Carnitine can inhibit the oxidative decomposition of fatty acids.()
Carnitine can inhibit the oxidative decomposition of fatty acids.()
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
A research was studying oxidative phosphorylation in a suspention of carefully washed and isolated mitochondria ATP, ADP, inorganic phosphat
A research was studying oxidative phosphorylation in a suspention of carefully washed and isolated mitochondria ATP, ADP, inorganic phosphat
The three kinds of coal desulfurization process are ( ) A: Oxidative desulfurization(ODS) B: Biological desulfurization(BDS) C: Hydrodesulfurization(HDS)
The three kinds of coal desulfurization process are ( ) A: Oxidative desulfurization(ODS) B: Biological desulfurization(BDS) C: Hydrodesulfurization(HDS)
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
SOD is one of the body’s primary defense mechanisms against oxidative stress. The enzyme catalyzes which one of the following reactions A: O2− + e− + 2H+ → H2O2 B: 2O2− + 2H+ → H2O2 + O2 C: O2− + HO• + H+ → CO2 + H2O D: H2O2 + O2 → 4H2O E: O2− + H2O2 + H+ → 2H2O + O2
SOD is one of the body’s primary defense mechanisms against oxidative stress. The enzyme catalyzes which one of the following reactions A: O2− + e− + 2H+ → H2O2 B: 2O2− + 2H+ → H2O2 + O2 C: O2− + HO• + H+ → CO2 + H2O D: H2O2 + O2 → 4H2O E: O2− + H2O2 + H+ → 2H2O + O2