丛枝状异水霉二倍体生命周期中的蛋白质和核糖核酸合成。
Protein and ribonucleic acid synthesis during the diploid life cycle of Allomyces arbuscula.
作者信息
Burke D J, Seale T W, McCarthy B J
出版信息
J Bacteriol. 1972 Jun;110(3):1065-72. doi: 10.1128/jb.110.3.1065-1072.1972.
Abstract
The diploid life cycle of Allomyces arbuscula may be divided into four parts: spore induction, germination, vegetative growth, and mitosporangium formation. Spore induction, germination, and mitosporangium formation are insensitive to inhibition of actinomycin D, probably indicating that stable, pre-existing messenger ribonucleic acid (RNA) is responsible for these developmental events. Protein synthesis is necessary during the entire life cycle except for cyst formation. A system for obtaining synchronous germination of mitospores is described. During germination there is a characteristic increase in the rate of synthesis of RNA and protein although none of the other morphogenetic changes occurring during the life cycle are necessarily accompanied by an appreciable change in the rate of macromolecular synthesis.
摘要
丛枝异水霉的二倍体生命周期可分为四个部分
孢子诱导、萌发、营养生长和有丝分裂孢子囊形成。孢子诱导、萌发和有丝分裂孢子囊形成对放线菌素D的抑制不敏感,这可能表明稳定的、预先存在的信使核糖核酸(RNA)负责这些发育事件。除了形成孢囊外,蛋白质合成在整个生命周期中都是必需的。本文描述了一种获得有丝分裂孢子同步萌发的系统。在萌发过程中,RNA和蛋白质的合成速率有显著增加,尽管生命周期中发生的其他形态发生变化不一定伴随着大分子合成速率的明显变化。
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