337039
To make 100 molecules of glucose, how many molecules of ATP & NADPH are required?
1 1800 and 1200 respectively.
2 1200 and 1800 respectively.
3 1800 and 600 respectively.
4 200 and 600 respectively.
Explanation:
18 ATP and 12 NADPH molecules will be required to make one molecule of glucose through the Calvin Pathways. Therefore to make 100 molecules of glucose 1800 ATP and 1200 NADPH molecules are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337040
During photosynthesis I. PGA is changed into phosphologlyceraldehyde II. NADPH is converted to \(NAD{P^ + }\) Which of the following reaction occurs?
1 Oxidation, Reduction
2 Reduction, Reduction
3 Reduction, Electrolysis
4 Reduction, Oxidation
Explanation:
I. Reduction II. Oxidation (loss of \({H^ + }\))
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337041
How many turns of Calvin cycle produces one molecule of glucose?
1 Eight
2 Six
3 Three
4 One
Explanation:
To make one molecule of glucose 6 turns of the Calvin cycle are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337042
ATP and NADPH produced in light reaction are used immediately for
1 Synthesis of sugar in dark phase
2 Synthesis of sugar in biosynthetic phase
3 Reduction of carbon dioxide
4 All of them
Explanation:
ATP and NADPH formed in light reactions are used to drive the processes leading to the synthesis of food, more accurately, sugars in dark/biosynthetic phase. This is carried out by Calvin cycle where the fixation of C\(C{O_2}\) occurs.
337039
To make 100 molecules of glucose, how many molecules of ATP & NADPH are required?
1 1800 and 1200 respectively.
2 1200 and 1800 respectively.
3 1800 and 600 respectively.
4 200 and 600 respectively.
Explanation:
18 ATP and 12 NADPH molecules will be required to make one molecule of glucose through the Calvin Pathways. Therefore to make 100 molecules of glucose 1800 ATP and 1200 NADPH molecules are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337040
During photosynthesis I. PGA is changed into phosphologlyceraldehyde II. NADPH is converted to \(NAD{P^ + }\) Which of the following reaction occurs?
1 Oxidation, Reduction
2 Reduction, Reduction
3 Reduction, Electrolysis
4 Reduction, Oxidation
Explanation:
I. Reduction II. Oxidation (loss of \({H^ + }\))
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337041
How many turns of Calvin cycle produces one molecule of glucose?
1 Eight
2 Six
3 Three
4 One
Explanation:
To make one molecule of glucose 6 turns of the Calvin cycle are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337042
ATP and NADPH produced in light reaction are used immediately for
1 Synthesis of sugar in dark phase
2 Synthesis of sugar in biosynthetic phase
3 Reduction of carbon dioxide
4 All of them
Explanation:
ATP and NADPH formed in light reactions are used to drive the processes leading to the synthesis of food, more accurately, sugars in dark/biosynthetic phase. This is carried out by Calvin cycle where the fixation of C\(C{O_2}\) occurs.
337039
To make 100 molecules of glucose, how many molecules of ATP & NADPH are required?
1 1800 and 1200 respectively.
2 1200 and 1800 respectively.
3 1800 and 600 respectively.
4 200 and 600 respectively.
Explanation:
18 ATP and 12 NADPH molecules will be required to make one molecule of glucose through the Calvin Pathways. Therefore to make 100 molecules of glucose 1800 ATP and 1200 NADPH molecules are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337040
During photosynthesis I. PGA is changed into phosphologlyceraldehyde II. NADPH is converted to \(NAD{P^ + }\) Which of the following reaction occurs?
1 Oxidation, Reduction
2 Reduction, Reduction
3 Reduction, Electrolysis
4 Reduction, Oxidation
Explanation:
I. Reduction II. Oxidation (loss of \({H^ + }\))
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337041
How many turns of Calvin cycle produces one molecule of glucose?
1 Eight
2 Six
3 Three
4 One
Explanation:
To make one molecule of glucose 6 turns of the Calvin cycle are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337042
ATP and NADPH produced in light reaction are used immediately for
1 Synthesis of sugar in dark phase
2 Synthesis of sugar in biosynthetic phase
3 Reduction of carbon dioxide
4 All of them
Explanation:
ATP and NADPH formed in light reactions are used to drive the processes leading to the synthesis of food, more accurately, sugars in dark/biosynthetic phase. This is carried out by Calvin cycle where the fixation of C\(C{O_2}\) occurs.
337039
To make 100 molecules of glucose, how many molecules of ATP & NADPH are required?
1 1800 and 1200 respectively.
2 1200 and 1800 respectively.
3 1800 and 600 respectively.
4 200 and 600 respectively.
Explanation:
18 ATP and 12 NADPH molecules will be required to make one molecule of glucose through the Calvin Pathways. Therefore to make 100 molecules of glucose 1800 ATP and 1200 NADPH molecules are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337040
During photosynthesis I. PGA is changed into phosphologlyceraldehyde II. NADPH is converted to \(NAD{P^ + }\) Which of the following reaction occurs?
1 Oxidation, Reduction
2 Reduction, Reduction
3 Reduction, Electrolysis
4 Reduction, Oxidation
Explanation:
I. Reduction II. Oxidation (loss of \({H^ + }\))
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337041
How many turns of Calvin cycle produces one molecule of glucose?
1 Eight
2 Six
3 Three
4 One
Explanation:
To make one molecule of glucose 6 turns of the Calvin cycle are required.
BIOXI13: PHOTOSYNTHESIS IN HIGHER PLANTS
337042
ATP and NADPH produced in light reaction are used immediately for
1 Synthesis of sugar in dark phase
2 Synthesis of sugar in biosynthetic phase
3 Reduction of carbon dioxide
4 All of them
Explanation:
ATP and NADPH formed in light reactions are used to drive the processes leading to the synthesis of food, more accurately, sugars in dark/biosynthetic phase. This is carried out by Calvin cycle where the fixation of C\(C{O_2}\) occurs.
