降解元件与短寿命转录因子的辅因子结合位点重合。

Cellular logistics Pub Date : 2016-03-08 eCollection Date: 2016-01-01 DOI:10.1080/21592799.2016.1157664

Christopher M Hickey

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引用次数: 8

摘要

转录因子对基因表达的精细控制是所有生命王国的共同特征。在真核生物中，转录因子的丰度和活性通常通过泛素-蛋白酶体系统(UPS)的靶向蛋白水解来调节。酵母MATα2 (α2)细胞类型调节剂长期以来被认为是ups依赖性转录因子降解的模型。α2的蛋白水解是复杂的:它涉及至少2个泛素化途径，α2的多个区域影响其降解。这种复杂性也存在于其他UPS衬底的降解中。在这里，我回顾了α2的降解，最值得注意的是我们最近在α2中发现了两个新的降解元件，它们重叠了辅抑制因子结合位点。我讨论了这些发现的可能含义，并考虑α2蛋白水解的原理如何与其他UPS底物的降解相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Degradation elements coincide with cofactor binding sites in a short-lived transcription factor.

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Degradation elements coincide with cofactor binding sites in a short-lived transcription factor.

Elaborate control of gene expression by transcription factors is common to all kingdoms of life. In eukaryotes, transcription factor abundance and activity are often regulated by targeted proteolysis via the ubiquitin-proteasome system (UPS). The yeast MATα2 (α2) cell type regulator has long served as a model for UPS-dependent transcription factor degradation. Proteolysis of α2 is complex: it involves at least 2 ubiquitylation pathways and multiple regions of α2 affect its degradation. Such complexity also exists for the degradation of other UPS substrates. Here I review α2 degradation, most notably our recent identification of 2 novel degradation elements within α2 that overlap corepressor binding sites. I discuss possible implications of these findings and consider how principles of α2 proteolysis may be relevant to the degradation of other UPS substrates.

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Cellular logistics

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