Which one of the following is not true regarding the release of energy during atp synthesis

\( \newcommand\) • • • • • • • • Cells couple the exergonic reaction of ATP hydrolysis with endergonic reactions to harness the energy within the bonds of ATP. ATP: Adenosine Triphosphate Adenosine triphosphate (ATP) is the energy currency for cellular processes. ATP provides the energy for both energy-consuming endergonic reactions and energy-releasing exergonic reactions, which require a small input of activation energy. When the chemical bonds within ATP are broken, energy is released and can be harnessed for cellular work. The more bonds in a molecule, the more potential energy it contains. Because the bond in ATP is so easily broken and reformed, ATP is like a rechargeable battery that powers cellular process ranging from DNA replication to protein synthesis. Molecular Structure Adenosine triphosphate (ATP) is comprised of the molecule adenosine bound to three phosphate groups. Adenosine is a nucleoside consisting of the nitrogenous base adenine and the five-carbon sugar ribose. The three phosphate groups, in order of closest to furthest from the ribose sugar, are labeled alpha, beta, and gamma. Together, these chemical groups constitute an energy powerhouse. The two bonds between the phosphates are equal high-energy bonds (phosphoanhydride bonds) that, when broken, release sufficient energy to power a variety of cellular reactions and processes. The bond between the beta and gamma phosphate is considered “high-energy” because when the bond breaks, the products [adeno...

Which one of the following is not true regarding the release of energy during ATP synthesis through chemiosmosis? It involves : (1) Breakdown of electron gradient (2) Movement of protons across the membrane to the stroma (3) Reduction of NADP to NADPH, on the stroma side of the membrane (4) Breakdown of proton gradient Categories • • (31.9k) • (8.8k) • (2.8k) • (100) • (91) • (125) • (8) • (8) • (6) • (3) • (8) • (328) • (9) • (3) • (2) • (6) • (5) • (2) • (2) • (5) • (3) • (3) • (2) • (5) • (1) • (5) • (8) • (6) • (3) • (10) • (9) • (6) • (6) • (1) • (3) • (3) • (2) • (0) • (4) • (1) • (1) • (3.5k) • (1.9k) • (764k) • (248k) • (2.9k) • (5.2k) • (664) • (121k) • (72.1k) • (3.8k) • (19.6k) • (1.4k) • (14.2k) • (12.5k) • (9.3k) • (7.7k) • (3.9k) • (6.7k) • (63.8k) • (26.6k) • (23.7k) • (14.6k) • (25.7k) • (530) • (84) • (766) • (49.1k) • (63.8k) • (1.8k) • (59.3k) • (24.5k)

Which one of the following is not true regarding the release of energy during ATP synthesis through chemiosmosis? It involves: 1. Reduction of NADP to NADPH2 on the stroma side of the membrane 2. Breakdown of proton gradient 3. Breakdown of electron gradient 4. Movement of protons across the membrane to the stroma Photosynthesis in Higher Plants Botany NEET Practice Questions, MCQs, Past Year Questions (PYQs), NCERT Questions, Question Bank, Class 11 and Class 12 Questions, and PDF solved with answers Which one of the following is not true regarding the release of energy during ATP synthesis through chemiosmosis? It involves: 1. Reduction of NADP to NADPH 2 on the stroma side of the membrane 2. Breakdown of proton gradient 3. Breakdown of electron gradient 4. Movement of protons across the membrane to the stroma Given below are two statements: Statement I :The primary \(CO_2\)acceptor in \(C_4\)plants is phosphoenolpyruvate and is found in the mesophyll cells Statement II : Mesophyll cells in \(C_4\)plants lack RuBisCo enzyme. In the light of the above statements, choose the correct answer from the options given below : 1. Statement I is incorrect but statement II is correct 2. Both statement I and Statement II are correct 3. Both statement I and Statement II are incorrect 4. Statement I is correct but statement II is incorrect What is the role of large bundle sheath cells found around the vascular bundles in C 4 plants ? 1. To protect the vascular tissue from high lightin...

Which one of the following is not true regarding the release of energy during ATP synthesis through chemiosmosis? It involves: 1. Reduction of NADP to NADPH2 on the stroma side of the membrane 2. Breakdown of proton gradient 3. Breakdown of electron gradient 4. Movement of protons across the membrane to the stroma Photosynthesis in Higher Plants Botany NEET Practice Questions, MCQs, Past Year Questions (PYQs), NCERT Questions, Question Bank, Class 11 and Class 12 Questions, and PDF solved with answers Which one of the following is not true regarding the release of energy during ATP synthesis through chemiosmosis? It involves: 1. Reduction of NADP to NADPH 2 on the stroma side of the membrane 2. Breakdown of proton gradient 3. Breakdown of electron gradient 4. Movement of protons across the membrane to the stroma Given below are two statements: Statement I :The primary \(CO_2\)acceptor in \(C_4\)plants is phosphoenolpyruvate and is found in the mesophyll cells Statement II : Mesophyll cells in \(C_4\)plants lack RuBisCo enzyme. In the light of the above statements, choose the correct answer from the options given below : 1. Statement I is incorrect but statement II is correct 2. Both statement I and Statement II are correct 3. Both statement I and Statement II are incorrect 4. Statement I is correct but statement II is incorrect What is the role of large bundle sheath cells found around the vascular bundles in C 4 plants ? 1. To protect the vascular tissue from high lightin...

Which one of the following is not true regarding the release of energy during ATP synthesis through chemiosmosis? It involves : (1) Breakdown of electron gradient (2) Movement of protons across the membrane to the stroma (3) Reduction of NADP to NADPH, on the stroma side of the membrane (4) Breakdown of proton gradient Categories • • (31.9k) • (8.8k) • (2.8k) • (100) • (91) • (125) • (8) • (8) • (6) • (3) • (8) • (328) • (9) • (3) • (2) • (6) • (5) • (2) • (2) • (5) • (3) • (3) • (2) • (5) • (1) • (5) • (8) • (6) • (3) • (10) • (9) • (6) • (6) • (1) • (3) • (3) • (2) • (0) • (4) • (1) • (1) • (3.5k) • (1.9k) • (764k) • (248k) • (2.9k) • (5.2k) • (664) • (121k) • (72.1k) • (3.8k) • (19.6k) • (1.4k) • (14.2k) • (12.5k) • (9.3k) • (7.7k) • (3.9k) • (6.7k) • (63.8k) • (26.6k) • (23.7k) • (14.6k) • (25.7k) • (530) • (84) • (766) • (49.1k) • (63.8k) • (1.8k) • (59.3k) • (24.5k)

\( \newcommand\) • • • • • • • • Cells couple the exergonic reaction of ATP hydrolysis with endergonic reactions to harness the energy within the bonds of ATP. ATP: Adenosine Triphosphate Adenosine triphosphate (ATP) is the energy currency for cellular processes. ATP provides the energy for both energy-consuming endergonic reactions and energy-releasing exergonic reactions, which require a small input of activation energy. When the chemical bonds within ATP are broken, energy is released and can be harnessed for cellular work. The more bonds in a molecule, the more potential energy it contains. Because the bond in ATP is so easily broken and reformed, ATP is like a rechargeable battery that powers cellular process ranging from DNA replication to protein synthesis. Molecular Structure Adenosine triphosphate (ATP) is comprised of the molecule adenosine bound to three phosphate groups. Adenosine is a nucleoside consisting of the nitrogenous base adenine and the five-carbon sugar ribose. The three phosphate groups, in order of closest to furthest from the ribose sugar, are labeled alpha, beta, and gamma. Together, these chemical groups constitute an energy powerhouse. The two bonds between the phosphates are equal high-energy bonds (phosphoanhydride bonds) that, when broken, release sufficient energy to power a variety of cellular reactions and processes. The bond between the beta and gamma phosphate is considered “high-energy” because when the bond breaks, the products [adeno...