Peptide AEDL alters chromatin conformation via histone binding

IF 1.1 Q4 BIOPHYSICS AIMS Biophysics Pub Date : 2020-01-31 DOI:10.3934/biophy.2020001
Larisa I. Fedoreyeva, Boris F. Vanyushin, Ekaterina N. Baranova
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引用次数: 2

Abstract

Eukaryotic DNA is tightly packed into chromatin, a DNA–protein structure that exists as transcriptionally permissive euchromatin or repressive heterochromatin. Post-translational modification of histones plays a key role in regulating chromatin dynamics. Short peptides derived from various sources are known to function as epigenetic modulators; however, their mechanisms of action are poorly understood. We addressed this issued by investigating the effect of peptide AEDL on chromatin structure in tobacco (Nicotiana tabacum L.), a commercially important plant species. The chromatin of tobacco interphase cells is characterized by the presence of zones of transcriptionally active domains and particular domains of condensed chromatin of cells that partially coincide with heterochromatin zones. Chromatin decondensation and the formation of euchromatin, accompanied by the activation of genes expression activity, are a determining factor in responses to stressful effects. Our results show that plants grown in the presence of 10 −7 M peptide AEDL transformed condensed chromatin domains from 45% in control cells to 25%. Histone modifications, which constitute the so-called histone code, play a decisive role in the control of chromatin structure. Fluorescence quenching experiments using fluorescein isothiocyanate-labeled histones revealed that the linker histone H1 and complexes of core H3 and H1 histones with DNA bound to peptide AEDL in a 1: 1 molar ratio. The peptide was found to bind to the N-terminal lysine residue of H1 and the lysine residue at position 36 of the H3 C terminus. These interactions of histones H1 and H3 with AEDL peptide loosened the tightly packed chromatin structure, getting transcriptionally active euchromatin. Our findings provide novel insight into the mechanism of gene regulation by short peptides and have implications for breeding more resistant or productive varieties of tobacco and other crops.
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肽AEDL通过组蛋白结合改变染色质构象
真核DNA紧密地包裹在染色质中,染色质是一种DNA-蛋白质结构,以转录允许的常染色质或抑制性异染色质的形式存在。组蛋白的翻译后修饰在调节染色质动力学中起着关键作用。已知衍生自各种来源的短肽具有表观遗传学调节剂的功能;然而,人们对它们的作用机制知之甚少。我们通过研究肽AEDL对烟草(Nicotiana tabacum L.)染色质结构的影响来解决这一问题,烟草是一种重要的商业植物。烟草间期细胞的染色质的特征是存在转录活性结构域区域和与异染色质区域部分重合的细胞浓缩染色质的特定结构域。染色质去凝聚和常染色质的形成,伴随着基因表达活性的激活,是对应激反应的决定因素。我们的结果表明,在10−7M肽AEDL存在下生长的植物将浓缩染色质结构域从对照细胞中的45%转化为25%。组蛋白修饰构成了所谓的组蛋白密码,在控制染色质结构中起着决定性作用。使用异硫氰酸荧光素标记的组蛋白的荧光猝灭实验显示,连接组蛋白H1以及核心H3和H1组蛋白与DNA的复合物以1∶1摩尔比结合到肽AEDL。发现该肽与H1的N-末端赖氨酸残基和H3C末端36位的赖氨酸残余基结合。组蛋白H1和H3与AEDL肽的这些相互作用松动了紧密堆积的染色质结构,获得了转录活性的常染色质。我们的发现为短肽的基因调控机制提供了新的见解,并对培育更具抗性或生产力的烟草和其他作物品种具有启示。
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来源期刊
AIMS Biophysics
AIMS Biophysics BIOPHYSICS-
CiteScore
2.40
自引率
20.00%
发文量
16
审稿时长
8 weeks
期刊介绍: AIMS Biophysics is an international Open Access journal devoted to publishing peer-reviewed, high quality, original papers in the field of biophysics. We publish the following article types: original research articles, reviews, editorials, letters, and conference reports. AIMS Biophysics welcomes, but not limited to, the papers from the following topics: · Structural biology · Biophysical technology · Bioenergetics · Membrane biophysics · Cellular Biophysics · Electrophysiology · Neuro-Biophysics · Biomechanics · Systems biology
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