K R de Souza, L O Nunes, E S Salnikov, H M Mundim, V H O Munhoz, L M Lião, C Aisenbrey, J M Resende, B Bechinger, R M Verly
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引用次数: 0
摘要
ecPis-4s是鱼腥肽家族的一种新型抗菌肽,具有广泛的生物技术应用潜力。为了了解 ecPis-4 s 的作用模式,对该肽进行了化学合成,并在阴离子 POPC:POPG(3:1,mol:mol)膜和 SDS 胶束存在下进行了结构研究。CD 光谱显示,ecPis-4 s 在这两种膜模拟介质中都具有高含量的螺旋结构,这与溶液 NMR 光谱显示的整个肽链的两性螺旋构象一致。用 15N/2H 选择性标记并重组到单轴定向 POPC:POPG 膜中的 ecPis-4 s 的固态核磁共振实验显示,亲水和疏水残基在双层膜界面中的分区非常理想。肽与膜表面平行排列,这种拓扑结构因 Phe-1、Phe-2 和 Trp-9 与磷脂的芳香侧链相互作用而稳定。使用氚代脂质进行的 2H NMR 实验显示,当肽与膜结合时,阴离子脂质会在阳离子肽附近聚集。
Elucidating the conformational behavior and membrane-destabilizing capability of the antimicrobial peptide ecPis-4s.
Here we present studies of the structure and membrane interactions of ecPis-4 s, a new antimicrobial peptide from the piscidin family, which shows a wide-range of potential biotechnological applications. In order to understand the mode of action ecPis-4 s, the peptide was chemically synthesized and structural investigations in the presence of anionic POPC:POPG (3:1, mol:mol) membrane and SDS micelles were performed. CD spectroscopy demonstrated that ecPis-4 s has a high content of helical structure in both membrane mimetic media, which is in line with solution NMR spectroscopy that revealed an amphipathic helical conformation throughout the entire peptide chain. Solid-state NMR experiments of ecPis-4 s selectively labeled with 15N/2H and reconstituted into uniaxially oriented POPC:POPG membranes revealed an ideal partition of hydrophilic and hydrophobic residues within the bilayer interface. The peptide aligns in parallel to the membrane surface, a topology stabilized by aromatic side-chain interactions of the Phe-1, Phe-2 and Trp-9 with the phospholipids. 2H NMR experiments using deuterated lipids revealed that anionic lipid accumulates in the vicinity of the cationic peptide upon peptide-membrane binding.
期刊介绍:
Biophysical Chemistry publishes original work and reviews in the areas of chemistry and physics directly impacting biological phenomena. Quantitative analysis of the properties of biological macromolecules, biologically active molecules, macromolecular assemblies and cell components in terms of kinetics, thermodynamics, spatio-temporal organization, NMR and X-ray structural biology, as well as single-molecule detection represent a major focus of the journal. Theoretical and computational treatments of biomacromolecular systems, macromolecular interactions, regulatory control and systems biology are also of interest to the journal.
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