Phototropism is directional growth in which the direction of growth is determined by the direction of the light source. In other words, it is the growth and response to a light stimulus. Phototropism is most often observed in plants, but can also occur in other organisms such as fungi. The cells on the plant that are farthest from the light have a chemical called auxin that reacts when phototropism occurs. This causes the plant to have elongated cells on the farthest side from the light. Phototropism is one of the many plant tropisms or movements which respond to external stimuli. Growth towards a light source is a positive phototropism, while growth away from light is called negative phototropism (or Skototropism). Most plant shoots exhibit positive phototropism, while roots usually exhibit negative phototropism, although gravitropism may play a larger role in root behavior and growth. Some vine shoot tips exhibit negative phototropism, which allows them to grow towards dark, solid objects and climb them.
Phototropism describes the process by which plants respond to the light in their environment. The light-sensing hormone responsible for the curvature of plant shoots towards light is auxin. Upon release from the cells in the apical meristem, auxin collects primarily on the darker side of the stem and stimulates cell elongation. Thus, the cells on the side not directly exposed to light will grow much faster than the opposing side, and the stem will curve towards the light source.
Phototropism in plants such as Arabidopsis thaliana is directed by blue light receptors called phototropins.[1] Other photosensitive receptors in plants include phytochromes that sense red light[2] and cryptochromes that sense blue light.[3] Different organs of the plant may exhibit different phototropic reactions to different wavelengths of light. Stem tips exhibit positive phototropic reactions to blue light, while root tips exhibit negative phototropic reactions to blue light. Both root tips and most stem tips exhibit positive phototropism to red light.
Phototropism is enabled by auxins. Auxins are plant hormones that have many functions. In this respect, auxins are responsible for expelling protons (by activating proton pumps) which decreases pH in the cells on the dark side of the plant. This acidification of the cell wall region activates enzymes known as expansins which break bonds in the cell wall structure, making the cell walls less rigid. In addition, the acidic environment causes disruption of hydrogen bonds in the cellulose that makes up the cell wall. The decrease in cell wall strength causes cells to swell, exerting the mechanical pressure that drives phototropic movement.
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Take two similar plants such as germinated bean, pea or gram seeds, planted in a cardboard box, with a square cut on 1 side. Keep these plants in these conditions for 5 days. Moisten the soil pots regularly. You will observe that the plant kept in cardboard box with a square cut moves in the direction of the light. This shows shoot are positively phototrophic.
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