286806
Terminal cytochrome of respiratory chain which donates electrons to oxygen is: ]#
1 cyt. B NCERTPage-233 / N-161
2 cyt. c
3 cyt.
4 cyt. ${{a}_{3}}$
Explanation:
(d) Terminal cytochrome of respiratory chain is cyt ${{a}_{3}}$. cyt ${{a}_{3}}$ posseses two copper centres. It helps in transfer of electrons to oxygen.
RESPIRATION IN PLANTS
286807
In the electron transport system, the final acceptor of electron is:
1 cytochrome b
2 ubiquinone (substance A)
3 oxygen
4 cytochrome ${{\text{a}}_{3}}$
Explanation:
(c) In the electron transport system, the final acceptor of proton is oxygen. Oxygen functions as the terminalacceptor of electrons and is reduced to water along with the hydrogen atoms in mitochondrial matrix. It drives whole process by removing hydrogen from system.
NCERT Page-233 & 234 / N-160
RESPIRATION IN PLANTS
286808
Total number of ATP consumed during Kreb's cycle is
1 0
2 1
3 2
4 3
Explanation:
(a) Krebs' cycle does not consume any ATP molecules. It generates 2ATP/2GTP molecules through substrate level phosphorylation.
NCERT Page-232 / N-159
RESPIRATION IN PLANTS
286809
Electron Transport System (ETS) is present in a eukaryotic cell in the:
1 inner mitochondrial membrane.
2 mitochondrial matrix.
3 Inter-membrane space.
4 cytoplasm.
Explanation:
(a) Electron transport chain is a series of coenzymes and cytochromes that takes part in the passage of electrons from a chemical to its ultimate acceptor. It takes place on the cristae of mitochondria found on the inner surface of the membrane of mitochondria.
NCERT Page-233 / N-160
RESPIRATION IN PLANTS
286810
Acceptor of acetyl Co-A in Kreb's cycle is:
1 malic acid
2 fumaric acid
3 a-keto glutaric acid
4 oxaloacetic acid
Explanation:
(d) Oxaloacetic acid is the acceptor of acetyl $\text{COA}$ in Krebs' cycle.
286806
Terminal cytochrome of respiratory chain which donates electrons to oxygen is: ]#
1 cyt. B NCERTPage-233 / N-161
2 cyt. c
3 cyt.
4 cyt. ${{a}_{3}}$
Explanation:
(d) Terminal cytochrome of respiratory chain is cyt ${{a}_{3}}$. cyt ${{a}_{3}}$ posseses two copper centres. It helps in transfer of electrons to oxygen.
RESPIRATION IN PLANTS
286807
In the electron transport system, the final acceptor of electron is:
1 cytochrome b
2 ubiquinone (substance A)
3 oxygen
4 cytochrome ${{\text{a}}_{3}}$
Explanation:
(c) In the electron transport system, the final acceptor of proton is oxygen. Oxygen functions as the terminalacceptor of electrons and is reduced to water along with the hydrogen atoms in mitochondrial matrix. It drives whole process by removing hydrogen from system.
NCERT Page-233 & 234 / N-160
RESPIRATION IN PLANTS
286808
Total number of ATP consumed during Kreb's cycle is
1 0
2 1
3 2
4 3
Explanation:
(a) Krebs' cycle does not consume any ATP molecules. It generates 2ATP/2GTP molecules through substrate level phosphorylation.
NCERT Page-232 / N-159
RESPIRATION IN PLANTS
286809
Electron Transport System (ETS) is present in a eukaryotic cell in the:
1 inner mitochondrial membrane.
2 mitochondrial matrix.
3 Inter-membrane space.
4 cytoplasm.
Explanation:
(a) Electron transport chain is a series of coenzymes and cytochromes that takes part in the passage of electrons from a chemical to its ultimate acceptor. It takes place on the cristae of mitochondria found on the inner surface of the membrane of mitochondria.
NCERT Page-233 / N-160
RESPIRATION IN PLANTS
286810
Acceptor of acetyl Co-A in Kreb's cycle is:
1 malic acid
2 fumaric acid
3 a-keto glutaric acid
4 oxaloacetic acid
Explanation:
(d) Oxaloacetic acid is the acceptor of acetyl $\text{COA}$ in Krebs' cycle.
286806
Terminal cytochrome of respiratory chain which donates electrons to oxygen is: ]#
1 cyt. B NCERTPage-233 / N-161
2 cyt. c
3 cyt.
4 cyt. ${{a}_{3}}$
Explanation:
(d) Terminal cytochrome of respiratory chain is cyt ${{a}_{3}}$. cyt ${{a}_{3}}$ posseses two copper centres. It helps in transfer of electrons to oxygen.
RESPIRATION IN PLANTS
286807
In the electron transport system, the final acceptor of electron is:
1 cytochrome b
2 ubiquinone (substance A)
3 oxygen
4 cytochrome ${{\text{a}}_{3}}$
Explanation:
(c) In the electron transport system, the final acceptor of proton is oxygen. Oxygen functions as the terminalacceptor of electrons and is reduced to water along with the hydrogen atoms in mitochondrial matrix. It drives whole process by removing hydrogen from system.
NCERT Page-233 & 234 / N-160
RESPIRATION IN PLANTS
286808
Total number of ATP consumed during Kreb's cycle is
1 0
2 1
3 2
4 3
Explanation:
(a) Krebs' cycle does not consume any ATP molecules. It generates 2ATP/2GTP molecules through substrate level phosphorylation.
NCERT Page-232 / N-159
RESPIRATION IN PLANTS
286809
Electron Transport System (ETS) is present in a eukaryotic cell in the:
1 inner mitochondrial membrane.
2 mitochondrial matrix.
3 Inter-membrane space.
4 cytoplasm.
Explanation:
(a) Electron transport chain is a series of coenzymes and cytochromes that takes part in the passage of electrons from a chemical to its ultimate acceptor. It takes place on the cristae of mitochondria found on the inner surface of the membrane of mitochondria.
NCERT Page-233 / N-160
RESPIRATION IN PLANTS
286810
Acceptor of acetyl Co-A in Kreb's cycle is:
1 malic acid
2 fumaric acid
3 a-keto glutaric acid
4 oxaloacetic acid
Explanation:
(d) Oxaloacetic acid is the acceptor of acetyl $\text{COA}$ in Krebs' cycle.
286806
Terminal cytochrome of respiratory chain which donates electrons to oxygen is: ]#
1 cyt. B NCERTPage-233 / N-161
2 cyt. c
3 cyt.
4 cyt. ${{a}_{3}}$
Explanation:
(d) Terminal cytochrome of respiratory chain is cyt ${{a}_{3}}$. cyt ${{a}_{3}}$ posseses two copper centres. It helps in transfer of electrons to oxygen.
RESPIRATION IN PLANTS
286807
In the electron transport system, the final acceptor of electron is:
1 cytochrome b
2 ubiquinone (substance A)
3 oxygen
4 cytochrome ${{\text{a}}_{3}}$
Explanation:
(c) In the electron transport system, the final acceptor of proton is oxygen. Oxygen functions as the terminalacceptor of electrons and is reduced to water along with the hydrogen atoms in mitochondrial matrix. It drives whole process by removing hydrogen from system.
NCERT Page-233 & 234 / N-160
RESPIRATION IN PLANTS
286808
Total number of ATP consumed during Kreb's cycle is
1 0
2 1
3 2
4 3
Explanation:
(a) Krebs' cycle does not consume any ATP molecules. It generates 2ATP/2GTP molecules through substrate level phosphorylation.
NCERT Page-232 / N-159
RESPIRATION IN PLANTS
286809
Electron Transport System (ETS) is present in a eukaryotic cell in the:
1 inner mitochondrial membrane.
2 mitochondrial matrix.
3 Inter-membrane space.
4 cytoplasm.
Explanation:
(a) Electron transport chain is a series of coenzymes and cytochromes that takes part in the passage of electrons from a chemical to its ultimate acceptor. It takes place on the cristae of mitochondria found on the inner surface of the membrane of mitochondria.
NCERT Page-233 / N-160
RESPIRATION IN PLANTS
286810
Acceptor of acetyl Co-A in Kreb's cycle is:
1 malic acid
2 fumaric acid
3 a-keto glutaric acid
4 oxaloacetic acid
Explanation:
(d) Oxaloacetic acid is the acceptor of acetyl $\text{COA}$ in Krebs' cycle.
286806
Terminal cytochrome of respiratory chain which donates electrons to oxygen is: ]#
1 cyt. B NCERTPage-233 / N-161
2 cyt. c
3 cyt.
4 cyt. ${{a}_{3}}$
Explanation:
(d) Terminal cytochrome of respiratory chain is cyt ${{a}_{3}}$. cyt ${{a}_{3}}$ posseses two copper centres. It helps in transfer of electrons to oxygen.
RESPIRATION IN PLANTS
286807
In the electron transport system, the final acceptor of electron is:
1 cytochrome b
2 ubiquinone (substance A)
3 oxygen
4 cytochrome ${{\text{a}}_{3}}$
Explanation:
(c) In the electron transport system, the final acceptor of proton is oxygen. Oxygen functions as the terminalacceptor of electrons and is reduced to water along with the hydrogen atoms in mitochondrial matrix. It drives whole process by removing hydrogen from system.
NCERT Page-233 & 234 / N-160
RESPIRATION IN PLANTS
286808
Total number of ATP consumed during Kreb's cycle is
1 0
2 1
3 2
4 3
Explanation:
(a) Krebs' cycle does not consume any ATP molecules. It generates 2ATP/2GTP molecules through substrate level phosphorylation.
NCERT Page-232 / N-159
RESPIRATION IN PLANTS
286809
Electron Transport System (ETS) is present in a eukaryotic cell in the:
1 inner mitochondrial membrane.
2 mitochondrial matrix.
3 Inter-membrane space.
4 cytoplasm.
Explanation:
(a) Electron transport chain is a series of coenzymes and cytochromes that takes part in the passage of electrons from a chemical to its ultimate acceptor. It takes place on the cristae of mitochondria found on the inner surface of the membrane of mitochondria.
NCERT Page-233 / N-160
RESPIRATION IN PLANTS
286810
Acceptor of acetyl Co-A in Kreb's cycle is:
1 malic acid
2 fumaric acid
3 a-keto glutaric acid
4 oxaloacetic acid
Explanation:
(d) Oxaloacetic acid is the acceptor of acetyl $\text{COA}$ in Krebs' cycle.
