D Typical growth curve in plants is sigmoid. - Sigmoid growth curve is shown below-
AIPMT-2015
Photosynthesis in higher plants
238090
The final electron acceptor in pseudocyclic electron transport in chloroplast is
1 $\mathrm{NADP}^{+}$
2 Ferredoxin
3 oxygen
4 NAD
Explanation:
A The non-cyclic electron pathway has distinct steps that the electrons pass through. Water is first photolyzed, and two electrons from this process travel through the electron transport molecules of the cytochrome complex and photosystem I. Which then send it to the NADP, and it serves as the last electron acceptor.
CG PMT-2009
Photosynthesis in higher plants
238082
Which is wrong for cytochrome $P-450$
1 It contains $\mathrm{Fe}$
2 It concern with oxidation
3 It is a pigment
4 It is a coloured cell
Explanation:
D Iron-containing hemoproteins called cytochromes, are crucial to heme groups that are primarily in charge of producing ATP through electron transport,. Therefore, it is inappropriate for cytochrome $\mathrm{P}-450$ is a colored cell.
AIPMT-1998
Photosynthesis in higher plants
238083
Which of the following biomolecules is common to respiration-,mediated breakdown of fats, carbohydrates and proteins?
1 Glucose-6-phosphate
2 Fructose 1,6 bisphosphate
3 Pyruvic acid
4 Acetyl CO-A
Explanation:
D Acetyl CO-A is the common metabolite that arise from respiratory breakdown of carbohydrates, lipid and proteins. Fructose-6-phosphate and glucose 6 phosphate does not arise from fats and proteins. Pyruvic acid may or may not arise from fats and proteins.
D Typical growth curve in plants is sigmoid. - Sigmoid growth curve is shown below-
AIPMT-2015
Photosynthesis in higher plants
238090
The final electron acceptor in pseudocyclic electron transport in chloroplast is
1 $\mathrm{NADP}^{+}$
2 Ferredoxin
3 oxygen
4 NAD
Explanation:
A The non-cyclic electron pathway has distinct steps that the electrons pass through. Water is first photolyzed, and two electrons from this process travel through the electron transport molecules of the cytochrome complex and photosystem I. Which then send it to the NADP, and it serves as the last electron acceptor.
CG PMT-2009
Photosynthesis in higher plants
238082
Which is wrong for cytochrome $P-450$
1 It contains $\mathrm{Fe}$
2 It concern with oxidation
3 It is a pigment
4 It is a coloured cell
Explanation:
D Iron-containing hemoproteins called cytochromes, are crucial to heme groups that are primarily in charge of producing ATP through electron transport,. Therefore, it is inappropriate for cytochrome $\mathrm{P}-450$ is a colored cell.
AIPMT-1998
Photosynthesis in higher plants
238083
Which of the following biomolecules is common to respiration-,mediated breakdown of fats, carbohydrates and proteins?
1 Glucose-6-phosphate
2 Fructose 1,6 bisphosphate
3 Pyruvic acid
4 Acetyl CO-A
Explanation:
D Acetyl CO-A is the common metabolite that arise from respiratory breakdown of carbohydrates, lipid and proteins. Fructose-6-phosphate and glucose 6 phosphate does not arise from fats and proteins. Pyruvic acid may or may not arise from fats and proteins.
D Typical growth curve in plants is sigmoid. - Sigmoid growth curve is shown below-
AIPMT-2015
Photosynthesis in higher plants
238090
The final electron acceptor in pseudocyclic electron transport in chloroplast is
1 $\mathrm{NADP}^{+}$
2 Ferredoxin
3 oxygen
4 NAD
Explanation:
A The non-cyclic electron pathway has distinct steps that the electrons pass through. Water is first photolyzed, and two electrons from this process travel through the electron transport molecules of the cytochrome complex and photosystem I. Which then send it to the NADP, and it serves as the last electron acceptor.
CG PMT-2009
Photosynthesis in higher plants
238082
Which is wrong for cytochrome $P-450$
1 It contains $\mathrm{Fe}$
2 It concern with oxidation
3 It is a pigment
4 It is a coloured cell
Explanation:
D Iron-containing hemoproteins called cytochromes, are crucial to heme groups that are primarily in charge of producing ATP through electron transport,. Therefore, it is inappropriate for cytochrome $\mathrm{P}-450$ is a colored cell.
AIPMT-1998
Photosynthesis in higher plants
238083
Which of the following biomolecules is common to respiration-,mediated breakdown of fats, carbohydrates and proteins?
1 Glucose-6-phosphate
2 Fructose 1,6 bisphosphate
3 Pyruvic acid
4 Acetyl CO-A
Explanation:
D Acetyl CO-A is the common metabolite that arise from respiratory breakdown of carbohydrates, lipid and proteins. Fructose-6-phosphate and glucose 6 phosphate does not arise from fats and proteins. Pyruvic acid may or may not arise from fats and proteins.
D Typical growth curve in plants is sigmoid. - Sigmoid growth curve is shown below-
AIPMT-2015
Photosynthesis in higher plants
238090
The final electron acceptor in pseudocyclic electron transport in chloroplast is
1 $\mathrm{NADP}^{+}$
2 Ferredoxin
3 oxygen
4 NAD
Explanation:
A The non-cyclic electron pathway has distinct steps that the electrons pass through. Water is first photolyzed, and two electrons from this process travel through the electron transport molecules of the cytochrome complex and photosystem I. Which then send it to the NADP, and it serves as the last electron acceptor.
CG PMT-2009
Photosynthesis in higher plants
238082
Which is wrong for cytochrome $P-450$
1 It contains $\mathrm{Fe}$
2 It concern with oxidation
3 It is a pigment
4 It is a coloured cell
Explanation:
D Iron-containing hemoproteins called cytochromes, are crucial to heme groups that are primarily in charge of producing ATP through electron transport,. Therefore, it is inappropriate for cytochrome $\mathrm{P}-450$ is a colored cell.
AIPMT-1998
Photosynthesis in higher plants
238083
Which of the following biomolecules is common to respiration-,mediated breakdown of fats, carbohydrates and proteins?
1 Glucose-6-phosphate
2 Fructose 1,6 bisphosphate
3 Pyruvic acid
4 Acetyl CO-A
Explanation:
D Acetyl CO-A is the common metabolite that arise from respiratory breakdown of carbohydrates, lipid and proteins. Fructose-6-phosphate and glucose 6 phosphate does not arise from fats and proteins. Pyruvic acid may or may not arise from fats and proteins.
