what is the role of cytokinin?
Answers
Answer:
Role of Cytokinins:
1. Cell Division:
Cytokinins are essential for cytokinesis though chromosome doubling can occur in their absence. In the presence of auxin, cytokinins bring about division even in permanent cells. Cell division in callus (unorganised, undifferentiated irregular mass of dividing cells in tissue culture) is found to require both the hormones.
2. Cell Elongation:
Like auxin and gibberellins, cytokinins also cause cell elongation.
3. Morphogenesis:
Both auxin and cytokinins are essential for morphogenesis or differentiation of tissues and organs. Buds develop when cytokinins are in excess while roots are formed when their ratios are reversed (Skoog and Miller, 1957).
4. Differentiation:
Cytokinins induce formation of new leaves, chloroplasts in leaves, lateral shoot formation and adventitious shoot formation. They also bring about lignification and differentiation of inter-fascicular cambium.
5. Senescence (Richmond-Lang Effect):
Cytokinins delay the senescence of leaves and other organs by mobilisation of nutrients.
6. Apical Dominance:
Presence of cytokinin in an area causes preferential movement of nutrients towards it. When applied to lateral buds, they help in their growth despite the presence of apical bud. They thus act antagonistically to auxin which promotes apical dominance.
7. Seed Dormancy:
Like gibberellins, they overcome seed dormancy of various types, including red light requirement of Lettuce and Tobacco seeds.
8. Resistance:
Cytokinins increase resistance to high or low temperature and disease.
9. Phloem Transport:
They help in phloem transport.
10. Accumulation of Salts:
Cytokinins induce accumulation of salts inside the cells.
there are others too... this much can do i guess.
Answer:Plant growth hormone
Explanation:
Cytokinin - Cytokinins (CK) are a class of plant growth substances (phytohormones) that promote cell division, or cytokinesis, in plant roots and shoots. They are involved primarily in cell growth and differentiation, but also affect apical dominance, axillary bud growth, and leaf senescence.