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通过 1H R1ρ 弛豫分散测量甲基的蛋白质构象交换。

Protein conformational exchange measured by 1H R1ρ relaxation dispersion of methyl groups.

机构信息

Department of Biophysical Chemistry, Center for Molecular Protein Science, Lund University, P.O. Box 124, 22100, Lund, Sweden.

出版信息

J Biomol NMR. 2013 Sep;57(1):47-55. doi: 10.1007/s10858-013-9764-4. Epub 2013 Aug 2.

DOI:10.1007/s10858-013-9764-4
PMID:23904100
Abstract

Activated dynamics plays a central role in protein function, where transitions between distinct conformations often underlie the switching between active and inactive states. The characteristic time scales of these transitions typically fall in the microsecond to millisecond range, which is amenable to investigations by NMR relaxation dispersion experiments. Processes at the faster end of this range are more challenging to study, because higher RF field strengths are required to achieve refocusing of the exchanging magnetization. Here we describe a rotating-frame relaxation dispersion experiment for (1)H spins in methyl (13)CHD2 groups, which improves the characterization of fast exchange processes. The influence of (1)H-(1)H rotating-frame nuclear Overhauser effects (ROE) is shown to be negligible, based on a comparison of R 1ρ relaxation data acquired with tilt angles of 90° and 35°, in which the ROE is maximal and minimal, respectively, and on samples containing different (1)H densities surrounding the monitored methyl groups. The method was applied to ubiquitin and the apo form of calmodulin. We find that ubiquitin does not exhibit any (1)H relaxation dispersion of its methyl groups at 10 or 25 °C. By contrast, calmodulin shows significant conformational exchange of the methionine methyl groups in its C-terminal domain, as previously demonstrated by (1)H and (13)C CPMG experiments. The present R 1ρ experiment extends the relaxation dispersion profile towards higher refocusing frequencies, which improves the definition of the exchange correlation time, compared to previous results.

摘要

激活动力学在蛋白质功能中起着核心作用,其中不同构象之间的转变通常是活性和非活性状态之间转换的基础。这些转变的特征时间尺度通常在微秒到毫秒范围内,这适合通过 NMR 弛豫弥散实验进行研究。在这个范围内更快的过程更具挑战性,因为需要更高的射频场强度来实现交换磁化的重聚焦。在这里,我们描述了一种用于甲基 (13)CHD2 基团中 (1)H 自旋的旋转框架弛豫弥散实验,该实验可改善对快速交换过程的表征。通过比较在 90°和 35°倾斜角下获得的 R 1ρ 弛豫数据,以及在含有不同 (1)H 密度的样品中监测的甲基基团,证明了 (1)H-(1)H 旋转框架核 Overhauser 效应 (ROE) 的影响可以忽略不计,在这两种情况下,ROE 分别达到最大和最小。该方法应用于泛素和钙调蛋白的无钙形式。我们发现,泛素在 10 或 25°C 时其甲基基团没有任何 (1)H 弛豫弥散。相比之下,钙调蛋白的 C 末端结构域中的蛋氨酸甲基基团显示出明显的构象交换,这与之前的 (1)H 和 (13)C CPMG 实验结果一致。与之前的结果相比,当前的 R 1ρ 实验将弛豫弥散谱扩展到更高的重聚焦频率,从而改善了交换相关时间的定义。

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