Light Effects on the Nucleic Acids of Excised Cotton Cotyledons
Open Access
- 28 February 1966
- journal article
- research article
- Published by Oxford University Press (OUP) in Plant Physiology
- Vol. 41 (3), 395-404
- https://doi.org/10.1104/pp.41.3.395
Abstract
The effects of light and glucose in the nutrient medium on the nucleic acid metabolism of excised 8-day cotton (Gossypium hirsutum var. Acala 44) cotyledons were determined. The rates of synthesis as affected by light and glucose were determined by brief exposures to C14-labeled orotic acid. The nucleic acids were fractionated by homogenizing in Tris-HCl buffer and centrifuging to obtain soluble and microsomal RNA (20,000 × g supernatant) and a particulate nucleic acid fraction (20,000 × g precipitate) or by extracting in phenol followed by 10% NaCl extraction at 100°. The phenol extract was analyzed by density gradient centrifugation. Light and glucose caused parallel changes in nucleic acid levels of the various fractions, in orotic acid-6-C14 absorption and in rates of synthesis of nucleic acids. Light and glucose appear to enhance binding of the ribosome nucleic acid so that it becomes less extractable in Tris-HCl buffer or phenol. The bound nucleic acids were labeled at a slightly higher rate than the total nucleic acids extracted by Tris-HCl or phenol. However, light treatment for 48 hours promoted a very high labeling rate in the soluble, low molecular weight nucleic acid as shown by density gradient centrifugation of the phenol extractable fraction. It was concluded that a part of the nucleic acid changes were brought about by light acting through the photosynthetic production of carbohydrate. This conclusion was strengthened by the observation that herbicide inhibitors of photosynthesis and limited atmospheric CO2 concentrations partially inhibited the nucleic acid changes. However, glucose did not cause changes in nucleic acid levels as large as those caused by light and changes were observed to occur in light even though the endogenous sugar levels were maintained at a low level by the inhibition of photosynthesis with herbicides. The data indicated that light may produce changes in nucleic acid levels by other mechanisms additional to those regulating the sugar level in the tissue.This publication has 9 references indexed in Scilit:
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