High School

___ is reduced using ___ to form G3P. One molecule of ___ leaves the cycle as a final product, while the other five molecules continue through the Calvin cycle. The five molecules go through a series of reactions to become ___, which is then used to fix more ___.

A) PGA, NADPH, G3P, glucose, RuBP
B) G3P, NADPH, RuBP, glucose, PGA
C) PGA, ATP, RuBP, glucose, G3P
D) G3P, ATP, PGA, glucose, RuBP

Answer :

Final answer:

The process described is the Calvin cycle in which PGA is reduced using NADPH to form G3P, which leaves the cycle to form glucose. The remaining PGA molecules become RuBP, preparing the system for more carbon fixation.

Explanation:

The correct answer to the question is A) PGA, NADPH, G3P, glucose, RuBP. In this biological process known as the Calvin cycle, PGA is reduced using NADPH to form G3P. One molecule of G3P leaves the cycle and contributes to the formation of the carbohydrate molecule, usually glucose. The remaining PGA molecules undergo a series of reactions to become RuBP with the help of ATP, preparing the system for more carbon fixation. The Calvin cycle repeats multiple times in order to generate enough carbon to form glucose.

Learn more about Calvin Cycle here:

https://brainly.com/question/40236880

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