The primary manner for the deamination of amino acids in muscle involves ( ). A: purine nucleotide cycle B: oxidative deamination of glutarate C: transamination D: ornithine cycle E: conjunction of transamination and purine nucleotide cycle F: conjunction of transamination and oxidative deamination
The primary manner for the deamination of amino acids in muscle involves ( ). A: purine nucleotide cycle B: oxidative deamination of glutarate C: transamination D: ornithine cycle E: conjunction of transamination and purine nucleotide cycle F: conjunction of transamination and oxidative deamination
The primary manner for the deamination of amino acids in muscle involves.
The primary manner for the deamination of amino acids in muscle involves.
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
Of the following, which is a phase Ⅱ biotransformation reaction? A: Hydrolysis B: Reduction C: Deamination D: Oxidation E: Conjugation
Of the following, which is a phase Ⅱ biotransformation reaction? A: Hydrolysis B: Reduction C: Deamination D: Oxidation E: Conjugation
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