肺表面活性剂蛋白B弯曲区的合成、二级结构和折叠。

Peptide research Pub Date : 1996-01-01
A J Waring, K F Faull, C Leung, A Chang-Chien, P Mercado, H W Taeusch, L M Gordon
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引用次数: 0

摘要

先前对肺表面活性剂蛋白SP-B初级结构的理论分析表明,其中间序列是一个二硫连接的疏水序列,形成一个发夹状基序。本文通过合成SP-B中间序列的两个12残基类似物,实验研究了二硫化物稳定弯曲区的二级结构。天然肽的35 ~ 46残基序列与天然人SP-B相同,而在第二个模拟肽中,Leu40和Val41被D-Ser和L-His取代。这两种肽在N端和c端都含有半胱氨酸残基(分别为Cys35和Cys46)。氧化/还原实验用快速原子轰击质谱法显示了大约2道尔顿的质量位移,与溶液中以单体形式存在的氧化肽一致,每个肽都有一个内部二硫键(Cys35-Cys46)。由于圆二色性和傅里叶变换红外测量表明,这两种多肽在三氟乙醇(TFE)等促结构溶剂中呈现轮流构象,因此提出了一种结构模型,其中Cys35和Cys46通过多肽的内部弯曲而紧密相邻。Cys35和Cys46自旋标记的模拟肽氮氧化物的电子自旋共振(ESR)结果与该模型一致。对于双自旋标记的模拟肽在TFE。ESR谱显示出自由基相互作用或迁移率降低的增宽特征,或两者兼而有之。在结构促进溶剂中,Cys35和Cys46接近14a时,双自旋标记模拟肽的自由基相互作用增加,而自旋标记迁移率降低可能是由于形成环。基于这些对肽类似物的观察,残基35至46可能在全长蛋白中形成类似的弯曲。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis, secondary structure and folding of the bend region of lung surfactant protein B.

Previous theoretical analysis of the primary structure of lung surfactant protein SP-B indicates a disulfide-linked, hydrophobic midsequence that forms a hairpin-like motif. Here, we experimentally investigate the secondary structure of the disulfide-stabilized bend region by synthesizing two 12-residue analogs of the SP-B midsequence. The native peptide has the same sequence for residues 35 to 46 as native human SP-B, while, in the second mimic peptide, Leu40 and Val41 were replaced with D-Ser and L-His. Both peptides contain cysteine residues at the N- and C-terminus (Cys35 and Cys46, respectively). Oxidation/reduction experiments with fast atom bombardment mass spectrometry showed mass shifts of approximately 2 daltons, consistent with the oxidized peptides existing in solution as monomers, each with one internal disulfide bond (Cys35-Cys46). Since circular dichroism and Fourier-transform infrared measurements show that both peptides assume turn conformations in structure-promoting solvents such as trifluoroethanol (TFE), a structural model is proposed in which Cys35 and Cys46 are brought in close apposition through an internal bend in the peptide. Consistent with this model are electron spin resonance (ESR) results of the mimic peptide nitroxide spin-labeled at Cys35 and Cys46. For the double spin-labeled mimic peptide in TFE. ESR spectra indicated broadening characteristic of either radical interactions or decreased mobility, or both. Increases in radical interactions for the double spin-labeled mimic peptide would be expected for Cys35 and Cys46 approaching within 14 A in structure-promoting solvents, while decreases in spin-label mobility could be due to the formation of a loop. Based on these observations with peptide analogs, residues 35 to 46 probably form a similar bend in the full-length protein.

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