1. | 2, 4-D | 2. | GA3 |
3. | Kinetin | 4. | Ethylene |
1. | Senescence | 2. | Differentiation |
3. | Dedifferentiation | 4. | Development |
1. | Abscisic Acid | 2. | Indole-3-butyric Acid |
3. | Gibberellic Acid | 4. | Zeatin |
1. | Phototropism | 2. | Root initiation |
3. | Gravitropism | 4. | Apical Dominance |
List - I | List - II | ||
(A) | Auxin | (I) | Promotes female flower formation in cucumber |
(B) | Gibberellin | (II) | Overcoming apical dominance |
(C) | Cytokinin | (III) | Increase in the length of grape stalks |
(D) | Ethylene | (IV) | Promotes flowering in pineapple |
Options: | (A) | (B) | (C) | (D) |
1. | II | I | IV | III |
2. | IV | III | II | I |
3. | I | III | IV | II |
4. | III | II | I | IV |
1. | Phase of cell elongation of plant cells is characterized by increased vacuolation. |
2. | Cells in the meristematic phase of growth exhibit abundant plasmodesmatal connections |
3. | Plant growth is generally determinate |
4. | Plant growth is measurable |
1. | kill dicotyledonous weeds in the fields |
2. | speed up the malting process |
3. | promote root growth and root hair formation to increase the absorption surface |
4. | help overcome apical dominance |
Production of Cucumber has increased manifold in recent years. Application of which of the following phytohormones has resulted in this increased yield as the hormone is known to produce female flowers in plants?
1. | Cytokinin | 2. | ABA |
3. | Gibberellin | 4. | Ethylene |
The living differentiated cells, that lost the capacity to divide anymore, can regain the capacity of division under certain conditions. This phenomenon is termed as:
1. | Redifferentiation | 2. | Maturation |
3. | Differentiation | 4. | Dedifferentiation |