Exploratory Research Center on Life and Living Systems, National Institutes of Natural Sciences, Okazaki, Aichi, Japan; Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Aichi, Japan; Department of Functional Molecular Science, School of Physical Sciences, SOKENDAI (the Graduate University for Advanced Studies), Okazaki, Aichi, Japan.
Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Aichi, Japan; Department of Functional Molecular Science, School of Physical Sciences, SOKENDAI (the Graduate University for Advanced Studies), Okazaki, Aichi, Japan.
Biophys J. 2020 Nov 17;119(10):2029-2038. doi: 10.1016/j.bpj.2020.10.003. Epub 2020 Oct 14.
The characterization of residual structures persistent in unfolded proteins in concentrated denaturant solution is currently an important issue in studies of protein folding because the residual structure present, if any, in the unfolded state may form a folding initiation site and guide the subsequent folding reactions. Here, we studied the hydrogen/deuterium (H/D)-exchange behavior of unfolded human ubiquitin in 6 M guanidinium chloride. We employed a dimethylsulfoxide (DMSO)-quenched H/D-exchange NMR technique with the use of spin desalting columns, which allowed us to perform a quick medium exchange from 6 M guanidinium chloride to a quenching DMSO solution. Based on the backbone resonance assignment of ubiquitin in the DMSO solution, we successfully investigated the H/D-exchange kinetics of 60 identified peptide amide groups in the ubiquitin sequence. Although a majority of these amide groups were not protected, certain amide groups involved in a middle helix (residues 23-34) and an N-terminal β-hairpin (residues 2-16) were significantly protected with a protection factor of 2.1-4.2, indicating that there were residual structures in unfolded ubiquitin and that these amide groups were more than 52% hydrogen bonded in the residual structures. We show that the hydrogen-bonded residual structures in the α-helix and the β-hairpin are formed even in 6 M guanidinium chloride, suggesting that these residual structures may function as a folding initiation site to guide the subsequent folding reactions of ubiquitin.
在浓缩变性剂溶液中未折叠蛋白质中残留结构的特性是蛋白质折叠研究中的一个重要问题,因为在未折叠状态下存在的残留结构如果存在,可能形成折叠起始位点并指导随后的折叠反应。在这里,我们研究了 unfolded 人泛素在 6 M 盐酸胍中的氢/氘(H/D)交换行为。我们采用了二甲亚砜(DMSO)猝灭 H/D-交换 NMR 技术,并使用了自旋脱盐柱,这使我们能够快速从 6 M 盐酸胍到猝灭 DMSO 溶液进行介质交换。基于泛素在 DMSO 溶液中的骨架共振分配,我们成功地研究了泛素序列中 60 个已鉴定肽酰胺基团的 H/D-交换动力学。尽管大多数这些酰胺基团没有被保护,但某些涉及中间螺旋(残基 23-34)和 N 端 β-发夹(残基 2-16)的酰胺基团受到显著保护,保护因子为 2.1-4.2,表明在未折叠的泛素中存在残留结构,这些酰胺基团在残留结构中超过 52%氢键合。我们表明,即使在 6 M 盐酸胍中,α-螺旋和β-发夹中的氢键合残留结构也会形成,这表明这些残留结构可能作为折叠起始位点,指导泛素随后的折叠反应。
