INIS
methyl transferases
100%
cytosine
100%
transfer rna
100%
mice
85%
rna
71%
administration
57%
synthesis
57%
in vivo
42%
enzymes
42%
in vitro
42%
liver
28%
actinomycin
28%
doses
14%
induction
14%
time dependence
14%
inhibition
14%
molecular weight
14%
Chemistry
Reaction Mechanism
100%
Cytosine
100%
5-Azacytidine
100%
Ribonucleic Acid
85%
Transfer RNA
85%
RNA
57%
Synthesis (Chemical)
42%
Assay
28%
D-Galactosamine
28%
Actinomycin D
28%
Dose
14%
Time
14%
Molecular Mass
14%
Enzyme Inhibition
14%
Nucleic Acid Synthesis Inhibitor
14%
5-Methylcytidine
14%
Keyphrases
Cytosine
100%
Methyltransferase
100%
5-azacytidine
100%
Transfer RNA (tRNA)
85%
Methyltransferase Activity
57%
RNA Methyltransferase
28%
Enzyme Deficiency
28%
Actinomycin D
28%
D-galactosamine
28%
Liver
14%
RNA Synthesis
14%
Mouse Liver
14%
Dose Effect
14%
MiRNA Inhibitors
14%
Rapid Synthesis
14%
Activity in Vivo
14%
Enzyme Inhibition
14%
Time Dose
14%
5-methylcytidine
14%
Low Molecular Weight RNA
14%
Inhibitory RNA
14%
Pharmacology, Toxicology and Pharmaceutical Science
Methyltransferase
100%
Cytosine
100%
Azacitidine
100%
Mouse
85%
RNA
71%
Transfer RNA
57%
Dactinomycin
28%
Enzyme Deficiency
28%
Transfer RNA Methyltransferase
28%
Galactosamine
28%
Enzyme Inhibition
14%