RNA

Accession Number TCMCG061R09278
RNA Id XM_042142641.1
Length 1941bp
Gene LOC121748346
GeneID 121748346
Topology linear
Data_file_division PLN
Organism Salvia splendens
Definition PREDICTED: Salvia splendens probable xyloglucan 6-xylosyltransferase 5 (LOC121748346), transcript variant X1, mRNA
dblink BioProject:PRJNA737421
Molecule type mRNA

Sequence:   CACCAAAAAAGAAAAGAAGAAAGAAAATCGCAGTCGGTGCCTTCCTTCCTCCCTCCCTCCCTCCCTCCCTCGTCTCCACTTCCTCTTCTCTACATTCATCCCAATTTTTTCTCTAAAGAGAGGGGAGAGGAAGATCGACGTGTGAAATGTGTGCATACTGATTTTTCTGAATCCTGGAAGTCTTGCTAAACCCACACTCTTCCTGCTCATAAACCCTACCTTTTTCTCACTTTAGCAGCTTGAATCCCAGTAGATGGGATCGGAGGGAGCTTTCTCCGCTCAGAAGCGGAGCTCCGGCGCCCTACCGACGGCCAACGCCGCCGTGAACGGAGGAGCGCGGGGCCGTGCCGCAGCTCTGCTGCCGCGGGGGCGGCAGATGCACAAGACGTTCAACAACATCAAGATCACAATCCTCTGCGGCTTCGTCACGATTCTGGTGCTGCGAGGCACGATTGGGCTCGGGAACCTCGTCTCCTCCGAAGCCGACGCGCAGAATCAGCATCTGACGGAGGAAACGGATAAGATCCTCGATGGGATCCGATCCGACAAGGATCCGAGCGACCCGGACGAGGCGCCTATGCGATATCTCAGCCTCAATGATACCTTCAGCTTAGGGCCGAGGATCAGCACTTGGAACGAAGATCGCAAGGTATGGCTTGAGGAAAATCCCCAATTTCCGAGTTATGTTAAGGGAAAACCTAGGATTCTGCTTGTGACTGGTTCGCAGCCGGCGCCTTGTGCCAATGCGATTGGTGATCATTACTTGCTGAAGGCTCTGAAAAACAAGATTGATTACTGTAGGATTCATGGAATTGAGATCCTGTATAATATGGCTCATTTGGATAAGGAAATGGCAGGGTTTTGGGCGAAATTGCCTCTGCTGCGGCGATTAATGTTGTCGCATCCGGATGTGGAGTGGATTTGGTGGATGGATAGTGATGCTTTGTTTACAGATATGGTGTTTGATATTCCTATTGCCAAGTATAAGGATTATAACATGGTCATCCACGGCTTTCCTGATTTGTTGTTCAATCAGAAGTCATGGATTGCGTTGAATACAGGAAGTTTCCTGTTCCGGAACTGCCAGTGGTCGTTGGATTTGTTGGATGCTTGGGCGCCTATGGGACCCAAGGGCCCGATGCGTGATGAGGCTGGAAAGGTCTTGACGGCCTATCTGAAGGGGCGTCCGGACTTTGAGGCGGATGACCAGTCTGCTTTGATATACTTGTTGCTTTCGCAGAAGCAGTGGCTGAGCAAGGTGTTTGTGGAGAACTCATTTTACTTGCACGGATTTTGGGAGAGTGTGGTGGATAGGTATGAGGAGATGATTGAGAAGAACCACGCAGGAATGGGAGATGAGAGGTGGCCGCTTGTGACACATTTTGTGGGCTGCAAGCCCTGTGCTAAGTTTGGGGATTATTCAGTGGAGAGGTGTTTGAGGGGTATGGAGAGAGCTTTCAACTTCGCAGATAATCAAGTTCTCAACTTGTATGGGTTTAGGCATAAGGGATTGGTTAGCCCAAATCTTAAGCGGATCAGGAATGAAACTGCTGCTCCTTTGGTGAATGTAGATCAGTTTGATATTCGGCATGCAGCTGCTCACCACACCACTGAACCTCGGAGCTAGCTATCCCACCGGAACCTTTGAGAACATCTTGCAGTTTAGAGCTTCCGTTCACAGGGGATGGATCAAAGACATTGTGAGTTCATGACCATAGGGAGGTGGTGCTGGATCTCATCTTGATGTACTGTTCTGTAAAGCACATGGAGAGAAAAAACCTTTGTGATATTTTTTTGTTTTTGGGGGTGATTAAAATAGCTGTTGTTTAAGTTCTAGTTTTTTTCATTGGTTTTAGGTTAAAGTTTGGGTTCTAATTCGATCACGTGTACTAGTATTACACATTATGAAATGTTTGTTATAAAGAGAGAACATTTATTTAA