鹅足孢子虫eEF1A基因的信息抑制等位基因、育性和细胞退化。

Molecular & general genetics : MGG Pub Date : 2000-10-01 DOI:10.1007/s004380000337

P Silar, M Rossignol, R Tahar, Z Derhy, A Mazabraud

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引用次数: 5

摘要

在丝状真菌Podospora amserina中，编码翻译伸长因子eEF1A的基因(AS4)中产生了增加UGA终止密码子读通率的突变(信息抑制突变)。结果表明，eEF1A蛋白的净电荷控制着翻译的准确性。对突变株的生理分析表明，一些等位基因显著增加了寿命，而只有一个等位基因显著改变了生育力。这个特殊的等位基因(AS4-56)引起广泛的表型，包括一种新的生长停止现象，它不同于衰老或残疾生长，以前已知的退行性综合征都是由AS4控制的。这些数据强调了eEF1A对细胞生理学施加复杂控制的事实。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Informational suppressor alleles of the eEF1A gene, fertility and cell degeneration in Podospora anserina.

Mutations that increase readthrough at a UGA stop codon (informational suppressor mutations) were created in the gene (AS4) that encodes translation elongation factor eEF1A in the filamentous fungus Podospora amserina. The results strongly suggest that the net charge of the eEF1A protein controls the accuracy of translation. Physiological analysis of the mutant strains shows that some of the alleles dominantly increase life span, while only one drastically modifies fertility. This exceptional allele (AS4-56) causes a wide array of phenotypes, including a new growth cessation phenomenon that is different from Senescence or Crippled Growth, previously known degenerative syndromes that are both controlled by AS4. The data emphasise the fact that eEF1A exerts a complex control over cellular physiology.

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Molecular & general genetics : MGG

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