285115
The common phase between aerobic and anaerobic respiration is called
1 tricarboxylic acid cycle
2 Oxidative phosphorylation
3 Embden, Meyerhof, Parnas cycle (Glycolysis)
4 Fermentation
Explanation:
(c)
NCERT Page-232 / N-155
Respiration in Plants
285116
In which of the following process 4 ATP molecules are produced by per glucose molecule?
1 Glycolysis
2 Krebs cycle
3 Direct oxidation pathway
4 None of the above
Explanation:
(a) 4 ATP molecules during glycalysis.
NCERT Page-229 / N-156
Respiration in Plants
285117
During glycolysis, glucose split into:
1 two pyruvic acid molecules.
2 two coenzyme A molecules.
3 two lactic acid molecules.
4 one lactic acid plus one ethanol molecule.
Explanation:
(a) Glycolysis is a partial breakdown of glucose molecule into two molecules of pyruvic acid. It occurs in cytoplasm and a common phase of aerobic and anaerobic respiration.
NCERT Page-229 / N-156
Respiration in Plants
285118
In glycolysis, there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $NA{{D}^{+}}$, this is when
3-phosphoglyceraldehyde (PGAL) is converted to 1, 3-bisphosphyglycerate (BPGA).
This reaction shows
1 oxidative dehydrogenation
2 oxidative phosphorylation
3 oxidative dehydration
4 oxidation reduction
Explanation:
(a) In glycolysis, we find that there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $\text{NA}{{\text{D}}^{+}}$; this is when 3-phosphoglyceraldehyde (PGAL) is converted to 1 , 3-bisphosphoglycerate (BPGA). Two redox equivalents are removed (in the form of two hydrogen atoms) from PGAL and transferred to a molecule of NAD.
285115
The common phase between aerobic and anaerobic respiration is called
1 tricarboxylic acid cycle
2 Oxidative phosphorylation
3 Embden, Meyerhof, Parnas cycle (Glycolysis)
4 Fermentation
Explanation:
(c)
NCERT Page-232 / N-155
Respiration in Plants
285116
In which of the following process 4 ATP molecules are produced by per glucose molecule?
1 Glycolysis
2 Krebs cycle
3 Direct oxidation pathway
4 None of the above
Explanation:
(a) 4 ATP molecules during glycalysis.
NCERT Page-229 / N-156
Respiration in Plants
285117
During glycolysis, glucose split into:
1 two pyruvic acid molecules.
2 two coenzyme A molecules.
3 two lactic acid molecules.
4 one lactic acid plus one ethanol molecule.
Explanation:
(a) Glycolysis is a partial breakdown of glucose molecule into two molecules of pyruvic acid. It occurs in cytoplasm and a common phase of aerobic and anaerobic respiration.
NCERT Page-229 / N-156
Respiration in Plants
285118
In glycolysis, there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $NA{{D}^{+}}$, this is when
3-phosphoglyceraldehyde (PGAL) is converted to 1, 3-bisphosphyglycerate (BPGA).
This reaction shows
1 oxidative dehydrogenation
2 oxidative phosphorylation
3 oxidative dehydration
4 oxidation reduction
Explanation:
(a) In glycolysis, we find that there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $\text{NA}{{\text{D}}^{+}}$; this is when 3-phosphoglyceraldehyde (PGAL) is converted to 1 , 3-bisphosphoglycerate (BPGA). Two redox equivalents are removed (in the form of two hydrogen atoms) from PGAL and transferred to a molecule of NAD.
285115
The common phase between aerobic and anaerobic respiration is called
1 tricarboxylic acid cycle
2 Oxidative phosphorylation
3 Embden, Meyerhof, Parnas cycle (Glycolysis)
4 Fermentation
Explanation:
(c)
NCERT Page-232 / N-155
Respiration in Plants
285116
In which of the following process 4 ATP molecules are produced by per glucose molecule?
1 Glycolysis
2 Krebs cycle
3 Direct oxidation pathway
4 None of the above
Explanation:
(a) 4 ATP molecules during glycalysis.
NCERT Page-229 / N-156
Respiration in Plants
285117
During glycolysis, glucose split into:
1 two pyruvic acid molecules.
2 two coenzyme A molecules.
3 two lactic acid molecules.
4 one lactic acid plus one ethanol molecule.
Explanation:
(a) Glycolysis is a partial breakdown of glucose molecule into two molecules of pyruvic acid. It occurs in cytoplasm and a common phase of aerobic and anaerobic respiration.
NCERT Page-229 / N-156
Respiration in Plants
285118
In glycolysis, there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $NA{{D}^{+}}$, this is when
3-phosphoglyceraldehyde (PGAL) is converted to 1, 3-bisphosphyglycerate (BPGA).
This reaction shows
1 oxidative dehydrogenation
2 oxidative phosphorylation
3 oxidative dehydration
4 oxidation reduction
Explanation:
(a) In glycolysis, we find that there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $\text{NA}{{\text{D}}^{+}}$; this is when 3-phosphoglyceraldehyde (PGAL) is converted to 1 , 3-bisphosphoglycerate (BPGA). Two redox equivalents are removed (in the form of two hydrogen atoms) from PGAL and transferred to a molecule of NAD.
285115
The common phase between aerobic and anaerobic respiration is called
1 tricarboxylic acid cycle
2 Oxidative phosphorylation
3 Embden, Meyerhof, Parnas cycle (Glycolysis)
4 Fermentation
Explanation:
(c)
NCERT Page-232 / N-155
Respiration in Plants
285116
In which of the following process 4 ATP molecules are produced by per glucose molecule?
1 Glycolysis
2 Krebs cycle
3 Direct oxidation pathway
4 None of the above
Explanation:
(a) 4 ATP molecules during glycalysis.
NCERT Page-229 / N-156
Respiration in Plants
285117
During glycolysis, glucose split into:
1 two pyruvic acid molecules.
2 two coenzyme A molecules.
3 two lactic acid molecules.
4 one lactic acid plus one ethanol molecule.
Explanation:
(a) Glycolysis is a partial breakdown of glucose molecule into two molecules of pyruvic acid. It occurs in cytoplasm and a common phase of aerobic and anaerobic respiration.
NCERT Page-229 / N-156
Respiration in Plants
285118
In glycolysis, there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $NA{{D}^{+}}$, this is when
3-phosphoglyceraldehyde (PGAL) is converted to 1, 3-bisphosphyglycerate (BPGA).
This reaction shows
1 oxidative dehydrogenation
2 oxidative phosphorylation
3 oxidative dehydration
4 oxidation reduction
Explanation:
(a) In glycolysis, we find that there is one step where $\text{NADH}+{{\text{H}}^{+}}$is formed from $\text{NA}{{\text{D}}^{+}}$; this is when 3-phosphoglyceraldehyde (PGAL) is converted to 1 , 3-bisphosphoglycerate (BPGA). Two redox equivalents are removed (in the form of two hydrogen atoms) from PGAL and transferred to a molecule of NAD.
