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乳糖阻遏物系统：调控、别构行为及蛋白质折叠的范例

The lactose repressor system: paradigms for regulation, allosteric behavior and protein folding.

作者信息

Wilson C J, Zhan H, Swint-Kruse L, Matthews K S

机构信息

Department of Biochemistry and Cell Biology, Rice University, 6100 Main Street, Houston, Texas 77005, USA.

出版信息

Cell Mol Life Sci. 2007 Jan;64(1):3-16. doi: 10.1007/s00018-006-6296-z.

DOI:10.1007/s00018-006-6296-z

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11136226/

Abstract

In 1961, Jacob and Monod proposed the operon model for gene regulation based on metabolism of lactose in Escherichia coli. This proposal was followed by an explication of allosteric behavior by Monod and colleagues. The operon model rationally depicted how genetic mechanisms can control metabolic events in response to environmental stimuli via coordinated transcription of a set of genes with related function (e.g. metabolism of lactose). The allosteric response found in the lactose repressor and many other proteins has been extended to a variety of cellular signaling pathways in all organisms. These two models have shaped our view of modern molecular biology and captivated the attention of a surprisingly broad range of scientists. More recently, the lactose repressor monomer was used as a model system for experimental and theoretical explorations of protein folding mechanisms. Thus, the lac system continues to advance our molecular understanding of genetic control and the relationship between sequence, structure and function.

摘要

1961年，雅各布和莫诺德基于大肠杆菌中乳糖的代谢提出了基因调控的操纵子模型。随后，莫诺德及其同事对变构行为进行了解释。操纵子模型合理地描述了遗传机制如何通过一组具有相关功能的基因（如乳糖代谢）的协调转录来响应环境刺激，从而控制代谢事件。在乳糖阻遏物和许多其他蛋白质中发现的变构反应已扩展到所有生物体的各种细胞信号通路。这两个模型塑造了我们对现代分子生物学的看法，并吸引了范围惊人广泛的科学家的关注。最近，乳糖阻遏物单体被用作蛋白质折叠机制实验和理论探索的模型系统。因此，乳糖操纵子系统继续推动我们对遗传控制以及序列、结构和功能之间关系的分子理解。