283749
Most of the biological energy is supplied by mitochondria through:
1 Breaking of proteins
2 Reduction of NADP
3 Breaking of sugar
4 Oxidizing TCA substrate
Explanation:
Exp:D Most of the biological energy is supplied by mitochondria through oxidizing TCA substrate. The entire process of Krebs cycles which is located in the inner membrane of mitochondria is known as mitochondrial matrix. Krebs cycle or TCA cycle is a catabolic oxidation of organic substrates which results in increase of $\mathrm{CO}_{2}$ and $\mathrm{H}_{2} \mathrm{O}$.
AMU - 2008 / VMMC-2008
Respiration in Plants
283750
One turn of Krebs' cycle for the oxidation of 1 mole of sucrose produce how many ATP molecules.
1 12
2 24
3 22
4 11
Explanation:
Exp:A One mole of sucrose/glucose form 12 ATP molecules In sucrose, there will be in all turns of Krebs cycle instead of two as in case of glucose and, therefore total ATP production will be two times more than glucose that is 12 ATP.
CG PMT-2011
Respiration in Plants
283752
The reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is:
1 conversion of pyruvic acid to acetyl Coenzyme-A
2 oxidative decarboxylation of $\alpha$-ketoglutaric acid
3 oxidation of succinic acid
4 cleavage of succinyl Coenzyme-A
Explanation:
Exp:C CThe reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is oxidation of succinic acid.
AP EAMCET-2008
Respiration in Plants
283722
Krebs cycle takes place in
1 cytoplasm
2 chloroplast
3 nucleus
4 mitochondria
Explanation:
Exp:D The Krebs cycle, also known as the citric acid cycle or tricarboxylic acid cycle, takes place in the mitochondria of eukaryotic cells. It is a crucial part of cellular respiration, where energy is generated by breaking down glucose and other molecules to produce ATP.
283749
Most of the biological energy is supplied by mitochondria through:
1 Breaking of proteins
2 Reduction of NADP
3 Breaking of sugar
4 Oxidizing TCA substrate
Explanation:
Exp:D Most of the biological energy is supplied by mitochondria through oxidizing TCA substrate. The entire process of Krebs cycles which is located in the inner membrane of mitochondria is known as mitochondrial matrix. Krebs cycle or TCA cycle is a catabolic oxidation of organic substrates which results in increase of $\mathrm{CO}_{2}$ and $\mathrm{H}_{2} \mathrm{O}$.
AMU - 2008 / VMMC-2008
Respiration in Plants
283750
One turn of Krebs' cycle for the oxidation of 1 mole of sucrose produce how many ATP molecules.
1 12
2 24
3 22
4 11
Explanation:
Exp:A One mole of sucrose/glucose form 12 ATP molecules In sucrose, there will be in all turns of Krebs cycle instead of two as in case of glucose and, therefore total ATP production will be two times more than glucose that is 12 ATP.
CG PMT-2011
Respiration in Plants
283752
The reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is:
1 conversion of pyruvic acid to acetyl Coenzyme-A
2 oxidative decarboxylation of $\alpha$-ketoglutaric acid
3 oxidation of succinic acid
4 cleavage of succinyl Coenzyme-A
Explanation:
Exp:C CThe reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is oxidation of succinic acid.
AP EAMCET-2008
Respiration in Plants
283722
Krebs cycle takes place in
1 cytoplasm
2 chloroplast
3 nucleus
4 mitochondria
Explanation:
Exp:D The Krebs cycle, also known as the citric acid cycle or tricarboxylic acid cycle, takes place in the mitochondria of eukaryotic cells. It is a crucial part of cellular respiration, where energy is generated by breaking down glucose and other molecules to produce ATP.
283749
Most of the biological energy is supplied by mitochondria through:
1 Breaking of proteins
2 Reduction of NADP
3 Breaking of sugar
4 Oxidizing TCA substrate
Explanation:
Exp:D Most of the biological energy is supplied by mitochondria through oxidizing TCA substrate. The entire process of Krebs cycles which is located in the inner membrane of mitochondria is known as mitochondrial matrix. Krebs cycle or TCA cycle is a catabolic oxidation of organic substrates which results in increase of $\mathrm{CO}_{2}$ and $\mathrm{H}_{2} \mathrm{O}$.
AMU - 2008 / VMMC-2008
Respiration in Plants
283750
One turn of Krebs' cycle for the oxidation of 1 mole of sucrose produce how many ATP molecules.
1 12
2 24
3 22
4 11
Explanation:
Exp:A One mole of sucrose/glucose form 12 ATP molecules In sucrose, there will be in all turns of Krebs cycle instead of two as in case of glucose and, therefore total ATP production will be two times more than glucose that is 12 ATP.
CG PMT-2011
Respiration in Plants
283752
The reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is:
1 conversion of pyruvic acid to acetyl Coenzyme-A
2 oxidative decarboxylation of $\alpha$-ketoglutaric acid
3 oxidation of succinic acid
4 cleavage of succinyl Coenzyme-A
Explanation:
Exp:C CThe reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is oxidation of succinic acid.
AP EAMCET-2008
Respiration in Plants
283722
Krebs cycle takes place in
1 cytoplasm
2 chloroplast
3 nucleus
4 mitochondria
Explanation:
Exp:D The Krebs cycle, also known as the citric acid cycle or tricarboxylic acid cycle, takes place in the mitochondria of eukaryotic cells. It is a crucial part of cellular respiration, where energy is generated by breaking down glucose and other molecules to produce ATP.
NEET Test Series from KOTA - 10 Papers In MS WORD
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Respiration in Plants
283749
Most of the biological energy is supplied by mitochondria through:
1 Breaking of proteins
2 Reduction of NADP
3 Breaking of sugar
4 Oxidizing TCA substrate
Explanation:
Exp:D Most of the biological energy is supplied by mitochondria through oxidizing TCA substrate. The entire process of Krebs cycles which is located in the inner membrane of mitochondria is known as mitochondrial matrix. Krebs cycle or TCA cycle is a catabolic oxidation of organic substrates which results in increase of $\mathrm{CO}_{2}$ and $\mathrm{H}_{2} \mathrm{O}$.
AMU - 2008 / VMMC-2008
Respiration in Plants
283750
One turn of Krebs' cycle for the oxidation of 1 mole of sucrose produce how many ATP molecules.
1 12
2 24
3 22
4 11
Explanation:
Exp:A One mole of sucrose/glucose form 12 ATP molecules In sucrose, there will be in all turns of Krebs cycle instead of two as in case of glucose and, therefore total ATP production will be two times more than glucose that is 12 ATP.
CG PMT-2011
Respiration in Plants
283752
The reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is:
1 conversion of pyruvic acid to acetyl Coenzyme-A
2 oxidative decarboxylation of $\alpha$-ketoglutaric acid
3 oxidation of succinic acid
4 cleavage of succinyl Coenzyme-A
Explanation:
Exp:C CThe reaction which is catalyzed by a protein that is not found in the matrix of mitochondria is oxidation of succinic acid.
AP EAMCET-2008
Respiration in Plants
283722
Krebs cycle takes place in
1 cytoplasm
2 chloroplast
3 nucleus
4 mitochondria
Explanation:
Exp:D The Krebs cycle, also known as the citric acid cycle or tricarboxylic acid cycle, takes place in the mitochondria of eukaryotic cells. It is a crucial part of cellular respiration, where energy is generated by breaking down glucose and other molecules to produce ATP.
