KDM5A PHD3指的氟化芳香笼对三甲基赖氨酸的生物分子识别机制。

Mechanism of biomolecular recognition of trimethyllysine by the fluorinated aromatic cage of KDM5A PHD3 finger.

作者信息

Pieters Bas J G E, Wuts Maud H M, Poater Jordi, Kumar Kiran, White Paul B, Kamps Jos J A G, Sherman Woody, Pruijn Ger J M, Paton Robert S, Beuming Thijs, Bickelhaupt F Matthias, Mecinović Jasmin

机构信息

Institute for Molecules and Materials, Radboud University, Heyendaalseweg 135, 6525 AJ, Nijmegen, The Netherlands.

ICREA and Departament de Química Inorgànica i Orgànica & IQTCUB, Universitat de Barcelona, Martí i Franquès 1-11, 08028, Barcelona, Spain.

出版信息

Commun Chem. 2020 Jun 1;3(1):69. doi: 10.1038/s42004-020-0313-2.

DOI:10.1038/s42004-020-0313-2

PMID:36703460

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9814790/

Abstract

The understanding of biomolecular recognition of posttranslationally modified histone proteins is centrally important to the histone code hypothesis. Despite extensive binding and structural studies on the readout of histones, the molecular language by which posttranslational modifications on histone proteins are read remains poorly understood. Here we report physical-organic chemistry studies on the recognition of the positively charged trimethyllysine by the electron-rich aromatic cage containing PHD3 finger of KDM5A. The aromatic character of two tryptophan residues that solely constitute the aromatic cage of KDM5A was fine-tuned by the incorporation of fluorine substituents. Our thermodynamic analyses reveal that the wild-type and fluorinated KDM5A PHD3 fingers associate equally well with trimethyllysine. This work demonstrates that the biomolecular recognition of trimethyllysine by fluorinated aromatic cages is associated with weaker cation-π interactions that are compensated by the energetically more favourable trimethyllysine-mediated release of high-energy water molecules that occupy the aromatic cage.

摘要

对翻译后修饰的组蛋白的生物分子识别的理解对于组蛋白密码假说至关重要。尽管对组蛋白的识别进行了广泛的结合和结构研究，但组蛋白上翻译后修饰被识别的分子语言仍知之甚少。在此，我们报告了关于富含电子的含芳香笼的KDM5A的PHD3结构域对带正电荷的三甲基赖氨酸识别的物理有机化学研究。通过引入氟取代基对仅构成KDM5A芳香笼的两个色氨酸残基的芳香性进行了微调。我们的热力学分析表明，野生型和氟化的KDM5A PHD3结构域与三甲基赖氨酸的结合效果相同。这项工作表明，氟化芳香笼对三甲基赖氨酸的生物分子识别与较弱的阳离子-π相互作用有关，这种相互作用由能量上更有利的三甲基赖氨酸介导的占据芳香笼的高能水分子的释放所补偿。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/70c8/9814790/6707da49f557/42004_2020_313_Fig1_HTML.jpg

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KDM5A PHD3指的氟化芳香笼对三甲基赖氨酸的生物分子识别机制。

Mechanism of biomolecular recognition of trimethyllysine by the fluorinated aromatic cage of KDM5A PHD3 finger.

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