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福斯丰-S对阿拉斯加豌豆核酸代谢的影响

Effects of Phosfon-S on Nucleic Acid Metabolism in Pisum sativum Alaska.

作者信息

Brook J, West S H, Anthony D S

机构信息

University of Florida, Gainesville, Florida 32601.

出版信息

Plant Physiol. 1967 Jun;42(6):785-90. doi: 10.1104/pp.42.6.785.

DOI:10.1104/pp.42.6.785

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1086622/

Abstract

Phosfon-S, a substance which inhibits stem elongation, alters nucleic acid metabolism in Pisum sativum Alaska. Methylated albumin kieselguhr (MAK) columns were used to fractionate (32)P-labeled nucleic acids. Phosfon-S treatment of the plants resulted in a decrease in soluble RNA and an increase in ribosomal RNA. Specific activities of the various nucleic acid fractions were lower as a result of treatment. The nucleic acids from treated tissues were more resistant to RNase degradation, and endogenous RNase activity was lower in treated tissues. When RNase treated nucleic acids were fractionated on MAK columns, the DNA-RNA fractions from treated plants had a higher specific activity than that of the control, which was not true before nuclease treatment. Spectrophotometric examination of this fraction revealed a difference in absorption spectra, possibly indicating a Phosfon-S nucleic acid complex. It is suggested that these alterations in nucleic acid metabolism could in turn alter a wide variety of metabolic processes, resulting in retarded growth.

摘要

福斯丰 - S是一种抑制茎伸长的物质，它会改变阿拉斯加豌豆的核酸代谢。使用甲基化白蛋白硅藻土（MAK）柱对用（32）P标记的核酸进行分级分离。用福斯丰 - S处理植物导致可溶性RNA减少，核糖体RNA增加。处理后各种核酸级分的比活性降低。处理组织中的核酸对核糖核酸酶降解更具抗性，并且处理组织中的内源性核糖核酸酶活性较低。当用核糖核酸酶处理的核酸在MAK柱上分级分离时，处理植物的DNA - RNA级分比对照具有更高的比活性，而在核酸酶处理之前并非如此。对该级分的分光光度检查揭示了吸收光谱的差异，这可能表明存在福斯丰 - S核酸复合物。有人认为，核酸代谢的这些改变反过来可能会改变多种代谢过程，从而导致生长迟缓。