285163
How many ATP molecules can be produced through oxidative phosphorylation of $2\text{NAD}{{\text{H}}_{2}}$ and $3\text{FAD}{{\text{H}}_{2}}$ ?
1 15
2 24
3 6
4 12
Explanation:
(d) Oxidation of molecule of NADH gives rise to 3 molecules of ATP, while that of one molecule of FADH 2 produces 2 molecules of ATP. Therefore $2\text{NAD}{{\text{H}}_{2}}=6$ ATP molecules
3 FADH $_{2}=6$ ATP molecules
Total $=12$ ATP molecules
Respiration in Plants
285164
The main purpose of electron transport chain is to: NCERT page-233 / N-160
1 cycle$\text{NADH}+{{\text{H}}^{+}}$back to $\text{NA}{{\text{D}}^{+}}$
2 use the intermediates from TCA cycle
3 breakdown pyruvate
4 all of the above
Explanation:
(a) The electron transport chain is a process in which the NADH and FADH $_{2}$ produced during glycolysis, b-oxidation, and other catabolic processes are oxidized with a release of energy in the form of ATP. The main purpose of electron transport chain is to cycle NADH + ${{\text{H}}^{+}}$back to NAD+.
285163
How many ATP molecules can be produced through oxidative phosphorylation of $2\text{NAD}{{\text{H}}_{2}}$ and $3\text{FAD}{{\text{H}}_{2}}$ ?
1 15
2 24
3 6
4 12
Explanation:
(d) Oxidation of molecule of NADH gives rise to 3 molecules of ATP, while that of one molecule of FADH 2 produces 2 molecules of ATP. Therefore $2\text{NAD}{{\text{H}}_{2}}=6$ ATP molecules
3 FADH $_{2}=6$ ATP molecules
Total $=12$ ATP molecules
Respiration in Plants
285164
The main purpose of electron transport chain is to: NCERT page-233 / N-160
1 cycle$\text{NADH}+{{\text{H}}^{+}}$back to $\text{NA}{{\text{D}}^{+}}$
2 use the intermediates from TCA cycle
3 breakdown pyruvate
4 all of the above
Explanation:
(a) The electron transport chain is a process in which the NADH and FADH $_{2}$ produced during glycolysis, b-oxidation, and other catabolic processes are oxidized with a release of energy in the form of ATP. The main purpose of electron transport chain is to cycle NADH + ${{\text{H}}^{+}}$back to NAD+.
285163
How many ATP molecules can be produced through oxidative phosphorylation of $2\text{NAD}{{\text{H}}_{2}}$ and $3\text{FAD}{{\text{H}}_{2}}$ ?
1 15
2 24
3 6
4 12
Explanation:
(d) Oxidation of molecule of NADH gives rise to 3 molecules of ATP, while that of one molecule of FADH 2 produces 2 molecules of ATP. Therefore $2\text{NAD}{{\text{H}}_{2}}=6$ ATP molecules
3 FADH $_{2}=6$ ATP molecules
Total $=12$ ATP molecules
Respiration in Plants
285164
The main purpose of electron transport chain is to: NCERT page-233 / N-160
1 cycle$\text{NADH}+{{\text{H}}^{+}}$back to $\text{NA}{{\text{D}}^{+}}$
2 use the intermediates from TCA cycle
3 breakdown pyruvate
4 all of the above
Explanation:
(a) The electron transport chain is a process in which the NADH and FADH $_{2}$ produced during glycolysis, b-oxidation, and other catabolic processes are oxidized with a release of energy in the form of ATP. The main purpose of electron transport chain is to cycle NADH + ${{\text{H}}^{+}}$back to NAD+.