Department of Biochemistry and Molecular Biology, State University of New York Upstate Medical University, Syracuse, New York 13210, USA.
Protein Sci. 2010 Aug;19(8):1587-94. doi: 10.1002/pro.440.
All proteins undergo local structural fluctuations (LSFs) or breathing motions. These motions are likely to be important for function but are poorly understood. LSFs were initially defined by amide hydrogen exchange (HX) experiments as opening events, which expose a small number of backbone amides to (1)H/(2)H exchange, but whose exchange rates are independent of denaturant concentration. Here, we use size-dependent thiol-disulfide exchange (SX) to characterize LSFs in single cysteine-containing variants of myoglobin (Mb). SX complements HX by providing information on motions that disrupt side chain packing interactions. Most importantly, probe reagents of different sizes and chemical properties can be used to characterize the size of structural opening events and the properties of the open state. We use thiosulfonate reagents (126-274 Da) to survey access to Cys residues, which are buried at specific helical packing interfaces in Mb. In each case, the free energy of opening increases linearly with the radius of gyration of the probe reagent. The slope and the intercept are interpreted to yield information on the size of the opening events that expose the buried thiol groups. The slope parameter varies by over 10-fold among Cys positions tested, suggesting that the sizes of breathing motions vary substantially throughout the protein. Our results provide insight to the longstanding question: how rigid or flexible are proteins in their native states?
所有蛋白质都经历局部结构波动(LSFs)或呼吸运动。这些运动可能对功能很重要,但了解甚少。LSFs 最初通过酰胺氢交换(HX)实验定义为开放事件,这些事件使少数几个骨架酰胺暴露于(1)H/(2)H 交换,但它们的交换速率与变性剂浓度无关。在这里,我们使用依赖于大小的巯基-二硫键交换(SX)来表征肌红蛋白(Mb)中单个半胱氨酸变体的 LSF。SX 通过提供破坏侧链堆积相互作用的运动信息来补充 HX。最重要的是,可以使用不同大小和化学性质的探针试剂来表征结构开放事件的大小和开放状态的性质。我们使用硫代硫酸盐试剂(126-274 Da)来调查 Cys 残基的可及性,这些残基在 Mb 中的特定螺旋堆积界面处被埋藏。在每种情况下,开放的自由能都随探针试剂的回转半径线性增加。斜率和截距的解释提供了有关暴露埋藏硫醇基团的开放事件大小的信息。斜率参数在测试的 Cys 位置之间变化超过 10 倍,这表明呼吸运动的大小在整个蛋白质中变化很大。我们的结果为一个长期存在的问题提供了一些见解:在天然状态下,蛋白质是刚性的还是柔性的?