混杂β-葡聚糖周质结合蛋白中配体选择性决定因素的分子细节

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Parthapratim Munshi, Christopher B Stanley, Sudipa Ghimire-Rijal, Xun Lu, Dean A Myles, Matthew J Cuneo
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引用次数: 7

摘要

外质结合蛋白(PBP)超家族的成员利用高度保守的结构域间配体结合位点,适应特异性结合化学上不同范围的配体。这种PBP配体结合特异性的模式最近被改变了,当热toga martima纤维素二糖结合蛋白(tmCBP)的结构被解决后。tmCBP结合位点是两部分的,包括一个典型的溶剂排除区域(子位点1),毗邻一个溶剂填充的空腔(子位点2),分别发生特异性和半特异性配体识别。在分子水平上理解结合口袋适应机制,同时允许配体在亚位点1的特异性和亚位点2的混杂性,这对配体结合和药物设计研究具有潜在的重要意义。我们试图通过在不同β-葡聚糖低聚糖存在下对tmCBP进行生物物理表征来研究tmCBP中配体结合选择性的决定因素。晶体结构表明,尽管构成tmCBP亚位1和亚位2结合位点的氨基酸无论存在哪种配体都保持固定的构象,但水分子丰富的氢键电位可能促进这种独特的PBP结合位点的有序和可塑性。这些水分子在配体识别中所起作用的鉴定表明,可以利用潜在的机制来适应单个配体结合位点以识别多个不同的配体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Molecular details of ligand selectivity determinants in a promiscuous β-glucan periplasmic binding protein

Molecular details of ligand selectivity determinants in a promiscuous β-glucan periplasmic binding protein

Members of the periplasmic binding protein (PBP) superfamily utilize a highly conserved inter-domain ligand binding site that adapts to specifically bind a chemically diverse range of ligands. This paradigm of PBP ligand binding specificity was recently altered when the structure of the Thermotoga maritima cellobiose-binding protein (tmCBP) was solved. The tmCBP binding site is bipartite, comprising a canonical solvent-excluded region (subsite one), adjacent to a solvent-filled cavity (subsite two) where specific and semi-specific ligand recognition occur, respectively.

A molecular level understanding of binding pocket adaptation mechanisms that simultaneously allow both ligand specificity at subsite one and promiscuity at subsite two has potentially important implications in ligand binding and drug design studies. We sought to investigate the determinants of ligand binding selectivity in tmCBP through biophysical characterization of tmCBP in the presence of varying β-glucan oligosaccharides. Crystal structures show that whilst the amino acids that comprise both the tmCBP subsite one and subsite two binding sites remain fixed in conformation regardless of which ligands are present, the rich hydrogen bonding potential of water molecules may facilitate the ordering and the plasticity of this unique PBP binding site.

The identification of the roles these water molecules play in ligand recognition suggests potential mechanisms that can be utilized to adapt a single ligand binding site to recognize multiple distinct ligands.

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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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