RNA

Accession Number TCMCG066R34792
RNA Id XM_034747140.1
Length 2782bp
Gene LOC117863442
GeneID 117863442
Topology linear
Data_file_division PLN
Organism Setaria viridis
Definition PREDICTED: Setaria viridis protein TRANSPARENT TESTA 9 (LOC117863442), transcript variant X2, mRNA
dblink BioProject:PRJNA633601
Molecule type mRNA

Sequence:   AACCTCTCCCTGTTGGCGATTGCCTCCATTGCCGTTGCTCCACCCGTCCACCGCGCGGCGGCCAGCGCGGCAGGTGACGTGACGACCGAACGAAGCAACCAGGCGCCGAAAAGGATAGCGCAAGTGCGAAACCCAACAGCGAGGAGGAGGAGGAGGCGAGGAGCCGAGAACTAGGAGGAGGAGAGGAAAAGAAAAATAAAAGGAGAAGCGAAAAAGGCAAAAAGCGAGTCCGCCCGCCCCCCGATCCCCCCACCGGCGATCATCCGCCGCCGCGGATGCGATGCGTCCCCCCACCGGCGGCGGCAGCGTGGTGGCCCGCGCACTGTCGTGAGGGATCCGCCGCCGCGCGCCCCGGCTCCCGCGCCCCCGAGTCCGCGCCTGCGCTTGGCCCCCGCGCCCGCGCCGACGACGCCGCCCGGAGCGGATTCGCCGGCATGTGGCTCTTCTGGCGCACGAGGAACCGCTTCTCCGTCGAGGAGCTCCGGTATCTAACAGATCAGCTACAAAAGGTTTACGTTGTCAACGAAGCTAATAAGGATTTTGTGATTGAAGCATTGAGATCAATTGCGGAACTTATGATATATGGTGACCAGCATGATCCTTCATTTTTTGAATATTTTATGGAGAAACAGATCATGGGTGAATTTGCTCGTATATTAAGGATCTCGAAGCTGTCAAGGGTGTCACTCCAGTTGCTACAGACGATGGGTATCATGATCCAAAATCTAAGAAATGAACATTCAATTTACTATATTTTTAGCAATGAGCACATCAACTTCTTGATTACATACTCATTTGATTTTCGAATTGATGAGATGCTATCGTACTACATATCTTTTCTACGGGCGATAAGTGGGAAGTTGAACAAGAATACAATTTCTTTGCTCGTGAAGACAAAAAATGATGAAGTCACTTCCTTTCCTCTTTATGTGGAGGCCTTAAAGTTTGCTTTTCACGAGGATAGCATGATTCGAGTTGCTATACGAACCTTGACTCTCAATGTTTATCATGTGGGAGATGAATCTGTTAACAGATTCGTTTCCCGTGTGCCGCTATCAGATTATTTTTCAGACATAGTTCAGCATTTCCAGAAGCAATGCATTGACTTGGATAAGTTGGTTACGCGCTCCTCACGAAATGCAAATTGTTCTCTCCCATCTTCCTCTGTTGAAGATGCAATTGTGCAAATTGAAGACACACTGTATTATTTCAGTGATGTTATGTCTTCTGGTATTCCTGATCTTGAAAGGTTTATCACTGAAAACATCTTGCAAGTTTTGGTATTTCGGCTCTTACTCCCGTCATTGCAGAGGCAGAGCACAGATTTGGATATAAGTGTCACTACTTCCATGTATTTGCTTTGCTGTATTCTCCACATTTTTAAGAACAAGGACATGGCAAGTACTGTAGCTGCCGCTCTTTTTCATCAACCTGATTGCCCTGATAGGAAGCAAGTGACTCCTAATGGCTATACCTCGGAGCATGATGCATCTGAGAATCAGTGCAGCAGTGACTCTACCTGCGAGCAAGCAAATGAGGACCAGCCAACTTCTTTGTCTGCTGTTAGTTCGCCGCCTAGTGATTGTTGCCAAGGCAACACACCAAGGGAACACTTGCTGTCCTATATCACAGGAGGAGATGATTCAGAAGCTTTGGGTTCGTTGTGCTTATTTGCTACATTATTGCAGACAAAAGAACTTGATGAATCGATGCTGGATGCACTTGGAATACTCCCTCAAAGAAAGCAGCATAAGAAACTTCTACTACAAGCTTTAGTAGGAGAAGACCTTGCTGAAAGACGGTTATTTTCGTCAAGTAGCGGTCTGACTGATGACAGTATTTGTAGCGATTTTGATGTTTATGTAAGGAAGCTTCAGGATAAGTATGGGCTACAGTGTCATCATCCACGGCAAATGACTTCCAAAGTTCACAGATATCAGGTGCTCGATGCGTTAGTCGACCTTTTCTGCAGATCGAAGGTATCTGCAGATGTTCGCTTGGTTGGAGGCTGGCTTTTTCGGCAATTGCTGCCCCATGGGGAGGAAGAATTCACTGCTTTTCATCTAAGAAGATTAAAGGATTCACACAAGGATTGTAGTGCAAAGCTTTCAGAGGAATCTGGAGGATGCTGGTGCGACATGCTTCTTCCCGTTATTAAGGAGGCTTGGAAGAATTGCAAGAAAGCAATTGAGGCTTCTTCACCACCAAAAGGATCCAAGTCTATAATTGTACCCATGGATTTGTATTCATTTGGAGGTGATTCTTCTGTTGCTGTTGCAGAGAGAGTCCATGAGATGGTTAAGCATTGCATTCTTGCTAGTTGTAGAACTATGAAAGAAGATGAAGGTTGCCAAGCAGAAAACTCACCTAAATACTTAGGATACCCATGCATCTCCGAGGACGTAGAAACATCTAATTGGAGCAAGCAACCAGTGGGTGAAGAAAAGATCAATGCTAGCAGAATGGAGGATAACACACAAAGCCACGCTGAATCCCAGATGTTGACACATGAGGCAAAAAGAGATTGCAGAAGACAGGCTTTTTGCAGTTATAAGCTGCAACTGCTTACGGCGCTGAACAATTGCTATAAGCTGCAACAGCTTACGCTAAACAGTTGATGTCAATACTTGTGAAGCTTACAGAAGATTGCCAAATTGGATTGCTTGACAGGAGTACAGGACTTTGGATTTAAATGTACTTCAGTGTTTTCTCCTTCGCAGTCAGTTGATGTCAATACTTGTGAAGCTTACAGAAGGAGACTGCCAAATTGGATTGCTTGACA