RNA

Accession Number TCMCG081R31027
RNA Id XM_019216569.1
Length 3289bp
Gene LOC109121680
GeneID 109121680
Topology linear
Data_file_division PLN
Organism Vitis vinifera
Definition PREDICTED: Vitis vinifera probable methyltransferase PMT28 (LOC109121680), mRNA
dblink BioProject:PRJNA33471
Molecule type mRNA

Sequence:   ATGTAAAAAACATTCTTAATTACATCGACCCACACTCACGCATGACTGATTGATCCTTTTTCCTGCCAAAACTATTTTTCCGGTAAAGCAAACGGGCGAAGTGGAAGAAAATCTGACGACCGATACAAATTCTGTTTATTTCTTACATATGTGGAGCTGATTGCGTATTGGGTGGAGCAGCACATGTCATGCTCGACCTCTTTCAAATCGCACTCATCACATTGCTCCTTGAATAACCCCTCCTCTGTCTCCAATTTCGTCTCACTCTTGAGTCAAAAGTAACGAAAGAAAAGCCATGCCATAGAATGCGATATTTATGGTAGCTAAACTGTGTGAATCTTTTTCGTTTTCCGTTGTAAAATTTTATTGTTATCACAACAAACAAGGCTGCTGAATCCATTTCTTTCTTATTTTGCCATTCATTTTGTATTTTTTTTTTCTCAAAAAAAAGTTGAATTAGGTAGATGATAGCTATACTATACTATACCAGTTCCAAAAACCAAGTGCTCGACTGAAGCTCTAGTTTTGTGAGTTTACCAATCTGGGCACCTGAAATTTCCTTAATATCGAAGGGAAGCTTGATGGGTTTTTCTTTACTTAGCTGCAAATGATTGTTTATTCTCGATTCAGTGGAAAATTTGTATAGATCTTATCGTCTGATTGGCGGTAGTCAACTATTTCAATTTTTTTTTTTATAATTCAATTTTTGTAGTCAATTGGTGGGTTCTTTTTTGGGTTTCCCATCTTTTCCTATGTAATGGTGTTCTCTTCTCTACTTGATTTAATCCTGTCTTAAAGAGACCACTGGAGTCTTTGGGAGATGGCTCTGGCTCGGTTTGGTCGCCAAGCGAAACGCCCATATGGGGTGTGCGTGAAGATGACGGCGGTGGCCGTCTTGGGAATGTGTTTTATATTCGTTTGGTCTATGTTCTCGGCTTCTCCTTCTGCCGTGACCTCTCAAAGGAGTAGCTTCGGCGACATCAATGAGCCCGTCCCCGGTAGCACGGGGGTGGGCAGTTCACGGACTGGGTTGAAGAAGAACGAACCTGAAAAAACTGAATTGAGTGGAGGAAGAAACAAGGTGAAATTTGAATCTGATTTGGAAGAGAAAGATGAGAAAAAGCTTGATGGGTCTGTGACTTTGGCAGCCAATGGGAACAACTCTACAAATATTGATAAAAAGGAAGAAGCCAATGAGGGAAAAGAGGGGATAGATAAACAGAATCATGGATCAGAGGGATCTGAGAATAAGGAGTCCGAGAAAGAAAAGGAAGAAGGAGAAGTGGGAGGAGATGATAAAGAAGAAGCTGTAGATCGTGAGGGTGAAGCTAATGAGGATGTGGACGCAGACGGTGATTGGGCTGTTACAGTGGAGGAGGAACCTGTGGGGAAGGTGGAAGAGGAGAGTGGTGGGTCGAAGAGTACAGGGAAGAAGAAAAAGAGAAATGGTCCATTGTTTGATTTAAAGGCACAATATACCTGGAAATTATGTAGCACAAGGAGCAAGCACAATTACATTCCTTGTATTGACAATGAAAGTGGCACTGGAAGACTGCAGAGCTATCGGCATAGAGAGAGAAGTTGCCCAAGAACGCCTCCAATGTGTCTCATTCCTCTTCCAGCTAAGGGGTATTCTTCTCCAGTACCTTGGCCAGAGAGCAAATTGAAGGTACTGTATAAAAATGTGGCCCATCCCAAGCTTGCTGCATTTATTAAAACACATAGTTGGGTGGTGGAGTCTGGAGAATATCTTATGTTTCCCCAGAACCAGTCTGAATTCAAGGGTGGAGTTTTTCACTACCTTGAATCTCTTGAGGAGATGGTACCAGACATTGAATGGGGAAAAAATATTCGTGTTGTACTGGATATTGGCTGTACAGATGTGAGCTTTGGGGCATTTCTTCTTGATAAGGAGGTATTAACACTATCACTAGGTTTGAAGGATGATCTAGTGGACCTAGCACAGGTTGCTCTTGAACGTGGTTTTCCTGCAGTAGTTAGCCCTTTTGGAACTCGAAGACTTCCTTTTCCCAGTGGTGTTTTTGATGCCATTCACTGTGGTGGATGCAACATAGCTTGGCATTCTAATGGGGGTAAACTTCTTTTGGAGATGAATAGGATTTTGAGGCCTGGTGGATATTTTATTTTATCAAGTAAACATGACAACATTGAAGATGAAGAAGAAATGACCTCATTGACAGCTTCAATCTGTTGGAATGTCCTGGCTCATAAAACTGATGAAATCAGTGAAGTAGGTGTTAAAATATATCAGAAGCCAGAATCAAATGATATATATGAGTTGAGAAGGAAGAAAAATCCTCCTATATGCAAGGAAGATGAGAAACCAGATGCAGCCTGGTATGTCCCAATGAAGACTTGCTTGCACACCATCCCAGCAGCTATTGAAGAACGTGGGACAGAGTGGCCTGAGGAATGGCCAAAGAGGCTTGATACTTTTCCTGACTGGCTGGAGAATAGAGATAAGTTGATTGCAGACTCTGAGCACTGGAAAGCTATTGTCAGCAAGTCCTACCTCACAGGAATGGGAATTGACTGGTCAAATGTGCATAATATACTGGACATGAAATCCATCTATGGAGGATTTGCTGCAGCTCTTTCTGATCAGAAGGTCTGGGTGATGAATGTTGTCCCAGTCCATGCACCAGACACTCTTCCAATCATTTATGAACGTGGGCTTGTTGGAATCTACCATGATTGGTGCGAGTCCTTTGGTACATATCCCAGATCATATGATCTTCTGCATGCAGATCATATGTTCTCACGGCTTAAAAACAGGTGTAAGCAGCCAGTAGCAATCGTGGTTGAGATGGATCGAATATTACGGCCTGGAGGTTGGGCAATTATAAGAGATAAGGTGGAGATACTTGATCCCCTGGAAGGAATTTTGAGAAGTATGCACTGGGAAATCCGAATGACTTTCGCACAGGATAAGGAGGGTATCATGTGTGCCCAAAAAACCTTGTGGCGACCATGAAATATTTGTACATGCAGACAGTGTTGTTATATAAGGATAATGAGCAATGATCCCCTACTTTCATGAGATCATGCTGTTGCTTTCACTTACTAAACCAGAGGCCCTTGCAGGAGATGAAAGAACACTGATTTTTGTGAGGAAGTATATGACCATGTATTCTTGATTGTTAACATTTAACACGAATGCTTGTCAAATTTTGAGTCTAAACATTTCCTTTTAAAGGTTGTGTGAATGTTTCCATCTTCTTGTTATGATGATAATATGGTTTATAGCAATTCTGCTTTGTAAATGGCA