The conversion of pyruvate to Acetyl CoA is the decarboxylation process.()
The conversion of pyruvate to Acetyl CoA is the decarboxylation process.()
Biotin is involved in which of the following types of reactions? A: Carboxylation B: Deamination C: Decarboxylation D: Hydroxylation
Biotin is involved in which of the following types of reactions? A: Carboxylation B: Deamination C: Decarboxylation D: Hydroxylation
Pyridoxal phosphate (PLP) participates in a variety of reactions at the α, β, and γ carbons (C-2 to C-4) of amino acids. Reactions at the α carbon include ___________________. A: acemization (interconverting L- and D-amino acids) B: decarboxylation C: transamination D: deamination
Pyridoxal phosphate (PLP) participates in a variety of reactions at the α, β, and γ carbons (C-2 to C-4) of amino acids. Reactions at the α carbon include ___________________. A: acemization (interconverting L- and D-amino acids) B: decarboxylation C: transamination D: deamination
The bioavailability of L-dopa is very low, this is due to A: difficulty to pass through the brain barrier B: rapid acetylation in liver C: peripheral hydroxylation D: a low absorption rate E: rapid peripheral decarboxylation
The bioavailability of L-dopa is very low, this is due to A: difficulty to pass through the brain barrier B: rapid acetylation in liver C: peripheral hydroxylation D: a low absorption rate E: rapid peripheral decarboxylation
The<br/>main way to generate ATP in body is ( ) A: Creatine<br/>phosphorylation B: oxidative<br/>phosphorylation C: Phosphorylation<br/>of sugar D: substrate<br/>level Phosphorylation E: Decarboxylation<br/>of organic acids
The<br/>main way to generate ATP in body is ( ) A: Creatine<br/>phosphorylation B: oxidative<br/>phosphorylation C: Phosphorylation<br/>of sugar D: substrate<br/>level Phosphorylation E: Decarboxylation<br/>of organic acids