Tan0003021 (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.AGCGCCTCCGCCTGCGGCTCGGTAAAAGCCCCTAAAACCCACAAAGCAAGAACACACTTCTTCCAAAGTTCTTCTCTGCTAAACCTCTGGAGTTTGCTTCAAAACCCTAAAAATGGAGGAAGAGGAAAAAGCTGGGCCTCCCAATAAGGATTTGTACGCTCTGCTCCACATTTCACCCGAAGCCTCCGACGAAGAAATCCGAAAAGCTTACCGCCAATGGGCCCAAGTCTATCACCCTGACAAATATCAATCTCCTCAAGTATTTCCCAATTCCCATTCACAATTCTCTTATCGTTAATCGATCATATGTTATTTAGATTTCAATTTTGTTTTCTCTGGGTTTCGGTTAAGTTTATGATTGTGATGTTTTTGTGTTATTTGCACTGCCGTGAACTTATTTGCGATCAGGGATAGTTGACTGAGCGCTATTCTGGGCTAATTGTGTTCAATAGTGAAGTGGAATGTGTTTGATTTAGCTGAGTGGCATTGTTTGTGGCTTTTTTATTCTTTTGGTTTCAATTCTTGAGTGGGGTTAGCCCTCTCGATTTTGTTTTTAAACTTTAATTGTGTAATTTCATATTCGGGATTAGTAATTCTATGAATATATTTTTTTAAAATTGCGAATAGGTAATGTGCATGATTTCAACATGGAATACCTTAGGAATTGTATTCAATCATTTTATAAGTCGTGCTCATGTATGTCAAAATATTTAGAAGAAGAATAAACCAGCAGAAACATATTTTAATTTTATTGAAGCATTATTTTACACTTAACAGATTTTTTTGGGGGTAATTGTTCCATCATTTGAATTTCTATGCTACCTGGACTAAAGCCAACTTATCTGTCATAAGATTTTTTTTTTTAATAATACGAATGATGTCTTGATGAACTTGTGAGTATCTATCATCTAATTTGAATCCTGTGGTTTATGATCCTTATGAGTCTTTCTCAGTGTTTTTCATGTTTGGTTCTTTAGATGAAAGATATTGCTACAGAGAACTTTCAACGAATCTGTGAAGCATACGAAATATTAACCGATGAGAATAAAAGACAAATATATGACATCTATGGTATGGAAGGATTGACTTCTGGTCTGGAACTTGGTCCAAAGCTGAATAAAGCAGACGAGATAAAGGAAGAACTTGAAAGGTTACGGAAAAGGAAGGAACAAGAAAAAATTTCAGCACATTTCAGACCTTCCGGTACCATACTGGCTAATATGTCTTTGCCACATTTTTTGAAGGGCGATGGCATCATGAGAGGGTAATGAAATCTTTCAATTCTATTCCCCCACCTTCCACTTCAATTTAAGAAAATCATGATATCGTTGCATTAGGTACAACACTATATCATTTTACCAGCATGCAATGAAGTAGTAGAAAGAGTCTCTGTGTTATTGGTTCTTTGAGAATTTCATAAGCTTAAATCTATATTACTAGTACTAACAATCTGAGGTTTCTGATTCGAAAATTGATATGTATTAATGAAGTTTGTCTAGTCTTACTGCTATTGTTATTCAGCTACTCATTTATTTATGTACCAAAATTTTAGAATGGCCATGACAAGTGAAGTACAGTCTCAAATTTCAAAAAGTAATACCGTTGGAATAGGAGGAAATTTGGCAGTCACTGGGAACGCTGGTGGTGGGGCTGCCTCTGCAGTGTTTCGTCATCAATTTTCTTCAGTTTCTTCTGTGGAATTTATGGCTTCAGCTGGTTTAAGATCACTTATTGGGATGCAAGCATCTCGGTGAGAAATTGCTTCTCCTAAATCCGTGACGACTTTAGGAAAATTTACTTGCTCTAACCCCACACTTACCGCTCTCTCTTTCTTTCCTAATTTGTTCAGTCATCTTACATTGCACTCAACGGCAACAATGGGTATTTCAATGTCATTAAAAGATGGATCATTGAATTTGTCCAATGCTTGGACTCGCCAACTTTCTGAAACAGCAAATGGAAATGTATGCCTTTTTCCCCCAATTAAATTATGTTCTATATTCTTGTATCAGATTGTTAATATCTGCTCAAATGGTGTCTGAAGGCATAACATTTGTTTATCATCTATACTTTTAGTGTCTTATCACTGGATCTACCGCTTGCATTGCTTCCTGATTAGTGATTGCTGTCTTCCCTTTTTTAGATACAACTTATTTTAGGCCCAGAGTCATCCGTTGCAGTAGGATGGCAGAAGAAAGAAGAGAAAAGGTCTGTTGCGGGAGAGGTGAAGGTATTTTTCTTTCTGCTGCTGATCATTAGTTATTCTGAAAGAAAGATTTTAAGGCATTGGAATAAGATGAGTATCAGATGTCTAATGATATATTCATATAGGCATCATAACAATGGCAGTCCTAGTACTAATGTTTGTTGTTCTTCGTGTCTGTCAAGTCTTCCTTGGTTTTGATCATGGCCTCGTACAAGTCACTACATTCATCGATCTCTCAATAGTATCATTTTTTTTCCTTTAAGACTACCACATGTGTTGACATGCAGTTTAGTACAAGTTCTTTTGGGGCATCAGCTCATTACACTCATCGTTTCTCTTCAAAATCTCATGGCCGCATTGCTGGGAGAGTTGGAAGGTAGGCTTGGAGGATTATGGTTAATTTTCCAATGTTACATCTTTCCTGATTGTTTCTGTCATCTTTACCTTTTTAAGTTGTTAATAATTAATAATATAGTTATTGTTACAAGATTCGAAGTTTAATTTATCTTGTTGATCAAGAAGCACATGAAACTAGTTTTGAGTGGACACAACTTTAACAGAACTGAAATTTTCTGGAAAATGCTATTTTAGTTGGTCTTTAGATAAATTGATAGGAAAGAACAGAGGAACCTTTCATGGTACCTCTAGAGATCTAAAGGATATATTTATTTTTGATTCATTTAAACTCATAACTTCAAGATGGTGTTTCCACTCCAAAGGCTTTTGTAATTACTCCCCTTCTTGGTTTATGCCAATTGGAGGAATTGTCTTGTAAGCTTCTTCACCCATTGATGGTTTTTTCTCTTTATTTTTTTTATGGGATGTGTGGTATACTAATGCTATAATGGGCCTAGTTCGAGTATTTGTGTTAATTTAATGATCCATGTTAGGTCGTGGAATGCCTCTTGGCATTTTTTTGTGACTTCAGTTGTTACTGTTGCAGCACCATGCTTGAGCTTGAACTTGGTGGTGGGAGGAAATTATCCAAATTCAGCACTATTCGGATGTTGTATTCAATTGGGATTCAGGTAGTTGGAGCTTCATGTGTGGAAAAATAAATTAACTGTTGTGCACTGATTCTTGAGTTTGTATGCCTCTTTACTAATGAAAACTGAAGAATTATTTAATCTTGTAGATGCAAGATTGGGCTTCTGATGTTTCATGAATGTTCTAATTTTTGTTTTCTTCATCCTTTGATGTGGGATCCATAAATTGGAAACACATTTCTTAAATTGTATAATTGATTCCAGATTTTGGTTTTGCTTGCTTCATTGTTTGTTTACGCGTTTTCATCTTTTTTTTGCTTTTCCAGGGCATCTTTTGGAAGTTTGAGTTGCATCGTGGAGGTCAAAAACTTATTATTCCAGTAAGTTTGATCTCCAATTTTCTCTTGTAACTAGATGCTTGAGGCTTGAGTCTGTGTGCCAACTTATTTATCCATTTTTTTTTCTCTAGTTGCATTGTGGAACAAATCATAAAACCTCTGTACTAATTACATTGTAAAAAATGTTTAGCTTTGATGGATGAATTATGAACTTGGTTTTCATGAATAAAATAGGAATACTTGAAGGACCTATTAAAGCTTTTTCCTTTGGATCCTTTGGTTGGAATTTTCTCTCTTTTTGATTTGATGGTTTAATGGAAACTATTTTATGTGAAGGCTCTTAGCTGGTGTAAATGTTTCTTTACCCCTTTTACAGATATAGTTTAGATGACCTTTTGTTGAATTGGAAAACCTTTTGTAATCCTGGGTTTGTTCGAGGTTTCATCCTTTTAGTATATTCAATCACATCAATGAATTATTTGTATCTCATTGGAAAAAAAAGACTTGAAGGGCCTATAGGGAATTAATAATGGCCCAGTATTTTTTCATAGTCATTGGCTGGCAACGAGCAAGGTTGTTAATTTTGCAGCCATAATTTTTGTGCTTTCTCTCTCCTTGCCCTGGTGTGTGCATGTACACAAATATTTATGATGCATTGACCTAGGAAAGGCTTGGGTTAAGCATTGTCTTTGAGAAAGAACAATTAGGGTGTGTTTGATTGGCGATTTGGAAACAAGGATTTGAAAACAAGGGATTTAATGAAAAGAAGGGGTGAATTTCGTGTTTTCACTCTTTTAGAATAAGGGCATGTTTGGGAGTAATTTTTGAAATGATCAAAATCATTTTTGTCATGTCATTTTTAGTTATTTTGGGCATAAAGTGATAAAAATCACTCTCAAACGTGCCCAGAGTGTTTGGTAGCTGATTTAGAATATGAAAACACTAAAACATATCAATGTTGTTTTAAAATTCACTTTCTAGATCATATAATCCAAATACAATCCAAAAACTATTTACAGAAATAAACCCGCCAAACCAAAATCTACTAAATCATTTGATTTAGTGAACCTGAAAACAAGAAATTGAATCTGGATAAAATACCAAATAGGTCCTTAATCACAATCTTGGTAACTTTTCAACTACCACATGTCATTTATGGATATTCAAACGGTTAATGTAATGGCGATTGGCAAAGTTTTGAAATTCTAAGCAAAATTGTGAAGTTAGACTTTTGTAGGTTTGGACAGCTTGTTCTCATCTTTTCCTTGAGGCTCGAGTGTTTATTTATTTTTCTTTAAAGTTTTAAAAGTAGTGATATTCCAATGATATAATATGTCTCTTGCTTGCTGTACACACACAATAGAATATATATATATAGTGCACTTAACAATCTTAAACTATTAAATGAATTTCTTCTGAGTCAAATTTTTGTTCGGTTTTTTAGCCTTTCTTTAGTTTATACCTCTTTGTTTATTATATCTTAATTTCTTTCTAATTTTCTATTTCATGCAGATTCTGATTTCCAGACATTTGAACCCTGTGTTTGCAGCTGGAGCATTCCTATTTCCCACTTCAGCATACTTTTTGCTCAAGGTTTTCTAAACCATTGAACGTTTGATCAATCTCTAAACTATCTATTAATGAATTGGTTTGTCATGTGTGCCATGTTGGAATTAGGAAAAGGGAGAAAAATCAGGCACACCCTAAAAAATTTTGAACAATAATTATTCAAACACATTTTAGGCGTTAGTACTCCGACAGGGCTGTAATTTTTTCCATTAGTTTCCTGACTAACTAATGTTTCATTTTATATCTTGAGATTTGTACCAAGGAATAAGTGGTGGTGAAGACCTTAGTTGATTATTACATCTATTCATTTTGTATCTAGAGATCTTTTCTATGAGAAGAGATGTAGTAATCAACTAAAAAGTTCTTCACCTCCACTTATTCCTGCAAAGTAAAAAAAAAATTACATCTTTTCTACAAAGTAATATTTGTTTGATGTGGTTAAATCTGCTCTGCCATGATTGCAGAAATTTTTGGTAAAACCTTATTACCAGAGAAGGGAAAAACAAAAGGCTTTAGAGAACATGCAAAAAACTTCTGCCCAGGTATCAATTTCTTGTACAATTTATGGAGCTTTGGCTGTACAGTCGGCCTGTTTCTTTTTAATATATTATTATTGTTATTATTATTATCATCATTTTGTCTCTAGCAAGATTTCATAAATTGAAAATTTTTCTGTACAAGTGGAAAAGACAGTTTAAGAGGTTGATCCTGTAGGTTGCATACATGAAAATATTAATCTTATTATTATTAATACTACTATTACTATAACTTCTATCATTTACTTTTAGATGGGTGGAGTTGGAGATATTCATAGGCTTGCTTTTGACGTTGAAATATTAATTTCTGCTGTTCTAGATCTTTTTCAGCAGCTTTGCCTCACATTACATAGTATTTCCCCCTTTTTTCTATGAATCACGTAGGTTTTTTGCAACCACCTTTTATCTCGATTCTCGAAGTACTTAAAACTTTTTCTTGGCGACTTCCATCTTTTATTTTTTTGATGTTAGAGTCCTTGTGATCCTATTAAGCATGTATATAAGAGGAAGAGCGCGTGAGCAATAGTCTGTTAGAAGTTAGTTTGGGTGGGACCGAGAGAATATAATTAGTTGTGGTTGTTATATAGTAGTGGGAAAGCGATCTTTTGGGTAATCATTGTGTGATAGACTGTATTGGGAGAATGGGGAAGCTCTCTAAATCTTCACTTGACACTATACCCTTATTGATAAATAAATTCCAGCTCTTATCACGTAGAGGGTTTAACATGAGTTATTTCTTAATGTAGGTGCGAGAAGCAAGAGCCGCAGCTGAGAAAGCTCAACAGCTGCTGCAAAATGTAGCCAACAGGAAAAGAAACAGGCAATCTGAAATTGGTGGACTTGTTATTACTAAAGCAATTTATGGAAATCAGAAGGCTTTGAAGAAAAGGGACGAATTAGGCGAACCAAATGATGAATCGTCTTTAAGCATCATAGATGTGACTTTGCCCCTAAATTTCTTGGTTAATGATTCTGGGCAGCTAAAGGTATTTTTGATGACTTCTTTATTTCCTGTGTTTTTCTAGCTACAAATAATACCGGTGTCATCTGGAAAATAATATTGGCACTTACGCACTGGCATTAGATTATTAATTAGTTATGAGGTTGCATGAGACCGGTAGAATTAGAAATCAAGCGGTGGTGCGGCCATGCCCTTTTAGTGTTTTGTGTGCAAGCAAGATGCTAGAATGAATCCATTTCCATGCAACAGACCCTTGATCAAAACAACTTCGACTTCTTGTTTTCCTGTTGATTGAGTCTAAAGTTGATGTGAATTAAGTCAAACTCAAATCAAAGACCAACAGCCTGAAAACTTAAATGTCAGTGAAGTACCTATTTAGAGGCTGAATGGTCGAAGAGGTAAGTACTCTTTAAATCTCCATTCAAGGGATCAAATTTGGATGGCCACTCGTTTCTTCAAATTTTACAAAATTTCTCATTCCATGTATTGTTGGATCAAGCAATAATAAATTTGTAGGCTTTAGCAAGGTGCTCGTTAGCTAGCCCTAAATTCGCTAGCCTATGTACACAGATATATACTTGGAACTCCATATTTCATTATGTCATTCTATCTATTTGATGCAGCTCCATGATGGGGTAAAGAAGTCGGGTATCATGGGCTTTTGCGACCCATGCCCTGGAGAACCAAAACAGTTGTATGTTGAGTATACCTATGGTGGCGAGACTTTTGAGGTACCTATAACCACCAACATGAGTTGTCCCAACTCTCAAACCAACACATCCGTAGTTTTATTTATTTTAGTTGTTTTAAGGTTGCTACTAATACAAAGTTTTTCTATGTAGGTGGTTGTGGATGATTATGAGGAGTTGCTAATACCAAGGCCATCGCAGCAAGTCTAATGCCAACGATAAGATTTTGCATGCCTGGTTACCCCCAGCAATTTTTCATTCTTCATCTGCTTGAGGTAATTCATTGATATAATTATCCCTTAAATTAGTCACATTCATTTTGTAATAATTTTGTATTTTAAAGGTTTCAAAGTAAGAGTTTTTTTCTCTACGTTGACAATTTTCTTCCAATGGTGAAATAAAAATCCATTTTTGTGAATGGACAAAGTCTATTCCATGACAGTTTAAAGGGGATGAGATGGAATGGGAATTGTATTTTAAGAGGGTTTCTCAAAGAATGAAAATTGGATACAAAAATCAATTTTATGGATCACACTTGAAGAGGGGTATTATCATTAGGATCCTGTTTCAATTTCACCAAATTAAACAATCCTACACTAGTTCAAGACAACATCTGGGTATTTGTCATATTCAACCCAATTAAAACATGTTGAAAACATGATGTCTCCTTACCACAATATTGCGAATCAGCTTTGTCTTTATGATTATCTATGAAATGCTAAAGCCGAGCTTTCACTCAGAAAAATGAAAGTACAAAATGGACTTGCGAAAGAAAAGTCCAACACAAAGGGAGTCAAAACAAAAACCTGTAGTACAGTTACAAAAAGATTGCAATTAATGAGAATAACATCTAAAAGGATAACTAAAAAAATTCTTAGAAATAGATTTCCTTGTAGAGAAATGTTGAGCCTAGCCAAATCTTTAGAAACAGATTCTCATGTAGAAACGTTGAACCTAACTAAAGACCAAAGCTAGAGGTCATTCAACACCTCTTAAAATTCTCACATTACTCCCAAGCTAAATATTTGGCAAAATGAAAATAAAACATATAGCAAATTAGCTCTTCCATTCGAAACCACGAGTTAAACAACACCACCTTCATCAAGCAACACTCTATAATGTATTGGTTTGGCATTTCAAAATGTGCTCTTTTAGAATAATCAGCTTTGCTTGGTTGTTACTTGCTATGTTGCCTATCACTAAGAGGACTTATTTTCAGCACAAGTTAGTATTTGAACTGCTTAAATATGTAAAAGCAACACAAAATTTAAGGGAACAGAACTAATCATTTCCCAGAAAATTTGCTAGAACCATTGAATCCTTCTTCATCCATAATAGGGTGAGTTCTATAGGCTTTCTGTGGGTTTCGGTGACGAATCCTTTTTGTAATTACTCTTTAGGTCTTGTTTAACTTAATTGGAGGCTATTTTTTAGCTTGACTCATTTTGTGGACTTTATTTTTTATTTCATTTTCTCTCCATAAAAGTTTGGTTATTCATAAAAGAAGAAGAAAAATAATAATGATAAGGTGAGGTGTTTTAGTGGATGCATTATCTTCAAGAACCTTCATTTGCATTTCTGGATTTTCAGTGATTTAAGGATTTTAAGTTAATTTCTGTTTCACAGAGAACATACAAGACTTCTAATGTTATCCTAAATGAAGATGTACCTGTTTCAACAAATATTTAGTTGGTTAAGTTTGAGATCTGATGCTAGCTAGAGCCTACAAGAATGTATGTTATTTTCTTGGATCAAAGAGGAGGTAGGTTGATTTTAAGGCTTTAAATCTTTCTATTATAGGACACTACCTTGCTCCAAAGTGCTTCTTGCAAATGTTAGAATTCTTACATGAAGGGAACTGAAAAGAAAAGCTGTATCTTGTTAGCTATGAGGTCTTCTACTTGGGAAG AGCGCCTCCGCCTGCGGCTCGGTAAAAGCCCCTAAAACCCACAAAGCAAGAACACACTTCTTCCAAAGTTCTTCTCTGCTAAACCTCTGGAGTTTGCTTCAAAACCCTAAAAATGGAGGAAGAGGAAAAAGCTGGGCCTCCCAATAAGGATTTGTACGCTCTGCTCCACATTTCACCCGAAGCCTCCGACGAAGAAATCCGAAAAGCTTACCGCCAATGGGCCCAAGTCTATCACCCTGACAAATATCAATCTCCTCAAATGAAAGATATTGCTACAGAGAACTTTCAACGAATCTGTGAAGCATACGAAATATTAACCGATGAGAATAAAAGACAAATATATGACATCTATGGTATGGAAGGATTGACTTCTGGTCTGGAACTTGGTCCAAAGCTGAATAAAGCAGACGAGATAAAGGAAGAACTTGAAAGGTTACGGAAAAGGAAGGAACAAGAAAAAATTTCAGCACATTTCAGACCTTCCGGTACCATACTGGCTAATATGTCTTTGCCACATTTTTTGAAGGGCGATGGCATCATGAGAGGAATGGCCATGACAAGTGAAGTACAGTCTCAAATTTCAAAAAGTAATACCGTTGGAATAGGAGGAAATTTGGCAGTCACTGGGAACGCTGGTGGTGGGGCTGCCTCTGCAGTGTTTCGTCATCAATTTTCTTCAGTTTCTTCTGTGGAATTTATGGCTTCAGCTGGTTTAAGATCACTTATTGGGATGCAAGCATCTCGTCATCTTACATTGCACTCAACGGCAACAATGGGTATTTCAATGTCATTAAAAGATGGATCATTGAATTTGTCCAATGCTTGGACTCGCCAACTTTCTGAAACAGCAAATGGAAATATACAACTTATTTTAGGCCCAGAGTCATCCGTTGCAGTAGGATGGCAGAAGAAAGAAGAGAAAAGGTCTGTTGCGGGAGAGGTGAAGTTTAGTACAAGTTCTTTTGGGGCATCAGCTCATTACACTCATCGTTTCTCTTCAAAATCTCATGGCCGCATTGCTGGGAGAGTTGGAAGCACCATGCTTGAGCTTGAACTTGGTGGTGGGAGGAAATTATCCAAATTCAGCACTATTCGGATGTTGTATTCAATTGGGATTCAGGGCATCTTTTGGAAGTTTGAGTTGCATCGTGGAGGTCAAAAACTTATTATTCCAATTCTGATTTCCAGACATTTGAACCCTGTGTTTGCAGCTGGAGCATTCCTATTTCCCACTTCAGCATACTTTTTGCTCAAGAAATTTTTGGTAAAACCTTATTACCAGAGAAGGGAAAAACAAAAGGCTTTAGAGAACATGCAAAAAACTTCTGCCCAGGTGCGAGAAGCAAGAGCCGCAGCTGAGAAAGCTCAACAGCTGCTGCAAAATGTAGCCAACAGGAAAAGAAACAGGCAATCTGAAATTGGTGGACTTGTTATTACTAAAGCAATTTATGGAAATCAGAAGGCTTTGAAGAAAAGGGACGAATTAGGCGAACCAAATGATGAATCGTCTTTAAGCATCATAGATGTGACTTTGCCCCTAAATTTCTTGGTTAATGATTCTGGGCAGCTAAAGCTCCATGATGGGGTAAAGAAGTCGGGTATCATGGGCTTTTGCGACCCATGCCCTGGAGAACCAAAACAGTTGTATGTTGAGTATACCTATGGTGGCGAGACTTTTGAGGTGGTTGTGGATGATTATGAGGAGTTGCTAATACCAAGGCCATCGCAGCAAGTCTAATGCCAACGATAAGATTTTGCATGCCTGGTTACCCCCAGCAATTTTTCATTCTTCATCTGCTTGAGAGAACATACAAGACTTCTAATGTTATCCTAAATGAAGATGTACCTGTTTCAACAAATATTTAGTTGGTTAAGTTTGAGATCTGATGCTAGCTAGAGCCTACAAGAATGTATGTTATTTTCTTGGATCAAAGAGGAGGTAGGTTGATTTTAAGGCTTTAAATCTTTCTATTATAGGACACTACCTTGCTCCAAAGTGCTTCTTGCAAATGTTAGAATTCTTACATGAAGGGAACTGAAAAGAAAAGCTGTATCTTGTTAGCTATGAGGTCTTCTACTTGGGAAG ATGGAGGAAGAGGAAAAAGCTGGGCCTCCCAATAAGGATTTGTACGCTCTGCTCCACATTTCACCCGAAGCCTCCGACGAAGAAATCCGAAAAGCTTACCGCCAATGGGCCCAAGTCTATCACCCTGACAAATATCAATCTCCTCAAATGAAAGATATTGCTACAGAGAACTTTCAACGAATCTGTGAAGCATACGAAATATTAACCGATGAGAATAAAAGACAAATATATGACATCTATGGTATGGAAGGATTGACTTCTGGTCTGGAACTTGGTCCAAAGCTGAATAAAGCAGACGAGATAAAGGAAGAACTTGAAAGGTTACGGAAAAGGAAGGAACAAGAAAAAATTTCAGCACATTTCAGACCTTCCGGTACCATACTGGCTAATATGTCTTTGCCACATTTTTTGAAGGGCGATGGCATCATGAGAGGAATGGCCATGACAAGTGAAGTACAGTCTCAAATTTCAAAAAGTAATACCGTTGGAATAGGAGGAAATTTGGCAGTCACTGGGAACGCTGGTGGTGGGGCTGCCTCTGCAGTGTTTCGTCATCAATTTTCTTCAGTTTCTTCTGTGGAATTTATGGCTTCAGCTGGTTTAAGATCACTTATTGGGATGCAAGCATCTCGTCATCTTACATTGCACTCAACGGCAACAATGGGTATTTCAATGTCATTAAAAGATGGATCATTGAATTTGTCCAATGCTTGGACTCGCCAACTTTCTGAAACAGCAAATGGAAATATACAACTTATTTTAGGCCCAGAGTCATCCGTTGCAGTAGGATGGCAGAAGAAAGAAGAGAAAAGGTCTGTTGCGGGAGAGGTGAAGTTTAGTACAAGTTCTTTTGGGGCATCAGCTCATTACACTCATCGTTTCTCTTCAAAATCTCATGGCCGCATTGCTGGGAGAGTTGGAAGCACCATGCTTGAGCTTGAACTTGGTGGTGGGAGGAAATTATCCAAATTCAGCACTATTCGGATGTTGTATTCAATTGGGATTCAGGGCATCTTTTGGAAGTTTGAGTTGCATCGTGGAGGTCAAAAACTTATTATTCCAATTCTGATTTCCAGACATTTGAACCCTGTGTTTGCAGCTGGAGCATTCCTATTTCCCACTTCAGCATACTTTTTGCTCAAGAAATTTTTGGTAAAACCTTATTACCAGAGAAGGGAAAAACAAAAGGCTTTAGAGAACATGCAAAAAACTTCTGCCCAGGTGCGAGAAGCAAGAGCCGCAGCTGAGAAAGCTCAACAGCTGCTGCAAAATGTAGCCAACAGGAAAAGAAACAGGCAATCTGAAATTGGTGGACTTGTTATTACTAAAGCAATTTATGGAAATCAGAAGGCTTTGAAGAAAAGGGACGAATTAGGCGAACCAAATGATGAATCGTCTTTAAGCATCATAGATGTGACTTTGCCCCTAAATTTCTTGGTTAATGATTCTGGGCAGCTAAAGCTCCATGATGGGGTAAAGAAGTCGGGTATCATGGGCTTTTGCGACCCATGCCCTGGAGAACCAAAACAGTTGTATGTTGAGTATACCTATGGTGGCGAGACTTTTGAGGTGGTTGTGGATGATTATGAGGAGTTGCTAATACCAAGGCCATCGCAGCAAGTCTAA MEEEEKAGPPNKDLYALLHISPEASDEEIRKAYRQWAQVYHPDKYQSPQMKDIATENFQRICEAYEILTDENKRQIYDIYGMEGLTSGLELGPKLNKADEIKEELERLRKRKEQEKISAHFRPSGTILANMSLPHFLKGDGIMRGMAMTSEVQSQISKSNTVGIGGNLAVTGNAGGGAASAVFRHQFSSVSSVEFMASAGLRSLIGMQASRHLTLHSTATMGISMSLKDGSLNLSNAWTRQLSETANGNIQLILGPESSVAVGWQKKEEKRSVAGEVKFSTSSFGASAHYTHRFSSKSHGRIAGRVGSTMLELELGGGRKLSKFSTIRMLYSIGIQGIFWKFELHRGGQKLIIPILISRHLNPVFAAGAFLFPTSAYFLLKKFLVKPYYQRREKQKALENMQKTSAQVREARAAAEKAQQLLQNVANRKRNRQSEIGGLVITKAIYGNQKALKKRDELGEPNDESSLSIIDVTLPLNFLVNDSGQLKLHDGVKKSGIMGFCDPCPGEPKQLYVEYTYGGETFEVVVDDYEELLIPRPSQQV Homology
BLAST of Tan0003021 vs. ExPASy Swiss-Prot
Match: Q39079 (Chaperone protein dnaJ 13 OS=Arabidopsis thaliana OX=3702 GN=ATJ13 PE=1 SV=2) HSP 1 Score: 742.3 bits (1915), Expect = 4.0e-213 Identity = 365/538 (67.84%), Postives = 448/538 (83.27%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy Swiss-Prot
Match: Q5RC70 (DnaJ homolog subfamily C member 11 OS=Pongo abelii OX=9601 GN=DNAJC11 PE=2 SV=1) HSP 1 Score: 211.5 bits (537), Expect = 2.4e-53 Identity = 164/554 (29.60%), Postives = 267/554 (48.19%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy Swiss-Prot
Match: Q9NVH1 (DnaJ homolog subfamily C member 11 OS=Homo sapiens OX=9606 GN=DNAJC11 PE=1 SV=2) HSP 1 Score: 210.3 bits (534), Expect = 5.4e-53 Identity = 163/554 (29.42%), Postives = 267/554 (48.19%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy Swiss-Prot
Match: Q2NL21 (DnaJ homolog subfamily C member 11 OS=Bos taurus OX=9913 GN=DNAJC11 PE=2 SV=1) HSP 1 Score: 209.5 bits (532), Expect = 9.3e-53 Identity = 165/557 (29.62%), Postives = 266/557 (47.76%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy Swiss-Prot
Match: Q5U458 (DnaJ homolog subfamily C member 11 OS=Mus musculus OX=10090 GN=Dnajc11 PE=1 SV=2) HSP 1 Score: 209.5 bits (532), Expect = 9.3e-53 Identity = 162/554 (29.24%), Postives = 266/554 (48.01%), Query Frame = 0
BLAST of Tan0003021 vs. NCBI nr
Match: XP_022946928.1 (chaperone protein dnaJ 13-like [Cucurbita moschata]) HSP 1 Score: 1025.8 bits (2651), Expect = 1.4e-295 Identity = 528/541 (97.60%), Postives = 534/541 (98.71%), Query Frame = 0
BLAST of Tan0003021 vs. NCBI nr
Match: XP_023540359.1 (chaperone protein dnaJ 13-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1025.0 bits (2649), Expect = 2.3e-295 Identity = 526/541 (97.23%), Postives = 534/541 (98.71%), Query Frame = 0
BLAST of Tan0003021 vs. NCBI nr
Match: KAG6596858.1 (Chaperone protein dnaJ 13, partial [Cucurbita argyrosperma subsp. sororia] >KAG7028386.1 Chaperone protein dnaJ 13 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1023.5 bits (2645), Expect = 6.8e-295 Identity = 527/541 (97.41%), Postives = 533/541 (98.52%), Query Frame = 0
BLAST of Tan0003021 vs. NCBI nr
Match: XP_023005370.1 (chaperone protein dnaJ 13-like [Cucurbita maxima]) HSP 1 Score: 1018.1 bits (2631), Expect = 2.9e-293 Identity = 526/541 (97.23%), Postives = 533/541 (98.52%), Query Frame = 0
BLAST of Tan0003021 vs. NCBI nr
Match: XP_022154039.1 (chaperone protein dnaJ 13 [Momordica charantia]) HSP 1 Score: 1016.1 bits (2626), Expect = 1.1e-292 Identity = 520/541 (96.12%), Postives = 532/541 (98.34%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy TrEMBL
Match: A0A6J1G556 (chaperone protein dnaJ 13-like OS=Cucurbita moschata OX=3662 GN=LOC111450885 PE=4 SV=1) HSP 1 Score: 1025.8 bits (2651), Expect = 6.6e-296 Identity = 528/541 (97.60%), Postives = 534/541 (98.71%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy TrEMBL
Match: A0A6J1KX77 (chaperone protein dnaJ 13-like OS=Cucurbita maxima OX=3661 GN=LOC111498384 PE=4 SV=1) HSP 1 Score: 1018.1 bits (2631), Expect = 1.4e-293 Identity = 526/541 (97.23%), Postives = 533/541 (98.52%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy TrEMBL
Match: A0A6J1DKV8 (chaperone protein dnaJ 13 OS=Momordica charantia OX=3673 GN=LOC111021393 PE=4 SV=1) HSP 1 Score: 1016.1 bits (2626), Expect = 5.3e-293 Identity = 520/541 (96.12%), Postives = 532/541 (98.34%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy TrEMBL
Match: A0A5D3CKT0 (Chaperone protein dnaJ 13 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1017G00290 PE=4 SV=1) HSP 1 Score: 1015.8 bits (2625), Expect = 6.9e-293 Identity = 519/539 (96.29%), Postives = 532/539 (98.70%), Query Frame = 0
BLAST of Tan0003021 vs. ExPASy TrEMBL
Match: A0A1S3BLK1 (chaperone protein dnaJ 13 OS=Cucumis melo OX=3656 GN=LOC103490887 PE=4 SV=1) HSP 1 Score: 1013.8 bits (2620), Expect = 2.6e-292 Identity = 518/539 (96.10%), Postives = 531/539 (98.52%), Query Frame = 0
BLAST of Tan0003021 vs. TAIR 10
Match: AT2G35720.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 742.3 bits (1915), Expect = 2.8e-214 Identity = 365/538 (67.84%), Postives = 448/538 (83.27%), Query Frame = 0
BLAST of Tan0003021 vs. TAIR 10
Match: AT3G47940.1 (DNAJ heat shock family protein ) HSP 1 Score: 80.1 bits (196), Expect = 6.0e-15 Identity = 36/76 (47.37%), Postives = 56/76 (73.68%), Query Frame = 0
BLAST of Tan0003021 vs. TAIR 10
Match: AT1G59725.1 (DNAJ heat shock family protein ) HSP 1 Score: 76.6 bits (187), Expect = 6.7e-14 Identity = 34/75 (45.33%), Postives = 55/75 (73.33%), Query Frame = 0
BLAST of Tan0003021 vs. TAIR 10
Match: AT3G08910.1 (DNAJ heat shock family protein ) HSP 1 Score: 75.1 bits (183), Expect = 1.9e-13 Identity = 36/75 (48.00%), Postives = 50/75 (66.67%), Query Frame = 0
BLAST of Tan0003021 vs. TAIR 10
Match: AT2G20560.1 (DNAJ heat shock family protein ) HSP 1 Score: 72.0 bits (175), Expect = 1.6e-12 Identity = 34/73 (46.58%), Postives = 49/73 (67.12%), 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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