通过功能 AB 环运动揭示人眼唾乳球蛋白的低亲和性和高亲和性配体结合的激动蛋白态。

Excited protein states of human tear lipocalin for low- and high-affinity ligand binding revealed by functional AB loop motion.

机构信息

Department of Pathology, University of California at Los Angeles, USA.

出版信息

Biophys Chem. 2010 Jun;149(1-2):47-57. doi: 10.1016/j.bpc.2010.03.017. Epub 2010 Apr 9.

DOI:10.1016/j.bpc.2010.03.017

PMID:20439130

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2868076/

Abstract

Human tear lipocalin (TL), a prominent member of lipocalin family, exhibits functional and structural promiscuity. The plasticity of loop regions modulates entry to the ligand pocket at the "open" end of the eight-stranded beta-barrel. Site-directed multi-distance measurements using fluorescence resonance energy transfer between functional loops register two excited protein states for low- and high-affinity ligand binding. At low pH, the longest loop AB adopts the conformation of the low-affinity excited protein state that matches the crystal structure of holo-TL at pH 8. A "crankshaft" like movement is detected for the loop AB in a low pH transition. At pH 7.3 the holo-protein assumes a high-affinity excited protein state, in which the loop AB is more compact (RMS=3.1A). In the apo-holo transition, the reporter Trp 28 moves about 4.5A that reflects a decrease in distance between Glu27 and Lys108. This interaction fixes the loop AB conformation for the high-affinity mode. No such movement is detected at low pH, where Glu27 is protonated. Data strongly indicate that the protonation state of Glu27 modulates the conformation of the loop AB for high- and low-affinity binding.

摘要

人眼唾乳蛋白（TL），作为亲脂素家族的一个突出成员，表现出功能和结构的混杂性。环区的可塑性调节了在“开放”端八链β-桶进入配体口袋的过程。使用荧光共振能量转移在功能环之间进行的定点多距离测量，为低亲和性和高亲和性配体结合记录了两种激发态蛋白质。在低 pH 值下，最长的 AB 环采用低亲和性激发态蛋白质的构象，与 pH 8 时的全 TL 晶体结构相匹配。在低 pH 值转变中，检测到 AB 环的“曲柄轴”样运动。在 pH 7.3 时，全蛋白假设处于高亲和性激发态蛋白质状态，其中 AB 环更紧凑（RMS=3.1A）。在apo-holo 转变中，报告荧光团色氨酸 28 移动约 4.5A，反映了 Glu27 和 Lys108 之间距离的减小。这种相互作用固定了 AB 环的高亲和力模式的构象。在低 pH 值下，没有检测到这种运动，因为 Glu27 被质子化。数据强烈表明，Glu27 的质子化状态调节了 AB 环的构象，以适应高亲和性和低亲和性结合。

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