哺乳动物组蛋白H1体细胞亚型对DNA和染色质的差异亲和力。

Differential affinity of mammalian histone H1 somatic subtypes for DNA and chromatin.

作者信息

Orrego Mary, Ponte Imma, Roque Alicia, Buschati Natascha, Mora Xavier, Suau Pedro

机构信息

Departamento de Bioquímica y Biología Molecular, Facultad de Biociencias, Universidad Autónoma de Barcelona, Bellaterra, Barcelona, Spain.

出版信息

BMC Biol. 2007 May 11;5:22. doi: 10.1186/1741-7007-5-22.

DOI:10.1186/1741-7007-5-22

PMID:17498293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1890542/

Abstract

BACKGROUND

Histone H1 is involved in the formation and maintenance of chromatin higher order structure. H1 has multiple isoforms; the subtypes differ in timing of expression, extent of phosphorylation and turnover rate. In vertebrates, the amino acid substitution rates differ among subtypes by almost one order of magnitude, suggesting that each subtype might have acquired a unique function. We have devised a competitive assay to estimate the relative binding affinities of histone H1 mammalian somatic subtypes H1a-e and H1 degrees for long chromatin fragments (30-35 nucleosomes) in physiological salt (0.14 M NaCl) at constant stoichiometry.

RESULTS

The H1 complement of native chromatin was perturbed by adding an additional amount of one of the subtypes. A certain amount of SAR (scaffold-associated region) DNA was present in the mixture to avoid precipitation of chromatin by excess H1. SAR DNA also provided a set of reference relative affinities, which were needed to estimate the relative affinities of the subtypes for chromatin from the distribution of the subtypes between the SAR and the chromatin. The amounts of chromatin, SAR and additional H1 were adjusted so as to keep the stoichiometry of perturbed chromatin similar to that of native chromatin. H1 molecules freely exchanged between the chromatin and SAR binding sites. In conditions of free exchange, H1a was the subtype of lowest affinity, H1b and H1c had intermediate affinities and H1d, H1e and H1 degrees the highest affinities. Subtype affinities for chromatin differed by up to 19-fold. The relative affinities of the subtypes for chromatin were equivalent to those estimated for a SAR DNA fragment and a pUC19 fragment of similar length. Avian H5 had an affinity ~12-fold higher than H1e for both DNA and chromatin.

CONCLUSION

H1 subtypes freely exchange in vitro between chromatin binding sites in physiological salt (0.14 M NaCl). The large differences in relative affinity of the H1 subtypes for chromatin suggest that differential affinity could be functionally relevant and thus contribute to the functional differentiation of the subtypes. The conservation of the relative affinities for SAR and non-SAR DNA, in spite of a strong preference for SAR sequences, indicates that differential affinity alone cannot be responsible for the heterogeneous distribution of some subtypes in cell nuclei.

摘要

背景

组蛋白H1参与染色质高级结构的形成与维持。H1有多种亚型；各亚型在表达时间、磷酸化程度和周转率方面存在差异。在脊椎动物中，各亚型的氨基酸替换率相差近一个数量级，这表明每个亚型可能已获得独特功能。我们设计了一种竞争测定法，以恒定化学计量比在生理盐浓度（0.14 M NaCl）下估计组蛋白H1哺乳动物体细胞亚型H1a - e和H1°对长染色质片段（30 - 35个核小体）的相对结合亲和力。

结果

通过额外添加一种亚型来扰动天然染色质的H1组成。混合物中存在一定量的支架相关区域（SAR）DNA，以避免过量H1导致染色质沉淀。SAR DNA还提供了一组参考相对亲和力，通过亚型在SAR和染色质之间的分布来估计各亚型对染色质的相对亲和力时需要这些参考值。调整染色质、SAR和额外H1的量，以使扰动染色质的化学计量比与天然染色质相似。H1分子在染色质和SAR结合位点之间自由交换。在自由交换条件下，H1a是亲和力最低的亚型，H1b和H1c具有中等亲和力，H1d、H1e和H1°具有最高亲和力。各亚型对染色质的亲和力相差高达19倍。各亚型对染色质的相对亲和力与对类似长度的SAR DNA片段和pUC19片段估计的相对亲和力相当。禽H5对DNA和染色质的亲和力比对H1e高约12倍。

结论

在生理盐浓度（0.14 M NaCl）下，H1亚型在体外可在染色质结合位点之间自由交换。H1亚型对染色质的相对亲和力差异很大，这表明差异亲和力可能具有功能相关性，从而有助于各亚型的功能分化。尽管对SAR序列有强烈偏好，但对SAR和非SAR DNA的相对亲和力保持不变，这表明仅差异亲和力不能解释某些亚型在细胞核中的异质分布。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d62f/1890542/d6829517f758/1741-7007-5-22-1.jpg

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哺乳动物组蛋白H1体细胞亚型对DNA和染色质的差异亲和力。

Differential affinity of mammalian histone H1 somatic subtypes for DNA and chromatin.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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