Question:
For every $CO _{2}$ molecule entering the Calvin cycle, the number of ATP and NADPH required is
For every $CO _{2}$ molecule entering the Calvin cycle, the number of ATP and NADPH required is
Updated On: Jun 14, 2022
- 2 ATP+2 NADPH
- 2 ATP+3 NADPH
- 3 ATP+2 NADPH
- 3 ATP+3 NADPH
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The Correct Option is C
Solution and Explanation
The immediate products of one turn of the Calvin cycle are two glyceraldehyde-$3$ phosphate$ (G_3P)$ molecules, three ADP and two $NADP ^{+}$(ADP and $NADP ^{+}$are regenerated in the light-dependent reactions). Each G3P molecule is composed of three carbons. In order for the Calvin cycle to continue, $R u B P$ (ribulose $1,5$-bisphosphate) must be regenerated. So, $5 / 6$ carbon from the two $G_3P$ molecules are used for this purpose. Therefore, there is only $1$ net carbon produced to play with for each turn. To create 1 surplus $G_3P$, three carbons are required and therefore three turns of the Calvin cycle. To make one glucose molecule (which can be created from two $G_3P$ molecules) would require six turns of the Calvin cycle. Surplus $G_3P$ can also be used to form other carbohydrates such as starch, sucrose and cellulose depending on what the plant needs.
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Concepts Used:
Photosynthesis in Higher Plants
Processes Of Photosynthesis in Higher Plants:
Photosynthesis in higher plants involves the following processes:
- Light Reaction
- Dark Reaction
Light Reaction:
- This phenomenon occurs in the presence of light.
- The pigment absorbs light and produces energy in the form of ATP.
- The process involves- absorption of light, water splitting, the release of oxygen, and formation of ATP and NADPH.
Dark Reaction:
This process occurs in the absence of light in the stroma of the chloroplasts. The following cycles are involved in the process:
- Calvin Cycle (C3 Cycle)
- C4 Cycle (Hatch and Slack Pathway)