Groves P, Linse S, Thulin E, Forsén S
Center for Chemistry and Chemical Engineering, Lund University, Sweden.
Protein Sci. 1997 Feb;6(2):323-30. doi: 10.1002/pro.5560060207.
Calbindin D9k is a small, well-studied calcium-binding protein consisting of two helix-loop-helix motifs called EF-hands. The P43MG2 mutant is one of a series of mutants designed to sequentially lengthen the largely unstructured tether region between the two EF-hands (F36-S44). A lower calcium affinity for P43MG was expected on the basis of simple entropic arguments. However, this is not the case and P43MG (-97 kJ.mol-1) has a stronger calcium affinity than P43M (-93 kJ.mol-1), P43G (-95 kJ.mol-1) and even wild-type protein (-96 kJ.mol-1). An NMR study was initiated to probe the structural basis for these calcium-binding results. The 1H NMR assignments and 3JHNH alpha values of the calcium-free and calcium-bound form of P43MG calbindin D9k mutant are compared with those of P43G. These comparisons reveal that little structure is formed in the tether regions of P43MG(apo), P43G(apo) and P43G(Ca) but a helical turn (S38-K41) appears to stabilize this part of the protein structure for P43MG(Ca). Several characteristic NOEs obtained from 2D and 3D NMR experiments support this novel helix. A similar, short helix exists in the crystal structure of calcium-bound wild-type calbindin D9k-but this is the first observation in solution for wild-type calbindin D9k or any of its mutants.
钙结合蛋白D9k是一种经过充分研究的小钙结合蛋白,由两个称为EF手的螺旋-环-螺旋基序组成。P43MG2突变体是一系列突变体之一,这些突变体旨在依次延长两个EF手(F36-S44)之间基本上无结构的连接区域。基于简单的熵变观点,预计P43MG对钙的亲和力较低。然而,实际情况并非如此,P43MG(-97 kJ·mol-1)比P43M(-93 kJ·mol-1)、P43G(-95 kJ·mol-1)甚至野生型蛋白(-96 kJ·mol-1)具有更强的钙亲和力。因此开展了一项核磁共振研究以探究这些钙结合结果的结构基础。将P43MG钙结合蛋白D9k突变体的无钙和钙结合形式的1H NMR归属及3JHNHα值与P43G的进行比较。这些比较表明,P43MG(脱辅基)、P43G(脱辅基)和P43G(钙结合)的连接区域几乎没有形成结构,但对于P43MG(钙结合)而言,一个螺旋圈(S38-K41)似乎稳定了蛋白质结构的这一部分。从二维和三维核磁共振实验中获得的几个特征性核Overhauser效应(NOE)支持了这个新发现的螺旋。在钙结合的野生型钙结合蛋白D9k的晶体结构中存在一个类似的短螺旋,但这是在溶液中对野生型钙结合蛋白D9k或其任何突变体的首次观察。