Statement I: | CF1 particle of ATP synthase makes ATP molecules. |
Statement II: | CF1 particle of ATP synthase is embedded in the thylakoid membrane and forms a transmembrane channel that carries out facilitated diffusion of protons across the membrane. |
1. | Both Statement I and Statement II are correct |
2. | Both Statement I and Statement II are incorrect |
3. | Statement I is correct but Statement II is incorrect |
4. | Statement I is incorrect but Statement II is correct |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
1. | Carboxylation → Reduction →Regeneration |
2. | Carboxylation → Regeneration →Reduction |
3. | Regeneration → Reduction → Carboxylation |
4. | Reduction → Regeneration → Carboxylation |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
1. | OAA | 2. | PEP |
3. | PGA | 4. | RuBP |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
1. | 2 carbon ketose sugar | 2. | 2 carbon aldose sugar |
3. | 5 carbon ketose sugar | 4. | 5 carbon aldose sugar |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
1. | Maize | 2. | Sorghum |
3. | Sugarcane | 4. | Wheat |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
a. | They have a special type of leaf anatomy |
b. | They tolerate higher temperature |
c. | They show a response to high light intensities |
d. | They lack a process called photorespiration |
e. | They have greater productivity of biomass |
1. | All except [e] |
2. | [b], [c] and [d] only |
3. | All |
4. | [a], [b], [d] and [e] only |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
I: | The C4 acid OAA is formed in the mesophyll cells. |
II: | Malic acid or aspartic acid are transported to the bundle sheath cells. |
III: | C4 acids are broken down to release carbon dioxide and a 3 carbon molecule in mesophyll cells. |
IV: | The 3 carbon molecule is transported back to the bundle sheath cell where it is converted to PEP again. |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
I: | there is no synthesis of sugars |
II: | there is release of carbon dioxide with the utilization of ATP |
III: | ATP is synthesized but NADPH is not synthesized |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.
Statement I: | In C4 plants, photorespiration does not occur. |
Statement II: | C4 plants do not have RuBisCO in any of their cells. |
1. | Both Statement I and Statement II are correct and Statement II explains Statement I |
2. | Both Statement I and Statement II are correct but Statement II does not explain Statement I |
3. | Statement I is correct but Statement II is incorrect |
4. | Statement I is incorrect but Statement II is correct |
To unlock all the explanations of this course, you need to be enrolled.
To unlock all the explanations of this course, you need to be enrolled.