Question

How many molecules of ATP and NADPH are required information of two molecules of glucose? How many Calvin cycles are required?
A. 36 ATP, 24 NADPH, 12 Calvin Cycles
B. 18, ATP, 12 NADPH, 6 Calvin Cycles
C. 36 ATP, 24 NADPH, 6 Calvin Cycles
D. 24 ATP, 36 NADPH, 12 Calvin Cycles.

Answer 1

For the synthesis of the single glucose molecule, 6 Calvin cycles are vital along with an amount of 18 ATP, 12 NADPH which is absorbed in 6 Calvin cycles. So, calculating the basics we can see that to produce about 2 glucose molecules we need 36 ATP, 24 NADPH, as well as 12 turns of Calvin cycle, are required.

Complete answer:
Adenosine triphosphate referred to as ATP is an organic solvent as well as hydrotrope that delivers energy to drive several procedures in living cells, For instance, muscle reduction, nerve impulse propagation, as well as condensate dissolution, along with chemical synthesis.
NADPH acronym stands for nicotinamide adenine dinucleotide phosphate hydrogen. This molecule plays a significant role in some of the chemical responses that compose the process of photosynthesis in green plants.
The Calvin cycle is a light-independent outcome, biosynthetic stage, dark responses, or can be said as photosynthetic carbon deduction cycle of photosynthesis in green plants. They are the chemical reactions that restore carbon dioxide as well as other compounds into glucose.
Option A is the valid answer according to the question as we need about 36 ATP, 24 NADPH, and 12 Calvin Cycles to produce 2 molecules of glucose.
Option B is not the right amount to produce two molecules of glucose.
Option C is not an accurate answer as they are not the correct amounts to produce two molecules of glucose.
Option D is not considered as the true explanation to the question.

So, the valid answer of the question us Option- A “36 ATP, 24 NADPH, 12 Calvin Cycles”

Note: Glycolysis is the primary of the major metabolic routes of cellular respiration to generate energy in the form of ATP. Across two distinct phases, the six-carbon round of glucose is cleaved into two three-carbon sugars of pyruvate through a sequel of enzymatic responses. The first stage of glycolysis expects energy, while the second phase obtains the conversion to pyruvate as well as produces ATP and NADH for the cell to utilize for energy.