RNA

Accession Number TCMCG022R07036
RNA Id XM_010038257.3
Length 1829bp
Gene LOC104425544
GeneID 104425544
Topology linear
Data_file_division PLN
Organism Eucalyptus grandis
Definition PREDICTED: Eucalyptus grandis MATH domain and coiled-coil domain-containing protein At3g58250 (LOC104425544), mRNA
dblink BioProject:PRJNA698663
Molecule type mRNA

Sequence:   CTCCCTGCTTTTTCCACACTAACTTAGCGGGGAAGTTCTCTGCTTTTCCTCCCTACTGTGTATCCCTCAATCCTTCCTTCTACCATAAAGGAAGAAGCCCCGGGACTTCCATCATCCCATCGCCTTGCAGTCGAGGAGTCAGCAACGTTTGAAGCGAGTGCTGATGGGGAGTACCTCGTGAGTTTTCCAACTCCTGTAACGGAAGAAACTCTCCCCCTCCTGCTCCTGCTCCTGCTTCTGCTTCTTCGCAACTAGAGTGTCGGTCAAGAAGAGACATCCGGGTCGTTTGCGGAAGTTGATCTTGCAGAAGCAGCAGCCCATTATTATTATTTTATTATTTTTTAAAATAGAGAAAAGAATGGATGCACAAAGTGATGTTAATCGGGGAGAATTCACGTGGAAGATCAGCTACTTCAGTGAGCAGGAGGCGACCAGGCTCTACTCTGAAGCGTTCACAGTTGCTGGTTGTAAATGGAGAATTCTGGTGTTCCCCAAGGGANACAACACGGATCATTTGTCGCTGTACATCGATGTCCCCAATCCTAAGGTGTTGCCGAACGGGTGGACCAGAACAGCCAAGTTTATCCTGAGTGTGATCGATCAGACCAATGATGGTCGCTCTGTTAAAAAGGGGACGCAACATGTTTTTACTGCAAGACAGATTGACCGGGGTTACCAGAATTTCATTCCATTGACGGAACTTCATAATTGTGCTGCGGGATACCTAGCAAACGACACTTTGATGATTAAAGCCGAAGTTTGCATCTTGGCAGTTACTCCTCCAGTGAATATCCAGCCAGCTAGACAAACCGTTGGCTTTGACTCCTACCTTACTAGTCTGGAGGAACTCATCAATGCTGCTGAGACAGGTTTTAGTGTAGGATCAAGGTTGGGCCACCATGATGGTTCTCTGACGGCTAAAATTCCTAGCTTAGAAGAAGTTGGGAAGGCTAAGCAGTCTTTGAAGGAATGTCTTTCGGATCTCTTCAAATTGAATATGAAAGAGAGGCTATCGGAGGCATTATCAACTTTAAGCTCAGCTAGAACTGGATTATCGTCGAAGCAAAGAATAGCAATTGACACATTTCGGGCAAATTTCAATGATTTCACTTCTGACTTCTTGACATTTGAACAGGACAATGCTGAGTTTGAGTTGCAAAAACTGCAAATGGATCAATGGTTAGCTGCTATGACGAAGTGCCATGAGGCTCACATCGTCTGTAAGCAATTGATGGGTGAACTTGACAAGGAAGAGGAAGAGCTGAAGAGAAAGATGGACGAAGTGAAGTCGAGGAAGGACAAGCTCTTCATGGACTGGGATGTTGTGCAGGCCAAGTCCGAAGAGGCGAAGTCAGGCTACAAAGATAAGCAGAAGAAAGTAGCAGAGGCAGAGGAGAAGAAGAGAATAGCCGAGGAAAGAATGTCTAGATCGACCACTGCTTGGTCAAATTTGAAGACTCAGTTCTGTTAAAACACTAAGGTTTGAAATGGGCTATGAGGCAAATGTTCACTCAAGTATGAAAACTGTGTGTTCGCTTGACTACTTTCGGTCAATTTTCGCAAGAACAATTGCGAGGGGCTTATGAGGCAGATCCTATATTATGTTGGTTCAGTCAGCTTGTGGGTCAAATACATACATACTTATGTATGTCTATAGAGTCAGGTTTTGATGTCTTCATACGAGTTGCATGGTCGTCATGCTCTTTGCTTTTAAATCTTGTAAATTCTCATGATTCCGATGCTCTTTCCCGACTCATGTATTGTGTGGCTCAAATAATACCCTCTTCCTGTATCCAGTCTTGCGGATTTGTATGAGGTGAGTTTGCCCT