337515
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. Oxidation of one molecule of NADH | P. Oxygen |
| B. Oxidation of one molecule of \({\rm{FAD}}{{\rm{H}}_{\rm{2}}}\) | Q. Produces 2 molecules of ATP |
| C. Final hydrogen acceptor in ETS | R. Produces 3 molecules of ATP |
337511
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. During Kreb’s cycle, electron from NADH produced in | P. Depends on the nature of the electron donor |
| B. Ubiquinone | Q. Limited to the terminal stage of aerobic respiration |
| C. Role of oxygen | R. Mitochondrial matrix |
| D. Synthesis of ATP molecules | S. Located in inner mitochondrial membrane |
337552 Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. F₁ particle | P. Forms channel through which proton cross the inner membrane |
| B. F₀ particle | Q. Contains F₁ and F₀ particles and protein Stalk |
| C. ATP synthase | R. Contains site for synthesis of ATP from ADP and Pi |
| D. Chemiosmotic hypothesis | S. Peter Mitchell |
337515
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. Oxidation of one molecule of NADH | P. Oxygen |
| B. Oxidation of one molecule of \({\rm{FAD}}{{\rm{H}}_{\rm{2}}}\) | Q. Produces 2 molecules of ATP |
| C. Final hydrogen acceptor in ETS | R. Produces 3 molecules of ATP |
337511
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. During Kreb’s cycle, electron from NADH produced in | P. Depends on the nature of the electron donor |
| B. Ubiquinone | Q. Limited to the terminal stage of aerobic respiration |
| C. Role of oxygen | R. Mitochondrial matrix |
| D. Synthesis of ATP molecules | S. Located in inner mitochondrial membrane |
337552 Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. F₁ particle | P. Forms channel through which proton cross the inner membrane |
| B. F₀ particle | Q. Contains F₁ and F₀ particles and protein Stalk |
| C. ATP synthase | R. Contains site for synthesis of ATP from ADP and Pi |
| D. Chemiosmotic hypothesis | S. Peter Mitchell |
337515
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. Oxidation of one molecule of NADH | P. Oxygen |
| B. Oxidation of one molecule of \({\rm{FAD}}{{\rm{H}}_{\rm{2}}}\) | Q. Produces 2 molecules of ATP |
| C. Final hydrogen acceptor in ETS | R. Produces 3 molecules of ATP |
337511
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. During Kreb’s cycle, electron from NADH produced in | P. Depends on the nature of the electron donor |
| B. Ubiquinone | Q. Limited to the terminal stage of aerobic respiration |
| C. Role of oxygen | R. Mitochondrial matrix |
| D. Synthesis of ATP molecules | S. Located in inner mitochondrial membrane |
337552 Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. F₁ particle | P. Forms channel through which proton cross the inner membrane |
| B. F₀ particle | Q. Contains F₁ and F₀ particles and protein Stalk |
| C. ATP synthase | R. Contains site for synthesis of ATP from ADP and Pi |
| D. Chemiosmotic hypothesis | S. Peter Mitchell |
337515
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. Oxidation of one molecule of NADH | P. Oxygen |
| B. Oxidation of one molecule of \({\rm{FAD}}{{\rm{H}}_{\rm{2}}}\) | Q. Produces 2 molecules of ATP |
| C. Final hydrogen acceptor in ETS | R. Produces 3 molecules of ATP |
337511
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. During Kreb’s cycle, electron from NADH produced in | P. Depends on the nature of the electron donor |
| B. Ubiquinone | Q. Limited to the terminal stage of aerobic respiration |
| C. Role of oxygen | R. Mitochondrial matrix |
| D. Synthesis of ATP molecules | S. Located in inner mitochondrial membrane |
337552 Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. F₁ particle | P. Forms channel through which proton cross the inner membrane |
| B. F₀ particle | Q. Contains F₁ and F₀ particles and protein Stalk |
| C. ATP synthase | R. Contains site for synthesis of ATP from ADP and Pi |
| D. Chemiosmotic hypothesis | S. Peter Mitchell |
337515
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. Oxidation of one molecule of NADH | P. Oxygen |
| B. Oxidation of one molecule of \({\rm{FAD}}{{\rm{H}}_{\rm{2}}}\) | Q. Produces 2 molecules of ATP |
| C. Final hydrogen acceptor in ETS | R. Produces 3 molecules of ATP |
337511
Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. During Kreb’s cycle, electron from NADH produced in | P. Depends on the nature of the electron donor |
| B. Ubiquinone | Q. Limited to the terminal stage of aerobic respiration |
| C. Role of oxygen | R. Mitochondrial matrix |
| D. Synthesis of ATP molecules | S. Located in inner mitochondrial membrane |
337552 Match the columns I & II and choose the correct option.
| Column I | Column II |
|---|---|
| A. F₁ particle | P. Forms channel through which proton cross the inner membrane |
| B. F₀ particle | Q. Contains F₁ and F₀ particles and protein Stalk |
| C. ATP synthase | R. Contains site for synthesis of ATP from ADP and Pi |
| D. Chemiosmotic hypothesis | S. Peter Mitchell |