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HMGN5/NSBP1:一种影响染色质结构与功能的HMGN蛋白家族新成员。

HMGN5/NSBP1: a new member of the HMGN protein family that affects chromatin structure and function.

作者信息

Rochman Mark, Malicet Cedric, Bustin Michael

机构信息

Protein Section, Laboratory of Metabolism, Center for Cancer Research, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Biochim Biophys Acta. 2010 Jan-Feb;1799(1-2):86-92. doi: 10.1016/j.bbagrm.2009.09.012.

DOI:10.1016/j.bbagrm.2009.09.012
PMID:20123071
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2818475/
Abstract

The dynamic nature of the chromatin fiber provides the structural and functional flexibility required for the accurate transcriptional responses to various stimuli. In living cells, structural proteins such as the linker histone H1 and the high mobility group (HMG) proteins continuously modulate the local and global architecture of the chromatin fiber and affect the binding of regulatory factors to their nucleosomal targets. HMGN proteins specifically bind to the nucleosome core particle through a highly conserved "nucleosomal binding domain" (NBD) and reduce chromatin compaction. HMGN5 (NSBP1), a new member of the HMGN protein family, is ubiquitously expressed in mouse and human tissues. Similar to other HMGNs, HMGN5 is a nuclear protein which binds to nucleosomes via NBD, unfolds chromatin, and affects transcription. This protein remains mainly uncharacterized and its biological function is unknown. In this review, we describe the structure of the HMGN5 gene and the known properties of the HMGN5 protein. We present recent findings related to the expression pattern of the protein during development, the mechanism of HMGN5 action on chromatin, and discuss the possible role of HMGN5 in pathological and physiological processes.

摘要

染色质纤维的动态特性为对各种刺激作出精确转录反应提供了所需的结构和功能灵活性。在活细胞中,诸如连接组蛋白H1和高迁移率族(HMG)蛋白等结构蛋白不断调节染色质纤维的局部和整体结构,并影响调节因子与其核小体靶标的结合。HMGN蛋白通过高度保守的“核小体结合结构域”(NBD)特异性结合核小体核心颗粒,并降低染色质压缩程度。HMGN5(NSBP1)是HMGN蛋白家族的新成员,在小鼠和人类组织中广泛表达。与其他HMGN蛋白相似,HMGN5是一种核蛋白,它通过NBD与核小体结合,使染色质展开,并影响转录。这种蛋白的主要特性仍未明确,其生物学功能也尚不清楚。在本综述中,我们描述了HMGN5基因的结构以及HMGN5蛋白的已知特性。我们介绍了与该蛋白在发育过程中的表达模式、HMGN5对染色质的作用机制相关的最新研究发现,并讨论了HMGN5在病理和生理过程中的可能作用。

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本文引用的文献

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The interaction of NSBP1/HMGN5 with nucleosomes in euchromatin counteracts linker histone-mediated chromatin compaction and modulates transcription.
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