The Question is from neet-botany photosynthesis-in-higher-plants , and it was created by the author Mr. NARESH KUMAR K

Question

The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that adenosine triphosphate (ATP) is formed because

Mr. NARESH KUMAR K · Accepted Answer

## CORE INFORMATION
✓ **Answer**: [C]
## CONCEPT FRAMEWORK
	**Primary Concept**: Chemiosmotic Coupling Hypothesis
	**Related Topics**: Oxidative Phosphorylation, Electron Transport Chain, ATP Synthase, Proton-Motive Force
	**Prerequisites**: Basic understanding of cellular respiration, mitochondrial structure, and ATP synthesis.
## SOLUTION PATHWAY
**Given Information**:
	* Question focuses on the mechanism of ATP formation in oxidative phosphorylation according to the chemiosmotic coupling hypothesis.
**Method & Steps**:
	1. Recall the core principle of the chemiosmotic coupling hypothesis.
		Reasoning: The hypothesis proposes that a proton gradient (electrochemical gradient) across the inner mitochondrial membrane provides the energy for ATP synthesis.
	2. Evaluate each option against this principle.
		Working: Option A is incorrect because ATP is not formed by high energy bonds in mitochondrial proteins. Option B is incorrect because ADP is not pumped out; protons are pumped out of the matrix. Option D is incorrect because membrane permeability changes are not the primary driving force.
	3. Identify the correct option.
		Result: Option C is the correct answer as it describes the fundamental mechanism of chemiosmosis.
		Verification: The proton gradient is the driving force for ATP synthesis via ATP synthase.
 ## OPTION ANALYSIS
[A] :x: Incorrect because high-energy bonds in mitochondrial proteins is not the mechanism for ATP formation in chemiosmosis.
[B] :x: Incorrect because ADP is not pumped out of the matrix. Protons are pumped into the intermembrane space.
[C] ✓: Correct because a proton gradient (electrochemical gradient) across the inner mitochondrial membrane drives ATP synthesis.
[D] :x: Incorrect because changes in permeability to ADP are not the primary mechanism for ATP formation in chemiosmosis.
 ## LEARNING AIDS
	**Common Mistakes**:
		1. Confusing the direction of proton movement: Protons are pumped from the matrix to the intermembrane space.
		2. Misunderstanding the role of the proton gradient: It’s the potential energy of the gradient that drives ATP synthesis.
	**Quick Tips**:
		1. Remember the key words: 'proton gradient', 'electrochemical gradient', 'ATP synthase'
		2. Visualize the inner mitochondrial membrane and the flow of protons during oxidative phosphorylation.

Mr. NARESH KUMAR K · Answer

High energy bonds are formed in mitochondrial proteins

Mr. NARESH KUMAR K · Answer

ADP is pumped out of the matrix into the intermembrane space

Mr. NARESH KUMAR K · Answer

The correct Option is "A proton gradient forms across the inner membrane "

Mr. NARESH KUMAR K · Answer

There is a change in the permeability of the inner mitochondrial membrane towards adenosine diphosphate (ADP)

NEET Botany Photosynthesis in Higher Plants MCQs

Select Topic

Question Tags

Question Tags

Question Tags

Question Tags

Question Tags

Question Tags

Question Tags

Question Tags

Question Tags

Question Tags

NEET Subjects

Our Bots

Company