酵母半乳糖遗传开关的表观遗传学。

Epigenetics of the yeast galactose genetic switch.

机构信息

Laboratory of Molecular Genetics, School of Biosciences and Bioengineering, Indian Institute of Technology Bombay, Mumbai 400 076, India.

出版信息

J Biosci. 2009 Oct;34(4):513-22. doi: 10.1007/s12038-009-0070-y.

DOI:10.1007/s12038-009-0070-y

PMID:19920337

Abstract

The transcriptional activation of enzymes involved in galactose utilization (GAL genes) in Saccharomyces cerevisiae is regulated by a complex interplay between three regulatory proteins encoded by GAL4 (transcriptional activator), GAL3 (signal transducer) and GAL80 (repressor). The relative concentrations of the signal transducer and the repressor are maintained by autoregulation. Cells disabled for autoregulation exhibit phenotypes distinctly different from that of the wild type cells, enabling us to explore the biological significance of autoregulation. The redundancy in signal transduction due to the presence of GAL1 (alternate signal transducer) also makes it a suitable model to understand the phenomenon of epigenetics. In this article we review some of the recent attempts made to understand the importance of epigenetics in the establishment of cellular and transcriptional memory.

摘要

在酿酒酵母中，参与半乳糖利用的酶的转录激活（GAL 基因）受到三种由 GAL4（转录激活因子）、GAL3（信号转导蛋白）和 GAL80（抑制因子）编码的调节蛋白之间复杂的相互作用调控。信号转导蛋白和抑制因子的相对浓度通过自身调控来维持。自身调控功能丧失的细胞表现出与野生型细胞明显不同的表型，这使我们能够探索自身调控的生物学意义。由于存在 GAL1（替代信号转导蛋白），信号转导中的冗余性也使其成为理解表观遗传现象的合适模型。本文综述了一些最近的尝试，以了解表观遗传在建立细胞和转录记忆中的重要性。

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酵母半乳糖遗传开关的表观遗传学。

Epigenetics of the yeast galactose genetic switch.

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