Nitrogen Metabolism How many molecules of ATP are hydrolysed to form two molecule of ammonia? 16 10 5 15 16 10 5 15 ANSWER DOWNLOAD EXAMIANS APP
Nitrogen Metabolism The inputs to one cycle of the urea cycle are None of these 1 molecule of urea, 1 molecule of ammonia, 3 molecules of ATP and 1 molecule of fumaric acid 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of carbon dioxide, 3 molecules of ATP 1 molecule of fumaric acid, 1 molecule of urea, 3 molecules of AMP None of these 1 molecule of urea, 1 molecule of ammonia, 3 molecules of ATP and 1 molecule of fumaric acid 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of carbon dioxide, 3 molecules of ATP 1 molecule of fumaric acid, 1 molecule of urea, 3 molecules of AMP ANSWER DOWNLOAD EXAMIANS APP
Nitrogen Metabolism Nitrate reduction can be carried out by only plants only microorganism none of these plant and microorganism only plants only microorganism none of these plant and microorganism ANSWER DOWNLOAD EXAMIANS APP
Nitrogen Metabolism Which of the following is used as carbon atom source while producing urea in the urea cycle? Aspartic acid Arginine Carbon dioxide Glucose Aspartic acid Arginine Carbon dioxide Glucose ANSWER DOWNLOAD EXAMIANS APP
Nitrogen Metabolism Urea cycle converts none of these ketoacids into amino acids amino acids into ketoacids ammonia into a less toxic form none of these ketoacids into amino acids amino acids into ketoacids ammonia into a less toxic form ANSWER DOWNLOAD EXAMIANS APP
Nitrogen Metabolism The products of urea cycle are 1 molecule of fumaric acid, 1 molecule of urea, 1 molecule of AMP, 2 molecules of ADP None of these 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of fumaric acid, 1 molecule of ATP 1 molecule of urea, 1 molecule of ammonia, 1 molecule of ATP and 1 molecule of fumaric acid 1 molecule of fumaric acid, 1 molecule of urea, 1 molecule of AMP, 2 molecules of ADP None of these 1 molecule of aspartic acid, 1 molecule of ammonia, 1 molecule of fumaric acid, 1 molecule of ATP 1 molecule of urea, 1 molecule of ammonia, 1 molecule of ATP and 1 molecule of fumaric acid ANSWER DOWNLOAD EXAMIANS APP
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