天青蛋白中铜结合位点的构象异质性。一项时间分辨荧光研究。

Conformational heterogeneity of the copper binding site in azurin. A time-resolved fluorescence study.

作者信息

Szabo A G, Stepanik T M, Wayner D M, Young N M

出版信息

Biophys J. 1983 Mar;41(3):233-44. doi: 10.1016/S0006-3495(83)84433-6.

DOI:10.1016/S0006-3495(83)84433-6

PMID:6404322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1329175/

Abstract

Comparison of the fluorescence spectra and the effect of temperature on the quantum yields of fluorescence of Azurin (from Pseudomonas fluorescens ATCC-13525-2) and 3-methylindole (in methylcyclohexane solution) provides substantive evidence that the tryptophan residue in azurin is completely inaccessible to solvent molecules. The quantum yields of azurin (CuII), azurin (CuI), and apoazurin (lambda ex = 291 nm) were 0.052, 0.054, and 0.31, respectively. Other evidence indicates that there is no energy transfer from tyrosine to tryptophan in any of these proteins. The fluorescence decay behavior of each of the azurin samples was found to be invariant with emission wavelength. The fluorescences of azurin (CuII) and azurin (CuI) decay with dual exponential kinetics (tau 1 = 4.80 ns, tau 2 = 0.18 ns) while that of apoazurin obeys single exponential decay kinetics (tau = 4.90). The ratio of pre-exponentials of azurin (CuII), alpha 1/alpha 2, is found to be 0.25, and this ratio increases to 0.36 on reduction to azurin (CuI). The results are interpreted as originating from different interactions of the tryptophan with two conformers of the copper-ligand complex in azurin.

摘要

对来自荧光假单胞菌ATCC - 13525 - 2的天青蛋白和3 - 甲基吲哚（在甲基环己烷溶液中）的荧光光谱以及温度对其荧光量子产率的影响进行比较，提供了实质性证据，表明天青蛋白中的色氨酸残基完全无法与溶剂分子接触。天青蛋白（CuII）、天青蛋白（CuI）和脱辅基天青蛋白（激发波长λex = 291 nm）的荧光量子产率分别为0.052、0.054和0.31。其他证据表明，在这些蛋白质中，酪氨酸向天青蛋白色氨酸均不存在能量转移。发现每个天青蛋白样品的荧光衰减行为不随发射波长而变化。天青蛋白（CuII）和天青蛋白（CuI）的荧光以双指数动力学衰减（τ1 = 4.80 ns，τ2 = 0.18 ns），而脱辅基天青蛋白则服从单指数衰减动力学（τ = 4.90）。天青蛋白（CuII）的指数前因子之比α1/α2为0.25，在还原成天青蛋白（CuI）时，该比值增加到0.36。这些结果被解释为源于天青蛋白中色氨酸与铜 - 配体复合物的两种构象的不同相互作用。

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J Biochem. 1963 Mar;53:256-9. doi: 10.1093/oxfordjournals.jbchem.a127689.

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