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总状毛霉孢子囊孢子萌发形成菌丝管过程中大分子合成的调控

Regulation of macromolecular synthesis during hyphal germ tube emergence from Mucor racemosus sporangiospores.

作者信息

Orlowski M, Sypherd P S

出版信息

J Bacteriol. 1978 Apr;134(1):76-83. doi: 10.1128/jb.134.1.76-83.1978.

Abstract

Protein and RNA syntheses were examined during hyphal germ tube emergence from sporangiospores of a dimorphic phycomycete, Mucor racemosus. Both classes of macromolecules were synthesized immediately upon introduction of the dormant sporangiospores into nutrient medium. The specific rates of synthesis of both protein and RNA accelerated during initial germ tube emergence and reached a maximum when the emergence of new germ tubes ended. The specific rates of synthesis later decreased during further hyphal elongation. The distribution of ribosomes between active polysomes and monosomes and inactive subunits was determined by sucrose density gradient centrifugation, and the rate of amino acid addition to nascent polypeptide chains was calculated throughout the developmental sequence. The results showed that both the percentage of ribosomes active in protein synthesis and the velocity of ribosome movement along the mRNA were continuously adjusted throughout hyphal germ tube development. The free intracellular amino acid pools were measured throughout development. Alanine, glutamate, and aspartate were present at very high concentrations in the dormant spores but were rapidly depleted during hyphal germ tube emergence. The results of these studies are discussed in relation to hyphal germ tube development from yeast cells of Mucor and dormant spores of other fungal species.

摘要

在双态藻状菌总状毛霉的孢子囊孢子形成菌丝芽管的过程中,对蛋白质和RNA合成进行了检测。将休眠的孢子囊孢子接种到营养培养基后,这两类大分子物质就立即开始合成。在最初的芽管形成过程中,蛋白质和RNA的合成速率加快,当新的芽管形成结束时达到最大值。在随后的菌丝伸长过程中,合成速率下降。通过蔗糖密度梯度离心法确定核糖体在活性多核糖体和单核糖体以及无活性亚基之间的分布,并计算整个发育过程中氨基酸添加到新生多肽链上的速率。结果表明,在菌丝芽管发育的整个过程中,参与蛋白质合成的核糖体百分比以及核糖体沿mRNA移动的速度都在不断调整。在整个发育过程中对细胞内游离氨基酸库进行了测定。丙氨酸、谷氨酸和天冬氨酸在休眠孢子中浓度很高,但在菌丝芽管形成过程中迅速耗尽。结合总状毛霉酵母细胞和其他真菌物种休眠孢子的菌丝芽管发育情况,对这些研究结果进行了讨论。

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