285165
A major site for synthesis of ATP from ADP and Pi is
1 ${{\text{F}}_{1}}$ headpiece in mitochondria.
2 ${{\text{F}}_{0}}$.
3 ${{\text{F}}_{1}}-{{\text{F}}_{0}}$.
4 mitochondria.
Explanation:
(a) ${{F}_{1}}$ head piece is a peripheral membrane protein complex of mitochondria which is the major site of synthesis of ATP from ADP and Pi.
NCERT Page-234 / N-161
Respiration in Plants
285167
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
285179
Which of the following statement is correct in relation to the ETS?
1 It is present in the mitochondrial matrix.
2 Oxidation of one molecule of NADH gives rise to 2 molecules of ATP, while that of one molecule of FADH$_{2}$ produces 3 molecules of ATP.
3 Oxygen acts as the final hydrogen acceptor.
4 .In respiration, light energy is utilized for the production of proton gradient.
Explanation:
(d)
NCERT Page-232
Respiration in Plants
285181
Chemiosmotic theory of ATP synthesis in the chloroplasts and mitochondria is based on the:
285165
A major site for synthesis of ATP from ADP and Pi is
1 ${{\text{F}}_{1}}$ headpiece in mitochondria.
2 ${{\text{F}}_{0}}$.
3 ${{\text{F}}_{1}}-{{\text{F}}_{0}}$.
4 mitochondria.
Explanation:
(a) ${{F}_{1}}$ head piece is a peripheral membrane protein complex of mitochondria which is the major site of synthesis of ATP from ADP and Pi.
NCERT Page-234 / N-161
Respiration in Plants
285167
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
285179
Which of the following statement is correct in relation to the ETS?
1 It is present in the mitochondrial matrix.
2 Oxidation of one molecule of NADH gives rise to 2 molecules of ATP, while that of one molecule of FADH$_{2}$ produces 3 molecules of ATP.
3 Oxygen acts as the final hydrogen acceptor.
4 .In respiration, light energy is utilized for the production of proton gradient.
Explanation:
(d)
NCERT Page-232
Respiration in Plants
285181
Chemiosmotic theory of ATP synthesis in the chloroplasts and mitochondria is based on the:
285165
A major site for synthesis of ATP from ADP and Pi is
1 ${{\text{F}}_{1}}$ headpiece in mitochondria.
2 ${{\text{F}}_{0}}$.
3 ${{\text{F}}_{1}}-{{\text{F}}_{0}}$.
4 mitochondria.
Explanation:
(a) ${{F}_{1}}$ head piece is a peripheral membrane protein complex of mitochondria which is the major site of synthesis of ATP from ADP and Pi.
NCERT Page-234 / N-161
Respiration in Plants
285167
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
285179
Which of the following statement is correct in relation to the ETS?
1 It is present in the mitochondrial matrix.
2 Oxidation of one molecule of NADH gives rise to 2 molecules of ATP, while that of one molecule of FADH$_{2}$ produces 3 molecules of ATP.
3 Oxygen acts as the final hydrogen acceptor.
4 .In respiration, light energy is utilized for the production of proton gradient.
Explanation:
(d)
NCERT Page-232
Respiration in Plants
285181
Chemiosmotic theory of ATP synthesis in the chloroplasts and mitochondria is based on the:
285165
A major site for synthesis of ATP from ADP and Pi is
1 ${{\text{F}}_{1}}$ headpiece in mitochondria.
2 ${{\text{F}}_{0}}$.
3 ${{\text{F}}_{1}}-{{\text{F}}_{0}}$.
4 mitochondria.
Explanation:
(a) ${{F}_{1}}$ head piece is a peripheral membrane protein complex of mitochondria which is the major site of synthesis of ATP from ADP and Pi.
NCERT Page-234 / N-161
Respiration in Plants
285167
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
285179
Which of the following statement is correct in relation to the ETS?
1 It is present in the mitochondrial matrix.
2 Oxidation of one molecule of NADH gives rise to 2 molecules of ATP, while that of one molecule of FADH$_{2}$ produces 3 molecules of ATP.
3 Oxygen acts as the final hydrogen acceptor.
4 .In respiration, light energy is utilized for the production of proton gradient.
Explanation:
(d)
NCERT Page-232
Respiration in Plants
285181
Chemiosmotic theory of ATP synthesis in the chloroplasts and mitochondria is based on the:
