1. Xylem
2. Phloem
3. Medullary rays
4. Pith
Phloem
1. Conversion of starch into the tuber
2. Synthesis of food in the leaves, its translocation to the tubers and conversion into starch
3. Synthesis of hexose sugar
4. Formation of sugars and their convertion into starch in the tubers themselves
Synthesis of food in the leaves, its translocation to the tubers and conversion into starch
1. Sunlight is more intense and growing season is longer
2. They can maintain a higher rate growing season is longer
3. They possess chloroplasts only in bundles in bundle scheaths
4. Of all the above
They possess chloroplasts only in bundles in bundle scheaths
1. I-is photosynthesis, II- is representation and B is H2O and oxygen
2. I-is photosynthesis, II- is representation and B is CO2 and H2O
3. I-is photosynthesis, II- is representation and B is CH2O and O2
4. I-is photosynthesis, II- is representation and B is CO2 and water
I-is photosynthesis, II- is representation and B is CH2O and O2
1. One carries electrons to electron transport system and the other carries them to synthetic reactions
2. Only NAD+ production requires niacin in the diet
3. One contains high- energy phosphate bonds and the other does not
4. All the other does not
One carries electrons to electron transport system and the other carries them to synthetic reactions
1. It involves turgor pressure gradient
2. It explains unidirectional flow only
3. It involves permeability throughout the mass
4. Translocation is by mass flow of solutes
It explains unidirectional flow only
1. ADP
2. NADPH2
3. FAD
4. NAD
NADPH2
1. Phosphoglycerate
2. Oxalo succinate
3. Oxaloacetate
4. Dihydroxy acetone phosphate
Oxaloacetate
1. Will show inhibited growth activity
2. Will resume normal growth activity
3. Will not grow at all
4. Will die
Will resume normal growth activity
1. 250
2. 300
3. 2,500
4. 30,000
300