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Y F Chang

Showing results (1-10 of 174) with videos related to

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Neurochemical Research|May 1, 1988
Structure-binding relationship of quinuclidinyl benzilate analogs on N4TG1 neuroblastoma muscarinic receptorsY F Chang
Neurochemical Research|May 1, 1982
Lysine metabolism in the human and the monkey: demonstration of pipecolic acid formation in the brain and other organsY F Chang
Plant Cell Reports|November 22, 2013
Plant regeneration in vitro from leaf tissues derived from cultured immature embryos of Zea mays LY F Chang
Biochemical and Biophysical Research Communications|March 8, 1976
Pipecolic acid pathway: the major lysine metabolic route in the rat brainY F Chang
Journal of Neurochemistry|February 1, 1978
Lysine metabolism in the rat brain: blood-brain barrier transport, formation of pipecolic acid and human hyperpipecolatemiaY F Chang
Biochemical and Biophysical Research Communications|November 5, 1971
Induction of separate catabolic pathways for L- and D-lysine in Pseudomonas putidaY F Chang, E Adams
Brain Research|April 30, 1986
Pipecolic acid antagonizes barbiturate-enhanced GABA binding to bovine brain membranesP Feigenbaum, Y F Chang
The Journal of Biological Chemistry|November 25, 1977
Factors influencing growth on L-lysine by Pseudomonas. Regulation of terminal enzymes in the delta-aminovalerate pathway and growth stimulation by alpha ketoglutarateY F Chang, E Adams
The Journal of Biological Chemistry|November 25, 1977
Glutarate semialdehyde dehydrogenase of Pseudomonas. Purification, properties, and relation to L-lysine catabolismY F Chang, E Adams
Journal of Bacteriology|February 1, 1974
D-lysine catabolic pathway in Pseudomonas putida: interrelations with L-lysine catabolismY F Chang, E Adams
Pageof 18

Showing results (1-10 of 174) with videos related to

Sort By:
Pageof 18
Neurochemical Research|May 1, 1988
Structure-binding relationship of quinuclidinyl benzilate analogs on N4TG1 neuroblastoma muscarinic receptorsY F Chang
Neurochemical Research|May 1, 1982
Lysine metabolism in the human and the monkey: demonstration of pipecolic acid formation in the brain and other organsY F Chang
Plant Cell Reports|November 22, 2013
Plant regeneration in vitro from leaf tissues derived from cultured immature embryos of Zea mays LY F Chang
Biochemical and Biophysical Research Communications|March 8, 1976
Pipecolic acid pathway: the major lysine metabolic route in the rat brainY F Chang
Journal of Neurochemistry|February 1, 1978
Lysine metabolism in the rat brain: blood-brain barrier transport, formation of pipecolic acid and human hyperpipecolatemiaY F Chang
Biochemical and Biophysical Research Communications|November 5, 1971
Induction of separate catabolic pathways for L- and D-lysine in Pseudomonas putidaY F Chang, E Adams
Brain Research|April 30, 1986
Pipecolic acid antagonizes barbiturate-enhanced GABA binding to bovine brain membranesP Feigenbaum, Y F Chang
The Journal of Biological Chemistry|November 25, 1977
Factors influencing growth on L-lysine by Pseudomonas. Regulation of terminal enzymes in the delta-aminovalerate pathway and growth stimulation by alpha ketoglutarateY F Chang, E Adams
The Journal of Biological Chemistry|November 25, 1977
Glutarate semialdehyde dehydrogenase of Pseudomonas. Purification, properties, and relation to L-lysine catabolismY F Chang, E Adams
Journal of Bacteriology|February 1, 1974
D-lysine catabolic pathway in Pseudomonas putida: interrelations with L-lysine catabolismY F Chang, E Adams
Pageof 18