAATTTCCATCTCTCAATTGCTGTTGAAGCTCAAAGCAACCGTCTCCAATGGCGTCTCTACACGCTTCTCTCCCTTCAGTCTCTTCAATTCGCTCCCGTCGTTCACCGCTGGTTTCTCCCAACACCGTAGCTTCTTTGGTTTTTGACTCCGGGCTGCCGTCCACTGGCCGCAGCCGGAGACTTATCCGCAGACGGCTCTGTAGAGCTATGGTTCAGCAGGCCGCACAAGGAGCTCCGGCGATTTATGCCAAGGAGATGGAGAGACTCTCTGCTAAAGAATCGCTGCTGTTGGCTTTCAAAGATTCTGGAGGTTTTGAGGCTTTAGTTACTGGAAAAACAACGGATATGCAACGAATTGATGTGAATGAAAGGATAACTGGCCTTGAGCGTCTTAATCCAACTCCTCGACCAACAACGTCCCCTTTTCTGGAAGGTAGATGGAATTTTGAATGGTTTGGATCTGGAAGCCCAGGATTTGCTGCTACGTTAATATTTCAGGGATTTCCGTCAACTCTGGCTAATTTGTCAAAACTGGATGCTTTTATCAAAGATGGAACTGCTAGGATTACTGCTAATGTTAAGCTATTAAACGCGATAGAAAGTAAAGTTATTTTGTCCACCAAGTTATCTGTGGAGGGACCCCTGCGACTGAAAGAGGAATATATTGAAGGGATACTTGAAACACCTTCTGTTAGCGAACAAGCATTGCCAGAACAGCTAAAAGGCGCATTTAACCAGGCAGTCAACACAGTCCAGCAACTTCCAGTTCCTATCAAAGATGTCATTGCCGGTGGGCTAAAAGTTCCTCTAACTGGATCTTATCAGAGGCTCATGATGATTTCTTATCTTGACGAGGAAATTCTAATAATCAGAGATACTTCTGGGGTGCCTGAAGTTCTTACAAGGCTGGATTCTCCTCCATCTCCCCTGGAGCCAAACGCAACAGACTATGAAAGCTAGTGTGTGTGATCTTTCTTGATTGCACTTCCATTTTAATAAATCCCATTTATCTTTCATATTCTTTTGCCTTTTCATCCCATACACTTCCACTTTATGAATGCCATAGCAATTGACAAATTCTCTTGTCATTTCTGCCATAAAACTAATCCAAAAGGTG ATGGCGTCTCTACACGCTTCTCTCCCTTCAGTCTCTTCAATTCGCTCCCGTCGTTCACCGCTGGTTTCTCCCAACACCGTAGCTTCTTTGGTTTTTGACTCCGGGCTGCCGTCCACTGGCCGCAGCCGGAGACTTATCCGCAGACGGCTCTGTAGAGCTATGGTTCAGCAGGCCGCACAAGGAGCTCCGGCGATTTATGCCAAGGAGATGGAGAGACTCTCTGCTAAAGAATCGCTGCTGTTGGCTTTCAAAGATTCTGGAGGTTTTGAGGCTTTAGTTACTGGAAAAACAACGGATATGCAACGAATTGATGTGAATGAAAGGATAACTGGCCTTGAGCGTCTTAATCCAACTCCTCGACCAACAACGTCCCCTTTTCTGGAAGGTAGATGGAATTTTGAATGGTTTGGATCTGGAAGCCCAGGATTTGCTGCTACGTTAATATTTCAGGGATTTCCGTCAACTCTGGCTAATTTGTCAAAACTGGATGCTTTTATCAAAGATGGAACTGCTAGGATTACTGCTAATGTTAAGCTATTAAACGCGATAGAAAGTAAAGTTATTTTGTCCACCAAGTTATCTGTGGAGGGACCCCTGCGACTGAAAGAGGAATATATTGAAGGGATACTTGAAACACCTTCTGTTAGCGAACAAGCATTGCCAGAACAGCTAAAAGGCGCATTTAACCAGGCAGTCAACACAGTCCAGCAACTTCCAGTTCCTATCAAAGATGTCATTGCCGGTGGGCTAAAAGTTCCTCTAACTGGATCTTATCAGAGGCTCATGATGATTTCTTATCTTGACGAGGAAATTCTAATAATCAGAGATACTTCTGGGGTGCCTGAAGTTCTTACAAGGCTGGATTCTCCTCCATCTCCCCTGGAGCCAAACGCAACAGACTATGAAAGCTAG MASLHASLPSVSSIRSRRSPLVSPNTVASLVFDSGLPSTGRSRRLIRRRLCRAMVQQAAQGAPAIYAKEMERLSAKESLLLAFKDSGGFEALVTGKTTDMQRIDVNERITGLERLNPTPRPTTSPFLEGRWNFEWFGSGSPGFAATLIFQGFPSTLANLSKLDAFIKDGTARITANVKLLNAIESKVILSTKLSVEGPLRLKEEYIEGILETPSVSEQALPEQLKGAFNQAVNTVQQLPVPIKDVIAGGLKVPLTGSYQRLMMISYLDEEILIIRDTSGVPEVLTRLDSPPSPLEPNATDYES Homology
BLAST of Tan0009398 vs. ExPASy Swiss-Prot
Match: Q8S9M1 (Probable plastid-lipid-associated protein 13, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP13 PE=1 SV=2) HSP 1 Score: 374.4 bits (960), Expect = 1.2e-102 Identity = 194/294 (65.99%), Postives = 236/294 (80.27%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy Swiss-Prot
Match: Q9M2P7 (Probable plastid-lipid-associated protein 9, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP9 PE=1 SV=1) HSP 1 Score: 354.8 bits (909), Expect = 1.0e-96 Identity = 176/295 (59.66%), Postives = 231/295 (78.31%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy Swiss-Prot
Match: B2LU34 (Chromoplast-specific carotenoid-associated protein C1, chromoplastic OS=Oncidium hybrid cultivar OX=141207 GN=CHRC1 PE=2 SV=1) HSP 1 Score: 61.6 bits (148), Expect = 1.7e-08 Identity = 56/211 (26.54%), Postives = 94/211 (44.55%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy Swiss-Prot
Match: B4F6G1 (Chromoplast-specific carotenoid-associated protein C2, chromoplastic OS=Oncidium hybrid cultivar OX=141207 GN=CHRC2 PE=2 SV=1) HSP 1 Score: 58.2 bits (139), Expect = 1.9e-07 Identity = 54/211 (25.59%), Postives = 93/211 (44.08%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy Swiss-Prot
Match: O82291 (Probable plastid-lipid-associated protein 3, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PAP3 PE=1 SV=1) HSP 1 Score: 47.4 bits (111), Expect = 3.4e-04 Identity = 53/196 (27.04%), Postives = 86/196 (43.88%), Query Frame = 0
BLAST of Tan0009398 vs. NCBI nr
Match: XP_038904664.1 (probable plastid-lipid-associated protein 13, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 537.7 bits (1384), Expect = 6.3e-149 Identity = 281/303 (92.74%), Postives = 290/303 (95.71%), Query Frame = 0
BLAST of Tan0009398 vs. NCBI nr
Match: XP_022935588.1 (probable plastid-lipid-associated protein 13, chloroplastic [Cucurbita moschata]) HSP 1 Score: 534.3 bits (1375), Expect = 7.0e-148 Identity = 277/303 (91.42%), Postives = 288/303 (95.05%), Query Frame = 0
BLAST of Tan0009398 vs. NCBI nr
Match: KAG6580808.1 (putative plastid-lipid-associated protein 13, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 534.3 bits (1375), Expect = 7.0e-148 Identity = 277/303 (91.42%), Postives = 288/303 (95.05%), Query Frame = 0
BLAST of Tan0009398 vs. NCBI nr
Match: XP_022983043.1 (probable plastid-lipid-associated protein 13, chloroplastic isoform X1 [Cucurbita maxima]) HSP 1 Score: 532.3 bits (1370), Expect = 2.7e-147 Identity = 276/303 (91.09%), Postives = 288/303 (95.05%), Query Frame = 0
BLAST of Tan0009398 vs. NCBI nr
Match: XP_023529065.1 (probable plastid-lipid-associated protein 13, chloroplastic isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 532.3 bits (1370), Expect = 2.7e-147 Identity = 276/303 (91.09%), Postives = 287/303 (94.72%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy TrEMBL
Match: A0A6J1FAY5 (probable plastid-lipid-associated protein 13, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111442416 PE=3 SV=1) HSP 1 Score: 534.3 bits (1375), Expect = 3.4e-148 Identity = 277/303 (91.42%), Postives = 288/303 (95.05%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy TrEMBL
Match: A0A6J1J6M8 (probable plastid-lipid-associated protein 13, chloroplastic isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111481708 PE=3 SV=1) HSP 1 Score: 532.3 bits (1370), Expect = 1.3e-147 Identity = 276/303 (91.09%), Postives = 288/303 (95.05%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy TrEMBL
Match: A0A5D3DPE3 (Putative plastid-lipid-associated protein 13 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G005440 PE=3 SV=1) HSP 1 Score: 515.0 bits (1325), Expect = 2.1e-142 Identity = 270/303 (89.11%), Postives = 282/303 (93.07%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy TrEMBL
Match: A0A1S3B757 (probable plastid-lipid-associated protein 13, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103486767 PE=3 SV=1) HSP 1 Score: 515.0 bits (1325), Expect = 2.1e-142 Identity = 270/303 (89.11%), Postives = 282/303 (93.07%), Query Frame = 0
BLAST of Tan0009398 vs. ExPASy TrEMBL
Match: A0A5A7TKF1 (Putative plastid-lipid-associated protein 13 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold236G00590 PE=3 SV=1) HSP 1 Score: 512.7 bits (1319), Expect = 1.1e-141 Identity = 269/303 (88.78%), Postives = 281/303 (92.74%), Query Frame = 0
BLAST of Tan0009398 vs. TAIR 10
Match: AT2G42130.4 (Plastid-lipid associated protein PAP / fibrillin family protein ) HSP 1 Score: 374.4 bits (960), Expect = 8.6e-104 Identity = 194/294 (65.99%), Postives = 236/294 (80.27%), Query Frame = 0
BLAST of Tan0009398 vs. TAIR 10
Match: AT3G58010.1 (plastoglobulin 34kD ) HSP 1 Score: 354.8 bits (909), Expect = 7.1e-98 Identity = 176/295 (59.66%), Postives = 231/295 (78.31%), Query Frame = 0
BLAST of Tan0009398 vs. TAIR 10
Match: AT2G42130.3 (Plastid-lipid associated protein PAP / fibrillin family protein ) HSP 1 Score: 347.8 bits (891), Expect = 8.7e-96 Identity = 177/261 (67.82%), Postives = 210/261 (80.46%), Query Frame = 0
BLAST of Tan0009398 vs. TAIR 10
Match: AT2G42130.2 (Plastid-lipid associated protein PAP / fibrillin family protein ) HSP 1 Score: 344.7 bits (883), Expect = 7.3e-95 Identity = 180/274 (65.69%), Postives = 218/274 (79.56%), Query Frame = 0
BLAST of Tan0009398 vs. TAIR 10
Match: AT2G42130.1 (Plastid-lipid associated protein PAP / fibrillin family protein ) HSP 1 Score: 318.2 bits (814), Expect = 7.4e-87 Identity = 167/257 (64.98%), Postives = 203/257 (78.99%), 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:
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