Methylation of histones by chemicals and embryonic liver enzymes: their ability to repress in vitro RNA synthesis.
Hancock, R L
Methylation of histones by chemicals and embryonic liver enzymes: their ability to repress in vitro RNA synthesis. [electronic resource] - Physiological chemistry and physics 1974 - 159-69 p. digital
Publication Type: Journal Article
0031-9325
Amino Acids--metabolism
Animals
Arginine--analysis
Carbon Radioisotopes
Cattle
DNA
DNA-Directed RNA Polymerases--biosynthesis
Electrophoresis, Paper
Enzyme Repression--drug effects
Female
Fetus
Histones--metabolism
Kinetics
Liver--enzymology
Male
Methylation
Methyltransferases--metabolism
Pregnancy
Rats
S-Adenosylmethionine--metabolism
Salmon
Spermatozoa
Thymus Gland
Time Factors
Tritium
Uracil Nucleotides--metabolism
Methylation of histones by chemicals and embryonic liver enzymes: their ability to repress in vitro RNA synthesis. [electronic resource] - Physiological chemistry and physics 1974 - 159-69 p. digital
Publication Type: Journal Article
0031-9325
Amino Acids--metabolism
Animals
Arginine--analysis
Carbon Radioisotopes
Cattle
DNA
DNA-Directed RNA Polymerases--biosynthesis
Electrophoresis, Paper
Enzyme Repression--drug effects
Female
Fetus
Histones--metabolism
Kinetics
Liver--enzymology
Male
Methylation
Methyltransferases--metabolism
Pregnancy
Rats
S-Adenosylmethionine--metabolism
Salmon
Spermatozoa
Thymus Gland
Time Factors
Tritium
Uracil Nucleotides--metabolism