Institute of Applied Physics and Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany.
Chemphyschem. 2011 Feb 25;12(3):627-33. doi: 10.1002/cphc.201000693. Epub 2010 Nov 9.
Single-molecule Förster resonance energy transfer (FRET) experiments were performed on the enzyme RNase H specifically labeled with a FRET dye pair and diffusing freely in solutions containing between 0 and 6 M of the chemical denaturant GdmCl. We measured FRET efficiency histograms with high statistical accuracy to identify the well-known folding intermediate of RNase H, which escaped observation in our previous smFRET studies on immobilized preparations. Even with excellent data statistics, a folding intermediate is not obvious from the raw data. However, it can be uncovered by a global fitting procedure applied to the FRET histograms at all 22 GdmCl concentrations, in which a number of parameters were constrained. Most importantly, the fractional populations of the folded, unfolded and intermediate states were coupled by assuming the Boltzmann relation and a linear dependence of the free energies on the GdmCl concentration. The analysis not only resolves the apparent discrepancy with other data on RNase H, but yields free energy differences between the three populations in agreement with literature data. In addition, it removes the strong and unexplained broadening of the unfolded-state distribution in the transition region that was seen earlier in the two-state analysis.
我们对特定标记有 FRET 染料对且在含有 0 至 6 M 变性剂 GdmCl 的溶液中自由扩散的酶 RNase H 进行了单分子Förster 共振能量转移 (FRET) 实验。我们使用高统计精度测量 FRET 效率直方图,以识别众所周知的 RNase H 折叠中间体,这在我们之前对固定化制剂进行的 smFRET 研究中无法观察到。即使具有出色的数据统计,从原始数据中也无法明显看出折叠中间体。然而,通过对所有 22 个 GdmCl 浓度下的 FRET 直方图应用全局拟合程序,可以揭示出这一中间体,在此过程中对多个参数进行了约束。最重要的是,通过假设玻尔兹曼关系和自由能与 GdmCl 浓度的线性关系,将折叠、未折叠和中间状态的分数种群耦合在一起。该分析不仅解决了与其他 RNase H 数据的明显差异,而且还得出了与文献数据一致的三个种群之间的自由能差异。此外,它消除了在过渡区域中早先在两态分析中观察到的未折叠状态分布的强烈且无法解释的变宽。
