The eye of the octopus and the eye of the cat show different patterns of structure, yet they perform a similar function. This is an example of:
1. | Homologous organs that have evolved due to divergent evolution. |
2. | Analogous organs that have evolved due to convergent evolution. |
3. | Analogous organs that have evolved due to divergent evolution. |
4. | Homologous organs that have evolved due to convergent evolution. |
1. | in digesting proteins and carbohydrates |
2. | as energy transferring organelles |
3. | in post-translational modification of proteins and glycosidation of lipids |
4. | in trapping the light and transforming it into chemical energy |
Select the correct match of the digested products in humans given in column-I with their' absorption site and mechanism in column-II.
Column I | Column II | |
1. | Fructose, Na+ | Small intestine, passive absorption |
2. | Glycerol, fatty acids | Duodenum, move as chilomicrons |
3. | Cholesterol, maltose | Large intestine, active absorption |
4. | Glycine, glucose | Small intestine, active absorption |
1. (1)
2. (2)
3. (3)
4. (4)