蜂毒肽的膜诱导结构与脂质的流动性相关。

The membrane-induced structure of melittin is correlated with the fluidity of the lipids.

作者信息

Andersson August, Biverståhl Henrik, Nordin Jon, Danielsson Jens, Lindahl Emma, Mäler Lena

机构信息

Department of Biochemistry and Biophysics, The Arrhenius Laboratory, Stockholm University, 10691 Stockholm, Sweden.

出版信息

Biochim Biophys Acta. 2007 Jan;1768(1):115-21. doi: 10.1016/j.bbamem.2006.07.009. Epub 2006 Jul 21.

DOI:10.1016/j.bbamem.2006.07.009

PMID:16949029

Abstract

The effect of the bee toxin melittin on DMPC dynamics in fast-tumbling bicelles has been investigated. The (13)C R(1) and (13)C-(1)H NOE relaxation parameters for DMPC were used to monitor the effect of melittin and cholesterol on lipid dynamics. It was found that melittin has the largest effect on the DMPC mobility in DMPC/DHPC bicelles, while less effect was observed in cholesterol-doped bicelles, or in bicelles made with CHAPS, indicating that the rigidity of the membrane affects the melittin-membrane interaction. CD spectra were analysed in terms of cooperativity of the alpha-helix to random coil transition in melittin, and these results also indicated similar differences between the bicelles. The study shows that bicelles can be used to investigate lipid dynamics by spin relaxation, and in particular of peptide-induced changes in membrane fluidity.

摘要

已研究了蜂毒素蜂毒肽对快速翻滚双分子层中DMPC动力学的影响。使用DMPC的(13)C R(1)和(13)C-(1)H NOE弛豫参数来监测蜂毒肽和胆固醇对脂质动力学的影响。结果发现，蜂毒肽对DMPC/DHPC双分子层中DMPC的流动性影响最大，而在掺有胆固醇的双分子层或用CHAPS制成的双分子层中观察到的影响较小，这表明膜的刚性会影响蜂毒肽与膜的相互作用。根据蜂毒肽中α-螺旋向无规卷曲转变的协同性对圆二色谱进行了分析，这些结果也表明双分子层之间存在类似差异。该研究表明，双分子层可用于通过自旋弛豫研究脂质动力学，特别是肽诱导的膜流动性变化。

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蜂毒肽的膜诱导结构与脂质的流动性相关。

The membrane-induced structure of melittin is correlated with the fluidity of the lipids.

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