完成噬菌体434阻遏物氨基末端结构域在尿素展开形式下的完整15N和1H核磁共振归属。
Complete 15N and 1H NMR assignments for the amino-terminal domain of the phage 434 repressor in the urea-unfolded form.
作者信息
Neri D, Wider G, Wüthrich K
出版信息
Proc Natl Acad Sci U S A. 1992 May 15;89(10):4397-401. doi: 10.1073/pnas.89.10.4397.
Abstract
The amino-terminal domain of the phage 434 repressor consisting of residues 1-69 forms a globular structure of five tightly packed helices, with nearly identical molecular architectures in crystals and in solution. Upon addition of urea to an aqueous solution of this protein, the NMR spectrum of a second form of the protein appears in addition to the native form, and at a urea concentration of 7 M, this urea-unfolded form is the only species observed. At intermediate urea concentrations, the two forms of the protein inter-convert at a rate that allows the observation of the exchange process by NMR. Starting from the previous assignments for the native protein, we obtained nearly complete sequence-specific (1)H and (15)N NMR assignments for the unfolded form of the protein. For most amino acid residues, the (1)H chemical shifts of the urea-unfolded protein are very similar to the random coil values, but some discrete regions of the polypeptide chain were identified that are likely to retain residual nonrandom spatial structure as evidenced by deviations of (1)H chemical shifts and amide proton exchange rates from the expected random coil values.
摘要
噬菌体434阻遏物的氨基末端结构域由1至69位残基组成,形成了一个由五个紧密堆积的螺旋构成的球状结构,其在晶体和溶液中的分子结构几乎相同。向该蛋白质的水溶液中加入尿素后,除了天然形式外,还出现了该蛋白质第二种形式的核磁共振谱,在尿素浓度为7M时,这种尿素展开形式是唯一观察到的物种。在中等尿素浓度下,这两种形式的蛋白质以一定速率相互转化,使得核磁共振能够观察到交换过程。从之前对天然蛋白质的归属出发,我们获得了该蛋白质展开形式几乎完整的序列特异性(1)H和(15)N核磁共振归属。对于大多数氨基酸残基,尿素展开蛋白质的(1)H化学位移与随机卷曲值非常相似,但多肽链中一些离散区域被确定可能保留了残余的非随机空间结构,这可由(1)H化学位移和酰胺质子交换速率偏离预期随机卷曲值来证明。
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