The reactions of the Calvin cycle can take place as long as which of the following products of the light dependent reactions are available?
1. | Water and Glucose | 2. | Water and ATP |
3. | Oxygen and Carbon dioxide | 4. | ATP and NADPH |
The factors that can be limiting for the light independent reactions of photosynthesis are:
1. , temperature, and light
2. , light, and water
3. water, temperature, and
4. oxygen, water, and temperature
The absorption spectrum in the given diagram will be of:
1. | Chlorophyll a | 2. | Chlorophyll b |
3. | Carotenoids | 4. | Retinol |
The reactions of the Calvin Cycle occur in:
1. stroma of the chloroplast
2. thylakoid membrane
3. lumen of the thylakoids
4. space between outer and inner membrane of the chloroplast
The wavelengths of light most useful in photosynthesis are:
1. | green and orange | 2. | red and blue |
3. | infrared and yellow | 4. | red and green |
The correct chronological sequence of protein complexes in the thylakoid membrane involved in light reactions is:
1. Photosystem II (PS II), Cytochrome b6f complex, Photosystem I (PS I), and ATP synthase.
2. Photosystem I (PS I), Cytochrome b6f complex, Photosystem II (PS II), and ATP synthase.
3. Photosystem II (PS II), Photosystem I (PS I), Cytochrome b6f complex, and ATP synthase.
4. Photosystem I (PS I), Photosystem II (PS II), Cytochrome b6f complex, and ATP synthase.
The enzymes for synthesis of organic molecules, in autotrophic bacteria, are located:
1. on chloroplast membranes
2. in the cytosol
3. in the nucleoid region
4. along the inner surface of the plasma membrane
Oxygen, during oxygenic photosynthesis, is produced during:
1. cyclic photophosphorylation
2. the light-dependent reactions involving photosystems I and II
3. Calvin cycle
4. the Krebs cycle
The ions comprising the Oxygen Evolving Complex associated with PS II are:
1. | Manganese and Magnesium | 2. | Manganese and Calcium |
3. | Calcium and Iron | 4. | Magnesium and Iron |
In oxygenic photosynthesis, the release of oxygen is a byproduct of:
1. chemiosmosis
2. reducing by FNR
3. splitting the water molecules
4. cyclic photophosphorylation