Effects of diphenylhydantoin and phenobarbital on protein metabolism in the rat cerebral cortex.

[1]  S. Rose,et al.  PRECURSOR INCORPORATION INTO CORTICAL PROTEIN DURING FIRST EXPOSURE OF RATS TO LIGHT; CELLULAR LOCALIZATION OF EFFECTS , 1973, Journal of neurochemistry.

[2]  J. W. Cramer,et al.  Barbiturate inhibition of growth and of synthesis of deoxyribonucleic acid, ribonucleic acid and protein in cultured mammalian cells. , 1973, Biochemical pharmacology.

[3]  S. Oja Comments on the measurement of protein synthesis in the brain. , 1973, The International journal of neuroscience.

[4]  N. V. van Gelder,et al.  Close correlation between changing content of specific amino acids in epileptogenic cortex of cats, and severity of epilepsy. , 1972, Brain research.

[5]  T. Rasmussen,et al.  Amino acid content of epileptogenic human brain: focal versus surrounding regions. , 1972, Brain research.

[6]  A. Tebēcis,et al.  Strychnine-sensitive inhibition in the medullary reticular formation: evidence for glycine as an inhibitory transmitter. , 1972, Brain research.

[7]  A. Hamberger,et al.  Effect of diphenylhydantoin on protein metabolism in neuron and neuroglial fractions of central nervous tissue. , 1971, Experimental neurology.

[8]  D. Woodbury,et al.  Subcellular distribution of 4- 14 C-diphenylhydantoin in rat brain. , 1971, The Journal of pharmacology and experimental therapeutics.

[9]  A. Saifer Comparative study of various extraction methods for the quantitative determination of free amino acids from brain tissue. , 1971, Analytical biochemistry.

[10]  A. Hamberger,et al.  Effect of diphenylhydantoin on protein metabolism in the central nervous system. Study of subcellular fractions. , 1971, Experimental neurology.

[11]  C. Cotman,et al.  Characteristics of different amino acids as protein precursors in mouse brain: advantages of certain carboxyl-labeled amino acids. , 1971, Archives of biochemistry and biophysics.

[12]  H. Mcilwain,et al.  AMINO ACID DISTRIBUTION AND INCORPORATION INTO PROTEINS IN ISOLATED, ELECTRICALLY‐STIMULATED CEREBRAL TISSUES , 1971, Journal of neurochemistry.

[13]  R. Shank,et al.  THE METABOLISM IN VIVO OF GLYCINE AND SERINE IN EIGHT AREAS OF THE RAT CENTRAL NERVOUS SYSTEM 1 , 1970, Journal of neurochemistry.

[14]  H. Kupferberg Quantitative estimation of diphenylhydantoin, primidone and phenobarbital in plasma by gas-liquid chromatography. , 1970, Clinica chimica acta; international journal of clinical chemistry.

[15]  A. Patel,et al.  MANIFESTATION OF METABOLIC COMPARTMENTATION DURING THE MATURATION OF THE RAT BRAIN , 1970, Journal of neurochemistry.

[16]  K. Elliott,et al.  Effects of various conditions on the movement of carbon atoms derived from glucose into and out of protein in rat brain. , 1970, Canadian journal of biochemistry.

[17]  S. R. Snodgrass,et al.  Transport of neutral amino acids from feline cerebrospinal fluid. , 1969, American Journal of Physiology.

[18]  S. Ochs,et al.  FAST AND SLOW PHASES OF AXOPLASMIC FLOW IN VENTRAL ROOT NERVE FIBRES 1 , 1969, Journal of neurochemistry.

[19]  A. Lorenzo,et al.  AMINO ACID TRANSPORT BY CHOROID PLEXUS IN VITRO 1 , 1969, Journal of neurochemistry.

[20]  E. Glassman,et al.  The biochemistry of learning: an evaluation of the role of RNA and protein. , 1969, Annual review of biochemistry.

[21]  Y. Kyōgoku,et al.  The Specific Hydrogen Bonding of Riboflavin Derivatives to an Adenine Compound , 1968 .

[22]  A. Rich,et al.  Specific Hydrogen Bonding of Barbiturates to Adenine Derivatives , 1968, Nature.

[23]  I. Morgan,et al.  SYNAPTOSOMAL PROTEIN SYNTHESIS IN A CELL‐FREE SYSTEM * , 1968, Journal of neurochemistry.

[24]  T. Perry,et al.  A versatile lithium buffer elution system for single column automatic amino acid chromatography. , 1968, Journal of chromatography.

[25]  I. Morgan,et al.  INCORPORATION OF 14C‐LABELLED LEUCINE INTO SYNAPTOSOMES FROM RAT CEREBRAL CORTEX IN VITRO , 1967, Journal of neurochemistry.

[26]  A. Lajtha,et al.  Heterogeneity of the mediated transport systems of amino acid uptake in brain. , 1966, Brain research.

[27]  S. Roberts,et al.  REGULATION OF CEREBRAL METABOLISM OF AMINO ACIDS—IV. INFLUENCE OF AMINO ACID LEVELS ON LEUCINE UPTAKE, UTILIZATION AND INCORPORATION INTO PROTEIN IN VZVO * , 1965, Journal of neurochemistry.

[28]  L. Shuster,et al.  THE INDIRECT INHIBITION OF PROTEIN SYNTHESIS IN VIVO BY CHLORPROMAZINE. , 1964, The Journal of biological chemistry.

[29]  A. Lajtha,et al.  PROTEIN METABOLISM OF THE NERVOUS SYSTEM. , 1964, International review of neurobiology.

[30]  D. Oxender,et al.  DISTINCT MEDIATING SYSTEMS FOR THE TRANSPORT OF NEUTRAL AMINO ACIDS BY THE EHRLICH CELL. , 1963, The Journal of biological chemistry.

[31]  H. Waelsch,et al.  PROTEIN METABOLISM OF THE NERVOUS SYSTEM. , 1961, Schweizerische medizinische Wochenschrift.

[32]  A. Lajtha,et al.  THE BRAIN BARRIER SYSTEM‐II UPTAKE AND TRANSPORT OF AMINO ACIDS BY THE BRAIN * , 1961, Journal of neurochemistry.

[33]  K. Piez,et al.  A modified procedure for the automatic analysis of amino acids. , 1960, Analytical biochemistry.

[34]  B. Brodie,et al.  THE IMPORTANCE OF DISSOCIATION CONSTANT AND LIPID-SOLUBILITY IN INFLUENCING THE PASSAGE OF DRUGS INTO THE CEREBROSPINAL FLUID , 1960 .

[35]  A. Lajtha,et al.  AMINO ACID AND PROTEIN METABOLISM OF THE BRAIN—I , 1957 .

[36]  J. M. Reiner,et al.  The study of metabolic turnover rates by means of isotopic tracers. I. Fundamental relations. , 1953, Archives of biochemistry and biophysics.

[37]  O. H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.