Wallerstein Johan, Akke Mikael
Biophysical Chemistry, Center for Molecular Protein Science Department of Chemistry, Lund University, Box 124, SE-221 00, Lund, Sweden.
Chemphyschem. 2019 Jan 21;20(2):326-332. doi: 10.1002/cphc.201800626. Epub 2018 Sep 3.
Studies of protein-ligand binding often rely on dissolving the ligand in dimethyl sulfoxide (DMSO) to achieve sufficient solubility, and then titrating the ligand solution into the protein solution. As a result, the final protein-ligand solution contains small amounts of DMSO in the buffer. Here we report how the addition of DMSO impacts studies of protein conformational dynamics. We used N NMR relaxation to compare the rotational diffusion correlation time (τ ) of proteins in aqueous buffer with and without DMSO. We found that τ scales with the viscosity of the water-DMSO mixture, which depends sensitively on the amount of DMSO and varies by a factor of 2 across the relevant concentration range. NMR relaxation studies of side chains dynamics are commonly interpreted using τ as a fixed parameter, obtained from backbone N relaxation data acquired on a separate sample. Model-free calculations show that errors in τ , arising from mismatched DMSO concentration between samples, lead to significant errors in order parameters. Our results highlight the importance of determining τ for each sample or carefully matching the DMSO concentrations between samples.
蛋白质-配体结合的研究通常依赖于将配体溶解在二甲基亚砜(DMSO)中以获得足够的溶解度,然后将配体溶液滴定到蛋白质溶液中。因此,最终的蛋白质-配体溶液在缓冲液中含有少量的DMSO。在此,我们报告了添加DMSO如何影响蛋白质构象动力学的研究。我们使用核磁共振(NMR)弛豫来比较在含有和不含有DMSO的水性缓冲液中蛋白质的旋转扩散相关时间(τ)。我们发现τ与水-DMSO混合物的粘度成比例,而粘度敏感地取决于DMSO的量,并且在相关浓度范围内变化两倍。侧链动力学的NMR弛豫研究通常使用从在单独样品上获得的主链N弛豫数据获得的固定参数τ来解释。无模型计算表明,由于样品之间DMSO浓度不匹配而导致的τ误差会导致序参数出现显著误差。我们的结果强调了为每个样品确定τ或仔细匹配样品之间DMSO浓度的重要性。
