Prepare for NEET Biology Photosynthesis in Higher Plants with MCQs & PYQs on NEET.GUIDE. Get free practice, previous year questions, and expert guidance to grasp light and dark reactions.
A researcher is studying a C4 plant under controlled conditions. They suddenly increase the oxygen concentration in the environment while maintaining constant light and CO2 levels. Which of the following is the MOST likely immediate consequence?
A significant decrease in the rate of photosynthesis
A slight increase in photorespiration
A significant increase in the rate of photosynthesis
No change in the rate of photosynthesis or photorespiration
In a hypothetical experiment, a scientist genetically modifies a C4 plant to lack PEP carboxylase. Which of the following would be the MOST likely outcome under normal atmospheric conditions?
The plant would switch to CAM photosynthesis.
The plant would exhibit significantly reduced CO2 fixation and increased photorespiration.
CO2 fixation would remain unchanged, but the plant would require more water.
The plant would grow more efficiently due to reduced energy expenditure in the C4 pathway.
In C4 plants, the initial carboxylation reaction occurs in:
Mesophyll cells
Bundle sheath cells
Both mesophyll and bundle sheath cells
Neither mesophyll nor bundle sheath cells
The first stable product of fixation in Sorghum during photosynthesis is:
Oxaloacetic acid
3-phosphoglycerate
Malate or aspartate
Ribulose-1,5-bisphosphate (RuBP)
In the photosynthetic pathway of sugarcane, the primary product of fixation is:
3-phosphoglycerate
Malate
Oxaloacetic acid
Ribulose-1,5-bisphosphate
Which of the following is the first stable compound formed when is fixed in maize, a plant?
Pyruvate
Oxaloacetic acid
Malate
3-phosphoglycerate
In plants like Amaranthus, which exhibit the photosynthetic pathway, what is the initial stable product resulting from fixation?
Oxaloacetic acid
Aspartic acid
Malic acid
3-phosphoglycerate
During the cycle in plants such as crabgrass, what 4-carbon compound is the first stable product of carbon dioxide fixation?
Malate
Aspartate
Pyruvate
Oxaloacetic acid
I. Initial acceptor
II. Extent of photorespiration
III. Enzyme catalysing reaction that fixes
IV. Presence of Calvin cycle
V. Leaf anatomy
Which one does not differ in a and plants?
I and V
Only IV
II and III
Only II
I. Initial acceptor
II. Extent of photorespiration
III. Enzyme catalysing reaction that fixes
IV. Presence of Calvin cycle
V. Leaf anatomy
Which one does not differ in a and plants?
I. Initial acceptor
II. Extent of photorespiration
III. Enzyme catalysing reaction that fixes
IV. Presence of Calvin cycle
