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Tan0005305 (gene) Snake gourd v1
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.ATTTTCTTCTTTTCTTTCTCCCTCTCTTGTGTGACAGCCGCACAAACACCCACACGTTCGATCTTCTTCTTCTCCTTCGACCGCACACCGCACGCAACAGCGCGCGAGTAGTGATCGTTCTTCATCTACACGGCGTTTCCCGCGCAGCCCCAGCCTTGTTAGGTTTCTTATCCCTCTCATGAGACCCACACGCAACGCCCATCGTATTCTTCTTCTCCGGTGAGGCCACCACGTCGGCGAACCCCCACAGCAGCACCTGTGAGCACCAACTCGCGCGACGGCATATAGGTTTCGTCCAGCTTTCTCCCTCTTCACGACGACTTCTATCCTGTTTTGGTAAGATTCAACTCTAACCCACACTAAATCGACTTTAGTTTTGAGCTACCCACTCCCTACCCACACTAAAATCGACTTTAGTTTTGAGTTACCCACTCCCTAACGACTTCATTAAGCCTATTCGAACTAATTTCAGCATATAATCAAGTCTTTTTGGGTAAAATTCAGTGGGTTGGGGTGTTTTAAACCCCTTTTGAACTCTTGTAAATGGTTGTAAACTAGTTCATAATGCTTGGATATCATTTATTTGCAGCTTCAAACACTTTTGGCCGTTACTCACAACTCGAATAGCCTCTGAATAGTTTACTCATAGCTCGTAAAGGTTAGTTTGGTGTTTTCAAATTAACTCGAACACCAACCAGCAAGCATAGTTTCGGCATGGTTTAGAACCTTTCAAATTCGTTTAAAATACCTTAGTTTAGTTGCTAACCTTTGACACCTCCAATTTGTAGGTTTTAACTAATTCGAACTCGTTCAAACAGCTTTCCAACGAGGAATCAAGCTCGTATCGGTGAGTTTTGGTGAAAAATGAGTTTGGACCTTTTCGGCATCTTCTTAAATGCCTTAGCTTAATTCTAATATTTGAAAGTTCTCTGGTTTAGGATTTGAATTAGTTTCGGACTGTTCGAACCAAGCTCAAAGTTGTTTCAAGAACGTTAGCGGCTTGCTTTAGGAGCATATCAGGAAGTTTAGTAAGTAGAATTCTACTTGTGGTGTTTGCTTACTTGTGTGCTAGCATGCTGTGTGTTTAACCTTGTTATATTATGCTCGTGACTACTTCTCTTGAATCTATATATATATAATTTGAGTTGTTGTTTGAATTGCTTTGTGGATATTGAGCTTGTTGTGTCACCCTGTTGTGAATAGACACGTTGTGTTGTATTCTTGTGATAAGCATGTGTCTCGTTGAGATTGGTTTGTTATTGTGATTTTTATGCTTGATGTATTGTGAGCATTGATGACAGAAGCATGTCACATATGTTTTATGTGAGTTTAGACATGAACATAAGCTAGGAGCATGATGTGTAAAGTCTATGCATCCTAGCGAGCTTAGGTGAGGTTAGAAACCTTGAATGAGATAAAGGAAAGTTAGGTGAATGATAGTGCGTCTCGAATAAAAATGGTCGAGGAGTAGTATGTCACTAACGGATTAAGAGGAGCATTGATGCCTTGGTAACTATGGGCAAGGGTCGGTGTGATGCATCGTGAAGAAGTATTGGAACCTTGATAACTGTAGGCAAGGGACAATATGTTAATAGGTTGTTGATGCCTTGGTAACTATTGGCAAGGATCGATGATGATACCGAGACCTTGGTAACTATGGACAAGAGTCGGTATTATAAGTTTGGAGGCAACTATTGAAACCTTGGTAATTGTGGGCAAGGATCAATACGTTGTTGAGTCATCGATGCCTTGATAACTATGAGCAAGGATCAGTGCAGATTTCAAGACTTTGGTAACTATTGACAAGGAACTGTACGCCGAGCTCCGGAGAGATGTGTTGAGGCTTTGGTAACTGAGGGGTAAGGGTTGATGCATCTCGAAGGGTAAGTCTTGGGGGAACTTTATAAGGGCTAAGTTATGAACGTTGAGTGGTTCAGTGGAGTCTAGTGAGTTTGTGAAGTTTGAGTATAGTTTGAGTGTGCATAGCTTGATGTTGATTTCACGTATTGCACGTTTAGCTTGTTTTATGTATAAGGAGTATGTTTAGTTGAATGTGAGTAGCATGATGTTTGCCTCGTATGTTGTAGGTTGTTTGATGGCTCCTCAAGTGTGAGCTACTTACCAGTACGTGTTATGTACTAACCCACTCCCAGGTTTTGTAGGTAATGATGAGTACGACAACCTTGGTGATGCAGAAGAGGAGGCATGAGAAGAGAGACCATAGTTTGATAGTTATTTACTTAGTAGTGTTTTTGCTGAGTTTAGATTTATTAAGTTGTTTGTAGTAACTTTGGCTTGTGGTTTTGACACTGTTGTTCTTTACCTCTTTCGAGTAGACTTATAAACTGGTCGGATAGTTTTGATTTATAGTTTGAAATCAGTATAGGAGTTTGTTTTACGTTTTAAAGTTGATTTGTTTTGAGATTATTGAGAAAGTTTAGTTTTGTCTTGTTTCTGGTTTGTTGAGAATCTTCTGACTCTTTAAATGATTAGTGCTTTGGAGTTTGGATTGATTATCTGGTTGTGTTTTAGAAGTGTGTTTTTGTGTAAATGGGTAATTGTTAAAATTTTGGTATCGCCGTAGTTATGTCATTATGTTGTCGAAACTTTTGGGGTATAGTGGCCATAAGTTTAGTCAGTGTTATTGAGGCGCACACAGGCGCTCGCCCGAGGCGCAAGGCGAGGCGACTTGAAGGGATGGCGCCTCCAACTTCGGCGAGGCGGGCTGCTTCAACGAGGCGCGCGCCTTGATGCGCCCGTCGTCTCGCATCTCTCGTGTTGCGGCGATCGCCTGCGTGTTGAAGGCGTTTCAACCTTTTTTTTTATTTTTTTTTTAAACTTAACTTCATATACACGAAACCCTAAATGCCAGCCCACACATAAGCCCATAAACTCCATGCACCATGCATTTGACGCTTCGTAGGTTTTTTTTTTTAATGAAACGGTGAAAATAGCCACGACAACTTCTCTTCTCCTCTATCTATCGATCAACAAGTCTCCATCTCCCATTAGTTTCTTCTTCTTCATCGACCAAGTCTGAATATCAGGTTGCTCTTCCAGTATTCCTCCTATCGATCAAGTCTCCAATAGGTGTTGGTGCTGTTGGATGTTGGCTCTTGCTCTTCAAACTTCTTCATCGATTGCTCTTCTTCTTTCATCTGTTCTTTTCTTCATCAATTGCTTCTGCTGGTTGCTTGCTGCTACTTCTCCTCCTTCACTCCATTGTTTTGGCATTGGTTGGTATCTTGGTTGCTCCTGATTTTTCTTCTTTCTTTTTCTGTACTTTTCTTTTCTTAATCGATTGCTTTTTTTTTTCTTCTTTCTTCTTCTGTTCTTTTCTTTTCTTCATCGATTGATTTTGCTGGTGGCTCTTGCTCTTCAAACTTCTTCATCGATTGCATTGGTTGGTTGTTGCTGCTCCTGATTTTCCTTCTTTCTTCTTCATTGATCATTGATTGCTGATTGTTGCTTGCTAGTTGCTAGCTACTGCTTGGTGCTTCATAGTTCATAGTTCATTGGTTGTTTCTTCTCCATAGGGTAAGCAGAACATGGTCACTTCCTCACTAAGTCATTCATTCTTCTTCTATTCAACTTTAGCCTTGATTTGAACTAAATTCTTCTTCTTTAATTATCCTTCTTCTAAATTATAATAGGAATCAATCAATATGGGAGATGTTGAGACAAAAAGAAAGCATCCCACTTGGAAATATGTTGTTTTGGAGGATGAGAAGGACACAAATTCTTGCAAATGTACATTTTGTGGAAAAATCACAAAAGGTGGAATTTGTCGAGCAACTCATCATTTAGTTGGTGGGAATCGAAATGTCAAAGAATGTTTAAAGTGCCCAACTAATGTAAGAGAGGAATTGAAAGATTATCAAACAAAAACAAAAGCAAAGCGAGAAGAAAGTAATGCACTATCAAATTTTGAGGATTATGATTTGAATGAAATTGATGAAGAGGAAGCCATGAGTTCAAGTCATGGAACATCTAGAAAGCGAGCTCTTGGTAGTGGAGAAGGATCGAGTGGAAGTCGATCACAATTGAACTTGAAGCCACCACGACAAAAGGGAGGCATGGATAAATTTGTTTATCCCGATCCGACCAAAGTTGTTGATGATAGGAATAGAATGAAAAAGTTGAAGCAATCTAGCATTACAAAAAAATATAACAAGGAGGGAAGGGATACTACGATTCAATTCATCATGCGTTGGATTTATCAAGCAGGTATCCCGTTAAACACCATTCGCTTAAGAAGTTTTCATGTAATGTTAGAAGCAGTTGGTTAATTTGGTCTCGGTTTGAAGCCTCCTTCTTATCATGAGGCTAGAGTTACATGTTTGAAAAAGGAAGTAGAATTTACTAAAACAATAGTTAGTAATCATGAGGTTGAATGGAAAAAAAATGGATGTTCGTTGATGTCAGATGGGTGGACAGATAGAAGAGATAGAACTTGAATAAACTTTTTAGTTCATTCTCATACTGAACATTATTTTTGGAATCCATTGATGCATCTTCATGCATCAAAATGGGTGAAAAAGTATTTGAACTCTTGGATGGAATGGTAGAGAAGATTGGAGAAGAAAATGTCATCCAAGTTGTTACTGATAATGCCTCAAATTATGTCCTAGCTGGTAAAATATTTAGAAGCGAAACGACCACATTTATATTGGACACCATGTGTTGCTCATTGTTTAGATTTGATGTTAGAAGATATTGGAAAGATGGATCAAATCAAAAGGTGTATTAAAAAGGCCGTGGCACTTAGTGGTTTTATTTATAACCACTTGTATGTGCTAAACATGATGAGAGAATTCACCAATCAACATGAGTTGGTAAGATCTCACCACACTCGATTTGCAAAAGATCATTCTTGACACTATCGAGTATTCATAAAAATAAGGCGAATTTGAGAAAGATGTTCATCTCTGAGAAATGGACAACTTCTAAATGGGCAAAGGATCCAAAGGGTAAGAGAACAACTGACACTATCTTGATGCCATCGCTTTGGAACTCGGGCTGTCTATACGTTAAAGGCATCGGGCCACTAGTTCGTGTTCTTAGATTGGTTGATGGTGACAAACCAGCTATGGGGTACATATATGAGGCTATGGATCGAGCCAAGGAGGCTATCAAGAGCGGGTTTAATGATAATGAAGCAAAATATAAACCTATTTGGGATATCATTGATGTAAGATGGGATTGCCAACTTCATCGACCTTTACATGCAAATTTGGTTATTATTTAAATCCATCTCTTTTTATGATCACAAAGATAGAATTATTCAAGATGTAGAAGTTATGAGTGGTCTACTTCAAGTTGTGCAACGACTAATACCATCAAAGAATGACCAAAACCGATGCACTGGTGGAATTGGAGTTGTATTCGTAGCTAAAGGCATGTTTGGCATCGATTTAGCTATCAACACGAGGAAAATTAAGACGCCAGTAATATTATTCTTTAAATGTTTGGGTTTTAAACTAAAGTTATTCCAAGAGTTAATCCTAAACCATTTTAAATGTGTGACAATGTGAACAAAGATCATGGTGGGCTCTTTATGGGGTAGTACTCCAATTCTACAAAGGTTGGCCATGAGAGTTCTAAATCTCACATGTAGTGCTTCTGGTTGTGAACGCAATTGGAGTGTTTTTGAACACGTGAGTGGTTAATTTGTCTTCTACCTTTTAATTTAATATTTAAACATTACTTTTTAACTCTATATTCATTATTAATTTTGTAGATTCATTCAAGAAAAGAAACAAGTTAGAGCAGTAAGCGCTTTAAATGATTTGGTTTATATAAAATACAACCAAGCACTTAAAAGAACGCTTGATTTGAAGGATCAACTTGATCCAATTTCTCTTAATCATATTGATGATAGTAATGAATGGTTGGTTGGAATGCTTGAAGAAGAAGATAATGAACTTGAAGCTGATAATGAGTTGGTTTTTGATGATGACGACCTCACATGGGGTGATGTGGCAGATGCTAGTGGTGTTAGAGAACCTCTAAAGTACACTAGGTCTAAAGGGAAGTCAACTGTTGCAGCTTCATCTTCTAGAATTCGAACACCAACACCTACTATAAAGGCGGTTAGTGATGAAGATGATGACAATGAAGAGGAATTGGATCTTGAAGAGGAGAATGATCAGGAGTAGCAGGAGATAACGAGTTAGATTTAGATGGGGAGGAAAATTATGATTATGACATTTGATTGATATTTTAGACTTTTAAATTTAGAGTTTTATACTAGTTTTTCCTTTATTGTTGGTTCATTAATTCATTATTTCATAATTTTCATTCTTGATGACTTTAGACATTTGATTGATATATTAAGTTTTTAAGGTTTTTTCATTTTATATGATATTTACTATACAATTTATGGTGTATATATTATTTATTTATATATTTAATTATTGCGCCTCGCATCACCTGGGCCACGCCTTTTTGTCGCCTCTCGCCTTCGGGCTATCACAGGGCTTGTCGCCCTGAGGTGCGCCTTGCGCTTTGAAAACACTGAGTTTAGTAATGTTTTCCTAGAATAGGCTAACTTTGGGACGTTGCAGTTTATGTGATCCTTAGTTGAGTTGTTTTATGTTTTGTTCGGTTGAAAAATTCGTAATAGACTAGTTAGGTTGTTTTATCTTTTGAGGTCTGGTTCCTTGAAGTTATTGAGAGAGTTTTGTTTTGTTGTGATTTGAGTTGTTGAGTAGTTCTAAAATCCTTGATAGTTAATGGGTTGGAGTTGTAATGATAATTTGGTGATTCTAATTATAGAAGTGTGTTTTGTTGTCTAGCAGGTACTAGAAAAATTTTGGTTAAGTCATAGTTGCGTCGTTATGTTGTCGAAATTTTTGGGGCATAGTGGTCATAAGTTTAGTAATGTCCTTAAATTAAGTTTAAAATTTGGGGACATTACAGTTGGTATCAGAGCAGAGTTGTTTCTGTAGACTGACTTAGAAAAACTAGGTGGTTGTGTTAATGGTCCTTCTCATTCTCCTCTACATTACCAGGTATGTTGGCTTACTTTTGCTTTAATAGTTGACTTACTTGGATTGGTTGCTTGTGTGATTATCTTATGACTTACTTGTTGCTTACTATGATTATGTTTTGTCTTGCATACCTTGTCTGCTAGTAGGCATAGGATGTTGCCATAGTTGCTAGATAGCTTGTGCTTGGTCTTATGCATGTTGGTGGCTAGTAAGCTTAAATTCACCTTAGAATCAAGGGTAGTGCTTTGTTTTTAGTTGGTTAGTATGTTGGCTTCTAGACTCTTGCAAGTGAAACCAAAACCCTAAGGAATCGATAAATATAAAAGTGTGTTTTGTTGTCTAACTAACCGGTACTAGAAAAATTTTAGTTAAGTTATAGTTACGTTGTTATATTGTCGGAATTTTGGGGGCATAGTGGTCATAAGTTTAGTAATGTCCTTAAATTAAGTTTAAAATTTGGGGACATTACAGTTGGTATCAGAGCGGAGTTGTTCCTGTAGACTGACTTAGAAAAACTAGGTTCTTAAGATAGTTTGGTGCTAATGGTCCTTCTCATTCTCTCCATCACCAGGTATGTTGGCTTACTTTTGCTTTAATTGTTGACTTACTTGGATTGGCTGGTTTGTCTTGCATATTGGTTGAAGCTTGCTTACTATGATAATGTTCTAATTGAGCCCTATTTGACTATACTCCAGCACAGGCACACCATCGCCCTTTTCTTTCTTCTCCCCTAAACTCTCTCTTTGACTTTTGGCAGCAATGGCGGGAGGCAAGATGAAAAGGGAGAAGCCAAAGGCATCGGTGAAGAGTACACCGTATCAAGGTGGGATTTCATTCCATAAATCCAAGGGTCAACATATTCTTAAGAATCCCTTGTTGGTCGACTCTATTGTTCAAAAATCTGGAATTCAGAGCACCGATGTGATCCTCGAAATCGGTCCCGGTACTGGTAATCTCACCAAGAAGCTTCTAGAATGTGGTAAGATGGTTATTGCAGTCGAGCTTGATCCTCGTATGGTTCTCGAGTTGCAGAGGCGGTTTCAGGACACTCCCTATTCTTCTCGCTTGAAGGTGGGTGTTCCTTTCCTTCAATGTTTTAGGGTTTTTTAGCAATTGGGTTACCGATAATTAAAGTTCATTACTTCTTTTTGTGTTTTTATCCATATGCTTTTTATCAATTGGGATTTGTTTGTTGAAGATTCTGCTCATTGCTATTCTGGTTATCACACTCCTTTTATTAGAAGCAAAATAATCTCATTTAACCTTTCCCTTTTGTAGTAGGCAAAATAATGGGGGAGGGAGGATTATCTTTATCTTCTTCAGCTAGTTTTCCTTAACTATTACTTTCTGAACTACAGAAAAAAGTCCCTCCCATAATCTATCAACTTTCTGAGATAGCCCATTTGATTGGTTATTTCCCATCAAATTTATCTTAACAACTGTTTGAATGAATCAAGAGTGTTCTGTATTAAGAGATGTGTGTTTGTGCTGGTTAAGAAGTGAATCTATGTTGGGTTTCTTTCTTGATTCTTAATTTGAATTTCTCTAATAATTGACTACTTTAACTTGACGCACTCAGGTTATTCAAGGAGATGTACTCAAGACTGAGCTTCCCTATTTTGATATATGTGTAGCAAATATTCCTTATCAAATATCATCTCCTCTCACATTCAAGTTGCTAAATCATCAACCGTCTTTTCGATGCGCGATCATAATGTTCCAGAGGGAATTTGCAATGAGGCTAGTTGCACAACCTGGGGACAAACTCTACTGCCGTTTGACTGTAAACACCCAACTCCTAGCTCGAGTATCTCACCTCCTCAAAGTTGGGAAGAACAATTTTCGTCCTCCACCAAAGGTGGACTCGTCTGTAGTTCGAATTGAGCCGAGGAAACCGCGCATTGAAGTGAAGCAAAAGGAGTGGGATGGATTTTTGAGAATCTGTTTCAATAGAAAGAACAAAACTCTTGGTTCAATTTTTAGGCAGAAGAGTGTTCTTTCTTTGTTAGAGAAGAACTACAAAACATTGTGTGCACTTAATCTCCCTCAGCAAGGTTCTGCAGATAAGGATGATGGTGGTTTTGATTATTCGAGATTTGACGATTCAAATGAGAATCAAACCATGGAAGTAGAAGACGATGGAGCTGACGAGGAGATGGATATGGACGATAGCGAAGCAGATGGTGGGGAAGGGGAGGCTTCTGAATTTAAGGATAAGGTCTTGTGTGTTTTGAAGGAGGGAGATTTTGAAGAAAAAAGGTCGTCTAAACTCACCTTACAGGAGTTCTTATATCTTCTCTCATTGTTCAACAAAGCTGGCATACATTTTTCTTGATTTTGATATGTTCTTCCTCCCAATACTCAATTTTGTCTTTCTCCTCTGTTGTGTTCTATTGTGTCTGGTTTCCTTTTTCTTCCCCTAAAGTAGTAAAATTATATCCAATTTTGTTCTTTTTTTTCCTGGTTCTCTATGACTTGCAATTGAAATGTCATTCTTATCTTTTTATTGTACTAATCGAATTACGCAATCTTTATGCCTAAATGTTTCTCGTGGATCATTTATACCTTAATTTTCTTTTAAGAATATTATGTTATAAACTACGATGGGTTGACGTAGTGGTTATTATGGGAG ATTTTCTTCTTTTCTTTCTCCCTCTCTTGTGTGACAGCCGCACAAACACCCACACGTTCGATCTTCTTCTTCTCCTTCGACCGCACACCGCACGCAACAGCGCGCGAGTAGTGATCGTTCTTCATCTACACGGCGTTTCCCGCGCAGCCCCAGCCTTGTTAGGTTTCTTATCCCTCTCATGAGACCCACACGCAACGCCCATCGTATTCTTCTTCTCCGGTGAGGCCACCACGTCGGCGAACCCCCACAGCAGCACCTGTGAGCACCAACTCGCGCGACGGCATATAGGTTTCGTCCAGCTTTCTCCCTCTTCACGACGACTTCTATCCTGTTTTGCTTCAAACACTTTTGGCCGTTACTCACAACTCGAATAGCCTCTGAATAGTTTACTCATAGCTCGTAAAGGTTTTAACTAATTCGAACTCGTTCAAACAGCTTTCCAACGAGGAATCAAGCTCGTATCGGATTTGAATTAGTTTCGGACTGTTCGAACCAAGCTCAAAGTTGTTTCAAGAACGTTAGCGGCTTGCTTTAGGAGCATATCAGGAAGTTTACAATGGCGGGAGGCAAGATGAAAAGGGAGAAGCCAAAGGCATCGGTGAAGAGTACACCGTATCAAGGTGGGATTTCATTCCATAAATCCAAGGGTCAACATATTCTTAAGAATCCCTTGTTGGTCGACTCTATTGTTCAAAAATCTGGAATTCAGAGCACCGATGTGATCCTCGAAATCGGTCCCGGTACTGGTAATCTCACCAAGAAGCTTCTAGAATGTGGTAAGATGGTTATTGCAGTCGAGCTTGATCCTCGTATGGTTCTCGAGTTGCAGAGGCGGTTTCAGGACACTCCCTATTCTTCTCGCTTGAAGGTTATTCAAGGAGATGTACTCAAGACTGAGCTTCCCTATTTTGATATATGTGTAGCAAATATTCCTTATCAAATATCATCTCCTCTCACATTCAAGTTGCTAAATCATCAACCGTCTTTTCGATGCGCGATCATAATGTTCCAGAGGGAATTTGCAATGAGGCTAGTTGCACAACCTGGGGACAAACTCTACTGCCGTTTGACTGTAAACACCCAACTCCTAGCTCGAGTATCTCACCTCCTCAAAGTTGGGAAGAACAATTTTCGTCCTCCACCAAAGGTGGACTCGTCTGTAGTTCGAATTGAGCCGAGGAAACCGCGCATTGAAGTGAAGCAAAAGGAGTGGGATGGATTTTTGAGAATCTGTTTCAATAGAAAGAACAAAACTCTTGGTTCAATTTTTAGGCAGAAGAGTGTTCTTTCTTTGTTAGAGAAGAACTACAAAACATTGTGTGCACTTAATCTCCCTCAGCAAGGTTCTGCAGATAAGGATGATGGTGGTTTTGATTATTCGAGATTTGACGATTCAAATGAGAATCAAACCATGGAAGTAGAAGACGATGGAGCTGACGAGGAGATGGATATGGACGATAGCGAAGCAGATGGTGGGGAAGGGGAGGCTTCTGAATTTAAGGATAAGGTCTTGTGTGTTTTGAAGGAGGGAGATTTTGAAGAAAAAAGGTCGTCTAAACTCACCTTACAGGAGTTCTTATATCTTCTCTCATTGTTCAACAAAGCTGGCATACATTTTTCTTGATTTTGATATGTTCTTCCTCCCAATACTCAATTTTGTCTTTCTCCTCTGTTGTGTTCTATTGTGTCTGGTTTCCTTTTTCTTCCCCTAAAGTAGTAAAATTATATCCAATTTTGTTCTTTTTTTTCCTGGTTCTCTATGACTTGCAATTGAAATGTCATTCTTATCTTTTTATTGTACTAATCGAATTACGCAATCTTTATGCCTAAATGTTTCTCGTGGATCATTTATACCTTAATTTTCTTTTAAGAATATTATGTTATAAACTACGATGGGTTGACGTAGTGGTTATTATGGGAG ATGGCGGGAGGCAAGATGAAAAGGGAGAAGCCAAAGGCATCGGTGAAGAGTACACCGTATCAAGGTGGGATTTCATTCCATAAATCCAAGGGTCAACATATTCTTAAGAATCCCTTGTTGGTCGACTCTATTGTTCAAAAATCTGGAATTCAGAGCACCGATGTGATCCTCGAAATCGGTCCCGGTACTGGTAATCTCACCAAGAAGCTTCTAGAATGTGGTAAGATGGTTATTGCAGTCGAGCTTGATCCTCGTATGGTTCTCGAGTTGCAGAGGCGGTTTCAGGACACTCCCTATTCTTCTCGCTTGAAGGTTATTCAAGGAGATGTACTCAAGACTGAGCTTCCCTATTTTGATATATGTGTAGCAAATATTCCTTATCAAATATCATCTCCTCTCACATTCAAGTTGCTAAATCATCAACCGTCTTTTCGATGCGCGATCATAATGTTCCAGAGGGAATTTGCAATGAGGCTAGTTGCACAACCTGGGGACAAACTCTACTGCCGTTTGACTGTAAACACCCAACTCCTAGCTCGAGTATCTCACCTCCTCAAAGTTGGGAAGAACAATTTTCGTCCTCCACCAAAGGTGGACTCGTCTGTAGTTCGAATTGAGCCGAGGAAACCGCGCATTGAAGTGAAGCAAAAGGAGTGGGATGGATTTTTGAGAATCTGTTTCAATAGAAAGAACAAAACTCTTGGTTCAATTTTTAGGCAGAAGAGTGTTCTTTCTTTGTTAGAGAAGAACTACAAAACATTGTGTGCACTTAATCTCCCTCAGCAAGGTTCTGCAGATAAGGATGATGGTGGTTTTGATTATTCGAGATTTGACGATTCAAATGAGAATCAAACCATGGAAGTAGAAGACGATGGAGCTGACGAGGAGATGGATATGGACGATAGCGAAGCAGATGGTGGGGAAGGGGAGGCTTCTGAATTTAAGGATAAGGTCTTGTGTGTTTTGAAGGAGGGAGATTTTGAAGAAAAAAGGTCGTCTAAACTCACCTTACAGGAGTTCTTATATCTTCTCTCATTGTTCAACAAAGCTGGCATACATTTTTCTTGA MAGGKMKREKPKASVKSTPYQGGISFHKSKGQHILKNPLLVDSIVQKSGIQSTDVILEIGPGTGNLTKKLLECGKMVIAVELDPRMVLELQRRFQDTPYSSRLKVIQGDVLKTELPYFDICVANIPYQISSPLTFKLLNHQPSFRCAIIMFQREFAMRLVAQPGDKLYCRLTVNTQLLARVSHLLKVGKNNFRPPPKVDSSVVRIEPRKPRIEVKQKEWDGFLRICFNRKNKTLGSIFRQKSVLSLLEKNYKTLCALNLPQQGSADKDDGGFDYSRFDDSNENQTMEVEDDGADEEMDMDDSEADGGEGEASEFKDKVLCVLKEGDFEEKRSSKLTLQEFLYLLSLFNKAGIHFS Homology
BLAST of Tan0005305 vs. ExPASy Swiss-Prot
Match: O22268 (Ribosomal RNA small subunit methyltransferase OS=Arabidopsis thaliana OX=3702 GN=DIM1A PE=1 SV=1) HSP 1 Score: 510.4 bits (1313), Expect = 1.7e-143 Identity = 276/362 (76.24%), Postives = 304/362 (83.98%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy Swiss-Prot
Match: Q54QK7 (Probable dimethyladenosine transferase OS=Dictyostelium discoideum OX=44689 GN=dimt1 PE=3 SV=1) HSP 1 Score: 345.1 bits (884), Expect = 9.3e-94 Identity = 180/352 (51.14%), Postives = 237/352 (67.33%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy Swiss-Prot
Match: Q2KHT8 (Probable dimethyladenosine transferase OS=Bos taurus OX=9913 GN=DIMT1 PE=2 SV=1) HSP 1 Score: 342.4 bits (877), Expect = 6.0e-93 Identity = 178/357 (49.86%), Postives = 236/357 (66.11%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy Swiss-Prot
Match: Q9UNQ2 (Probable dimethyladenosine transferase OS=Homo sapiens OX=9606 GN=DIMT1 PE=1 SV=1) HSP 1 Score: 342.4 bits (877), Expect = 6.0e-93 Identity = 178/356 (50.00%), Postives = 235/356 (66.01%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy Swiss-Prot
Match: Q95KJ0 (Probable dimethyladenosine transferase OS=Macaca fascicularis OX=9541 GN=DIMT1 PE=2 SV=1) HSP 1 Score: 340.5 bits (872), Expect = 2.3e-92 Identity = 177/356 (49.72%), Postives = 235/356 (66.01%), Query Frame = 0
BLAST of Tan0005305 vs. NCBI nr
Match: XP_023525787.1 (ribosomal RNA small subunit methyltransferase [Cucurbita pepo subsp. pepo]) HSP 1 Score: 669.5 bits (1726), Expect = 1.6e-188 Identity = 337/355 (94.93%), Postives = 349/355 (98.31%), Query Frame = 0
BLAST of Tan0005305 vs. NCBI nr
Match: XP_022155324.1 (ribosomal RNA small subunit methyltransferase [Momordica charantia]) HSP 1 Score: 669.1 bits (1725), Expect = 2.1e-188 Identity = 339/355 (95.49%), Postives = 349/355 (98.31%), Query Frame = 0
BLAST of Tan0005305 vs. NCBI nr
Match: XP_022998306.1 (ribosomal RNA small subunit methyltransferase [Cucurbita maxima]) HSP 1 Score: 668.3 bits (1723), Expect = 3.6e-188 Identity = 337/355 (94.93%), Postives = 349/355 (98.31%), Query Frame = 0
BLAST of Tan0005305 vs. NCBI nr
Match: KAG6606941.1 (Ribosomal RNA small subunit methyltransferase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 666.0 bits (1717), Expect = 1.8e-187 Identity = 335/355 (94.37%), Postives = 348/355 (98.03%), Query Frame = 0
BLAST of Tan0005305 vs. NCBI nr
Match: XP_022949401.1 (ribosomal RNA small subunit methyltransferase [Cucurbita moschata]) HSP 1 Score: 664.8 bits (1714), Expect = 4.0e-187 Identity = 334/355 (94.08%), Postives = 348/355 (98.03%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy TrEMBL
Match: A0A6J1DPX6 (rRNA adenine N(6)-methyltransferase OS=Momordica charantia OX=3673 GN=LOC111022457 PE=3 SV=1) HSP 1 Score: 669.1 bits (1725), Expect = 1.0e-188 Identity = 339/355 (95.49%), Postives = 349/355 (98.31%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy TrEMBL
Match: A0A6J1K9W6 (rRNA adenine N(6)-methyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111492981 PE=3 SV=1) HSP 1 Score: 668.3 bits (1723), Expect = 1.8e-188 Identity = 337/355 (94.93%), Postives = 349/355 (98.31%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy TrEMBL
Match: A0A6J1GBX4 (rRNA adenine N(6)-methyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111452763 PE=3 SV=1) HSP 1 Score: 664.8 bits (1714), Expect = 1.9e-187 Identity = 334/355 (94.08%), Postives = 348/355 (98.03%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy TrEMBL
Match: A0A5A7T0N9 (rRNA adenine N(6)-methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1228G00080 PE=3 SV=1) HSP 1 Score: 625.2 bits (1611), Expect = 1.7e-175 Identity = 323/356 (90.73%), Postives = 338/356 (94.94%), Query Frame = 0
BLAST of Tan0005305 vs. ExPASy TrEMBL
Match: A0A1S3B8X1 (rRNA adenine N(6)-methyltransferase OS=Cucumis melo OX=3656 GN=LOC103487290 PE=3 SV=1) HSP 1 Score: 625.2 bits (1611), Expect = 1.7e-175 Identity = 323/356 (90.73%), Postives = 338/356 (94.94%), Query Frame = 0
BLAST of Tan0005305 vs. TAIR 10
Match: AT2G47420.1 (Ribosomal RNA adenine dimethylase family protein ) HSP 1 Score: 510.4 bits (1313), Expect = 1.2e-144 Identity = 276/362 (76.24%), Postives = 304/362 (83.98%), Query Frame = 0
BLAST of Tan0005305 vs. TAIR 10
Match: AT5G66360.2 (Ribosomal RNA adenine dimethylase family protein ) HSP 1 Score: 276.9 bits (707), Expect = 2.2e-74 Identity = 157/332 (47.29%), Postives = 216/332 (65.06%), Query Frame = 0
BLAST of Tan0005305 vs. TAIR 10
Match: AT5G66360.1 (Ribosomal RNA adenine dimethylase family protein ) HSP 1 Score: 232.6 bits (592), Expect = 4.8e-61 Identity = 142/332 (42.77%), Postives = 197/332 (59.34%), Query Frame = 0
BLAST of Tan0005305 vs. TAIR 10
Match: AT1G01860.1 (Ribosomal RNA adenine dimethylase family protein ) HSP 1 Score: 96.3 bits (238), Expect = 5.3e-20 Identity = 77/268 (28.73%), Postives = 124/268 (46.27%), 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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