通过靶向蛋白质组学对 H2A 和 H2B 变体进行系统定量分析。

Systematic quantitative analysis of H2A and H2B variants by targeted proteomics.

机构信息

INSERM U1038, CEA, BIG-BGE, Univ. Grenoble Alpes, Grenoble, France.

INSERM U1016, Institut Cochin, CNRS UMR8104, Université Paris Descartes, Sorbonne Paris Cité, Paris, France.

出版信息

Epigenetics Chromatin. 2018 Jan 12;11(1):2. doi: 10.1186/s13072-017-0172-y.

DOI:10.1186/s13072-017-0172-y

PMID:29329550

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5767011/

Abstract

BACKGROUND

Histones organize DNA into chromatin through a variety of processes. Among them, a vast diversity of histone variants can be incorporated into chromatin and finely modulate its organization and functionality. Classically, the study of histone variants has largely relied on antibody-based assays. However, antibodies have a limited efficiency to discriminate between highly similar histone variants.

RESULTS

In this study, we established a mass spectrometry-based analysis to address this challenge. We developed a targeted proteomics method, using selected reaction monitoring or parallel reaction monitoring, to quantify a maximum number of histone variants in a single multiplexed assay, even when histones are present in a crude extract. This strategy was developed on H2A and H2B variants, using 55 peptides corresponding to 25 different histone sequences, among which a few differ by a single amino acid. The methodology was then applied to mouse testis extracts in which almost all histone variants are expressed. It confirmed the abundance profiles of several testis-specific histones during successive stages of spermatogenesis and the existence of predicted H2A.L.1 isoforms. This methodology was also used to explore the over-expression pattern of H2A.L.1 isoforms in a mouse model of male infertility.

CONCLUSIONS

Our results demonstrate that targeted proteomics is a powerful method to quantify highly similar histone variants and isoforms. The developed method can be easily transposed to the study of human histone variants, whose abundance can be deregulated in various diseases.

摘要

背景

组蛋白通过多种过程将 DNA 组织成染色质。在这些过程中，大量不同的组蛋白变体可以被整合到染色质中，并精细地调节其组织和功能。传统上，组蛋白变体的研究主要依赖于基于抗体的检测方法。然而，抗体在区分高度相似的组蛋白变体方面效率有限。

结果

在这项研究中，我们建立了一种基于质谱的分析方法来解决这个问题。我们开发了一种靶向蛋白质组学方法，使用选择反应监测或平行反应监测，在单个多重分析中定量最大数量的组蛋白变体，即使组蛋白存在于粗提物中也是如此。该策略是在 H2A 和 H2B 变体上开发的，使用 55 个对应于 25 种不同组蛋白序列的肽段，其中少数肽段仅相差一个氨基酸。然后将该方法应用于小鼠睾丸提取物中，其中几乎所有的组蛋白变体都有表达。它证实了几种精子发生过程中特有的组蛋白的丰度谱和预测的 H2A.L.1 异构体的存在。该方法还用于探索雄性不育症小鼠模型中 H2A.L.1 异构体的过表达模式。

结论

我们的结果表明，靶向蛋白质组学是一种定量高度相似的组蛋白变体和异构体的强大方法。所开发的方法可以很容易地转移到人类组蛋白变体的研究中，其丰度在各种疾病中可能失调。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3754/5767011/ea8460f8563d/13072_2017_172_Fig1_HTML.jpg

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通过靶向蛋白质组学对 H2A 和 H2B 变体进行系统定量分析。

Systematic quantitative analysis of H2A and H2B variants by targeted proteomics.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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