部分变性蛋白质的异核三维核磁共振波谱：人泛素的A状态

Heteronuclear three-dimensional NMR spectroscopy of a partially denatured protein: the A-state of human ubiquitin.

作者信息

Stockman B J, Euvrard A, Scahill T A

机构信息

Upjohn Laboratories, Upjohn Company, Kalamazoo, MI 49007.

出版信息

J Biomol NMR. 1993 May;3(3):285-96. doi: 10.1007/BF00212515.

DOI:10.1007/BF00212515

PMID:8395271

Abstract

Human ubiquitin is a 76-residue protein that serves as a protein degradation signal when conjugated to another protein. Ubiquitin has been shown to exist in at least three states: native (N-state), unfolded (U-state), and, when dissolved in 60% methanol:40% water at pH 2.0, partially folded (A-state). If the A-state represents an intermediate in the folding pathway of ubiquitin, comparison of the known structure of the N-state with that of the A-state may lead to an understanding of the folding pathway. Insights into the structural basis for ubiquitin's role in protein degradation may also be obtained. To this end we determined the secondary structure of the A-state using heteronuclear three-dimensional NMR spectroscopy of uniformly 15N-enriched ubiquitin. Sequence-specific 1H and 15N resonance assignments were made for more than 90% of the residues in the A-state. The assignments were made by concerted analysis of three-dimensional 1H-15N NOESY-HMQC and TOCSY-HMQC data sets. Because of 1H chemical shift degeneracies, the increased resolution provided by the 15N dimension was critical. Analysis of short- and long-range NOEs indicated that only the first two strands of beta-sheet, comprising residues 2-17, remain in the A-state, compared to five strands in the N-state. NOEs indicative of an alpha-helix, comprising residues 25-33, were also identified. These residues were also helical in the N-state. In the N-state, residues in this helix were in contact with residues from the first two strands of beta-sheet. It is likely, therefore, that residues 1-33 comprise a folded domain in the A-state of ubiquitin. On the basis of 1H alpha chemical shifts and weak short-range NOEs, residues 34-76 do not adopt a rigid secondary structure but favor a helical conformation. This observation may be related to the helix-inducing effects of the methanol present. The secondary structure presented here differs from and is more thorough than that determined previously by two-dimensional 1H methods [Harding et al. (1991) Biochemistry, 30, 3120-3128].

摘要

人泛素是一种由76个氨基酸残基组成的蛋白质，当它与另一种蛋白质结合时，可作为蛋白质降解信号。研究表明，泛素至少以三种状态存在：天然态（N态）、未折叠态（U态），以及当溶解于pH值为2.0的60%甲醇和40%水的混合溶液中时的部分折叠态（A态）。如果A态代表泛素折叠途径中的一个中间体，那么将N态的已知结构与A态的结构进行比较，可能有助于理解泛素的折叠途径。我们也可能获得关于泛素在蛋白质降解中作用的结构基础的见解。为此，我们使用均匀富集15N的泛素的异核三维核磁共振波谱法测定了A态的二级结构。对A态中90%以上的氨基酸残基进行了序列特异性的1H和15N共振归属。这些归属是通过对三维1H-15N NOESY-HMQC和TOCSY-HMQC数据集进行协同分析得出的。由于1H化学位移简并性，15N维度提供的更高分辨率至关重要。对短程和长程核Overhauser效应（NOE）的分析表明，与N态中的五条β折叠链相比，A态中仅保留了由2-17位残基组成的前两条β折叠链。还鉴定出了由25-33位残基组成的α螺旋的NOE。这些残基在N态中也是螺旋状的。在N态中，该螺旋中的残基与前两条β折叠链中的残基相互接触。因此，在泛素的A态中，1-33位残基可能构成一个折叠结构域。基于1Hα化学位移和微弱的短程NOE，34-76位残基没有形成刚性的二级结构，但倾向于形成螺旋构象。这一观察结果可能与存在的甲醇的螺旋诱导效应有关。这里呈现的二级结构与之前通过二维1H方法测定的结果不同，且更为详尽[哈丁等人（1991年），《生物化学》，30，3120-3128]。

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部分变性蛋白质的异核三维核磁共振波谱：人泛素的A状态

Heteronuclear three-dimensional NMR spectroscopy of a partially denatured protein: the A-state of human ubiquitin.

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