RNA

Accession Number TCMCG079R25313
RNA Id XM_017575166.1
Length 1814bp
Gene LOC108338349
GeneID 108338349
Topology linear
Data_file_division PLN
Organism Vigna angularis
Definition PREDICTED: Vigna angularis (3S,6E)-nerolidol synthase 1-like (LOC108338349), mRNA
dblink BioProject:PRJNA328963
Molecule type mRNA

Sequence:   TCTATCTGCTTAACCATATTTGTTTTGTTTTGGCCATGGCACTGCATTTCGTGTCCTGCATTTTTGCTTCCAGACCTCCAACTGTTGCAGCAAAGGCTCAACATTCTGAATATTTCAACCCTTCCAAACTTGATGCTCTTCACATTGCCAACAAATGGATCTTTGTTCCAGAGGAAAGGTCTAGCTTAGAAGTATATAAAACGGGAGATCTGAGCACGAATCTCTCAGAGAAAGTGGAGGTGGTGAAGAATGAAGTTTGGAAAACTGTGGATGAACGCTCATTCGAAGGTTTGTACATGATTGATGTAATGCAGCGCTTAAATATTGATTACCACTTCCAAGACGAAATCGAAACATTCCTAGAGAAGCAATATGCGAATTACAGTAGTGTTGGGAGTGGTTATGGTAATCATATTCATGAGATTGCACTTCGATTCAGGCTATTCAGACAACATGGTTACTTTGCGCCGGCAGACGTGTTTGAAAAGTTGACTAACAAAGAGAGAAAAATCAGGCCAGAACTTAGTGAAAATATAAAGGGAATGGTAGACATATATGAAGCTTCACAGTTAGCCGTAGCAGGGGAAGATATACTTGCTGAAGCAGAAATATTTAGTGGCAAGGTCCTAAAGGAAAAGGTAGATTGCATCGACAGTCATGGAGATCAGTTTGTAAAGAGAACCTTAGAATACCCTTTTCACAAATGCTTGCCCTTGTTTACCTCTAGAAAGTTCTTGGGCGATTTTCATGGCAAGAATCTATGGCTAAGTTCCTTTCGAGAGATTGCAAAAATGGATTTCAGTTTGCTACAGTGCTCATACCATCGAGAGATTGGTCAAATTACGAAATGGTGGACCGAGCTTGGTTTAGCCAACGAGTTAGTGTATGCGAGAAACCAACCCCTTAAATGGTACATTTGGTCGTTGGCATGCTTCGCAGATCGTAATTTCTCAGAGGAAAGGATTGAGCTCACAAAACCAATATCTTTGATATACATAATAGATGACATTTTCGATGTTTATGGGACTCTGGATGAGTTAACTCTGTTCACAGAAGCTGTTTGCAGATGGGATATTACAGCCGTTGAACAACTTCCAGATTACATGAAGACATGTTTCAGTGTCCTCTATAATCTCACAAATGAAATCAGCTCCAAGGTCTATCAGAAGCACGGCTGGAACCCCATACACTCACTACAAAATGCGTGGAAGAGTTTGTGCAAAGCCTTCCTAGTTGAAGCAAAATGGTTTGGGTCTGGGAAGTTGGCAAGTGCAAGAGAATACTTAAAGAATGGGACAGTAAGCTCTGGAGTGCAAATTATGTTGGTTAACACTTTCTTTCTTTTGGGTGAGGGATTAACTGAGGAAAATGTTGAGATCATAGACAGAAACCCTGATATCATTTCCTCCCCGGGAACAATTCTTCGACTCTGGGATGACTTGGGAAATGCACAGGATGAGAATCAAAAAGGCAATGATGGATCGTACGTGAACTATCTGATGAATGAAAACCCAGAATACACGAGAGAAGTAGCAAGAGAAAGAGTGATGAGTAAGATGAGTGATGCATGGAAGAACCTCAACCAAGAGTGCTTGTTTCATAAACATTTCCATCCAACATTCACTAAGGCTTCACTCAATCTCGCAAGGATTGTACCATTGATGTATAGTTACGACGACAAACAGTCCCTTCCAGGACTAGAGGACCAATTCAGTTCTTTGCTTTATGATACTTTTCTTTAATTTATAGCACTCCCAGTCCATATCTCTGTATAAGTGATTGCTGTGTGGATAATGTTTTTAACTTTAATTATA