The amino-terminal segment of the membrane-anchored subunit of influenza hemagglutinin (HA) plays a crucial role in membrane fusion and, hence, has been termed the fusion peptide. We have studied the secondary structure, orientation, and effects on the bilayer structure of synthetic peptides corresponding to the wild-type and several fusogenic and nonfusogenic mutants with altered N-termini of the influenza HA fusion peptide by fluorescence, circular dichroism, and Fourier transform infrared spectroscopy. All peptides contained segments of alpha-helical and beta-strand conformation. In the wild-type fusion peptide, 40% of all residues were in alpha-secondary and 30% in beta-secondary structures. By comparison, the nonfusogenic peptides exhibited larger beta/alpha secondary structure ratios. The order parameters of the helices and the amide carbonyl groups of the beta-strands of the wild-type fusion peptide were measured separately, based on the infrared dichroism of the respective absorption bands. Order parameters in the range 0.1-0.7 were found for both segments of the wild-type peptide, which indicates that they are most likely aligned at oblique angles to the membrane normal. The nonfusogenic but not the fusogenic peptides induced splitting of the infrared absorption band at 1735 cm(-1), which is assigned to stretching vibrations of the lipid ester carbonyl bond. This splitting, which reports on an alteration of the hydrogen bonds formed between the lipid ester carbonyls and water and/or hydrogen-donating groups of the fusion peptides, correlated with the beta/alpha ratio of the peptides, suggesting that unpaired beta-strands may replace water molecules and hydrogen-bond to the lipid ester carbonyl groups. The profound structural changes induced by single amino acid replacements at the extreme N-terminus of the fusion peptide further suggest that tertiary or quaternary structural interactions may be important when fusion peptides bind to lipid bilayers.

译文

流感血凝素(HA)的膜锚定亚基的氨基末端片段在膜融合中起着至关重要的作用,因此被称为融合肽。我们已经通过荧光,圆二色性和傅里叶变换研究了对应于野生型和几个融合和非融合突变体的流感病毒HA融合肽的N末端改变的二级肽的二级结构,方向及其对双层肽结构的影响。红外光谱。所有肽都包含α-螺旋和β-链构象的区段。在野生型融合肽中,所有残基的40%在α-二级结构中,而30%在β-二级结构中。相比之下,非融合肽表现出较大的β/α二级结构比。基于各个吸收带的红外二色性,分别测量野生型融合肽的β链的螺旋和酰胺羰基的有序参数。对于野生型肽的两个片段,发现有序参数在0.1-0.7范围内,这表明它们最有可能以与膜法线倾斜的角度排列。非融合肽而非融合肽诱导了1735 cm(-1)处的红外吸收带的分裂,这被分配给了脂质酯羰基键的拉伸振动。该分裂报告了脂质酯羰基与融合肽的水和/或供氢基团之间形成的氢键的改变,与肽的β/α比率相关,表明未配对的β链可能取代水分子,并与脂质酯的羰基氢键合。融合肽极端N端由单个氨基酸置换引起的深刻结构变化进一步表明,当融合肽结合脂质双层时,三级或四级结构相互作用可能很重要。

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