RNA

Accession Number TCMCG053R11296
RNA Id XM_034352121.1
Length 1922bp
Gene LOC117621545
GeneID 117621545
Topology linear
Data_file_division PLN
Organism Prunus dulcis
Definition PREDICTED: Prunus dulcis protein RST1-like (LOC117621545), transcript variant X4, mRNA
dblink BioProject:PRJNA631757
Molecule type mRNA

Sequence:   ATTTGTAATGTCTCTATACTAGGTCTTACATGCTTTACCTCAACTTTAAATTTTGGCTATGGTTGCTGTTTGTTAGGTCTTGCCTCCATCTGCTCACGCTGTTAAATCAGATGCCTCAAAATTTCTGTTGAATTGGTTGGTCCAGCATGAACATGAACACCGCAAATGGTCTGCTGCGATTTCTCTTGGATTGATCTCAAGTTGCCTACATGTAACAGATCATAAGCAAAAGTTTGAGAATATCACTGGACTTGTTGAGGTTATGTGTAGTAGCAATAGCACCCTTGTCAGAGGAGCCTGTGGGCTTGCCTTGGGTTTTTCTTGTCAAGATCTTCTTACCAGGGTTGATGCTGGTGATAATTCTGACATGGACAAAGAAACAGGCAAGATGACAGAAGCAGACTTGCTTGGTATGATAGTTAAGGCATTATCACTCATGATAGGTCAGCTCACTCAGTTGCCATCTGATGTTATGGAAAGTCTATCTGCCTACTTTCCACCTAACACATTTGGTATAGATATGAATATAACTGCTGAACTGTCACATGAGAACTCTGATGACTCTCTCGAAGATATCTGGGGTGTTGCTGGACTTGTTCTTGGTTTGGCGAGTTCTGTTGGTGCACTGTACAGAGCTGGGGCACATGATGCTGTTCTCAAGATAAAAGACTTGATCATTTCATGGATTCCACATATGACTACATCAGTTCAAGGGTCTCGGTCTTTTAGTGGGGTTTCTGAGATAGTTTTATCAGTAGGATCCTGTCTTGCACTTCCCATTGTAGTTGAATTCTGCCAAAGATTAGAACTGATGGATGATAATAAAGTACGCCATTTAGTGAATGGCTACAGGGAGCTCATTTCTGAATTATTGTCTGTCAAAAAATCTGGCACCTTCTATCACAGCTTACTTATGGCATCTTGTATAGGAGCAGGAAGCCTCCTAGCCTGCATACTGAATGTAGGATTGCCTTAGAAATTGGAAATTGGAAACTTATCTTGCTGCTAATATGGAACTAATCAAAAGGGCAACTGTTTTTAAAGTACTTTCGGTTATGATCAAGTAAAAAGGGTTAAACGATGGGGTCCTGTGTTTATGCCATTGGGATTGTTATGAAATCATAGCAGATAAGTGGGAGTATTTAAGATTGTTGTGTGTTTTTGCATCAAATTTAGTTTTTCATATTTTTTTAGTGCTAATGTGTATTTGCAATACATGTGGTTTTGCAGGATGATACTCAAATTATGACAGCTTCTGGTGATCATAACAATATCAAGGTATGGGATATTCAGGAAAAGAAATGTACTGCAATACTGATGGGGCACACAGGAAGTGTGAAATCTCTCTGTCCTCATCCAACTAATCCTGAGATTATTGTCTCTGGTTCGAGAGATGGCTCCTTTGCTCTTTGGGATATGAGATGTAATTCAAGCTCCAAAAATATTCACGGGGAGATTGCAATATGCTCAACTGCTGTGGTTAAAGGGGCTCATCTTTTTCCACGGGCAAAGCGTGTAAGGCGCAGAAAGGCTGCTTCCATGAGCATCACACCAGTTCTTTATCTTAAAGACGAGGTTTCCATTGCTACTGCTGGAGCTGTGGACAGCATTGTTAAGTTTTGGGATACTAGAAGTTTGAAAAATGTCGTCACACAGACATCCCCTCACCTAGAGTCTACTGAGAAGTCAATTATTAGCCCTGATGCTGCTCACATACTCAGTGGTTCCAGCGATGGAAATGCCTACATTTGGCAGCAGAGCTTATATTCCCTCATGACAATAGCATGATCTCTTACATCAGTCGATTCCAAATCTAACGGATTGTAATAGTAAGCCAATGTGAATATGACACATGGCAATACACAGCTGTCCTAACAGCTGGGAATAGAAAACAGACTCAAGCATTGCACCTGGCATATAAG