Swain A L, Kretsinger R H, Amma E L
Department of Chemistry, University of South Carolina, Columbia 29208.
J Biol Chem. 1989 Oct 5;264(28):16620-8.
Carp parvalbumin coordinates calcium through one carbonyl oxygen atom and the oxygen-containing side chains of 5 amino acid residues, or 4 residues and a water molecule, in a helix-loop-helix structural motif. Other calcium-binding proteins, including calmodulin and troponin C, also possess this unique calcium-binding design, which is designated EF-hand or calmodulin fold. Parvalbumin has two such sites, labeled CD and EF. Each of the calcium-binding sites of refined structures of proteins belonging to this group has a 7-oxygen coordination sphere except those of the structure of parvalbumin as it was reported in 1975. This structure had been refined at 1.9 A using difference Fourier techniques on film data. The CD site appeared to be 6-coordinate and the EF site 8-coordinate. Results of NMR experiments using 113Cd-substituted parvalbumin, however, indicate that the sites are similar to one another with coordination number greater than 6. To resolve the inconsistency between crystallographic and NMR results, 1.6 A area detector data was collected for native and cadmium-substituted parvalbumin; the structures have been refined to R factors of 18.7% and 16.4%, respectively, with acceptable geometry and low errors in atomic coordinates. Differences between the parvalbumin structure described in 1975 and the present structure are addressed, including the discovery of 7-coordination for both the CD and EF sites.
鲤鱼小清蛋白通过一个羰基氧原子以及螺旋-环-螺旋结构基序中5个氨基酸残基或4个残基与一个水分子的含氧侧链来配位钙离子。其他钙结合蛋白,包括钙调蛋白和肌钙蛋白C,也具有这种独特的钙结合设计,即EF手型或钙调蛋白折叠。小清蛋白有两个这样的位点,标记为CD和EF。属于该组的蛋白质精细结构的每个钙结合位点都有一个由7个氧原子组成的配位球,1975年报道的小清蛋白结构除外。该结构利用底片数据的差值傅里叶技术在1.9 Å分辨率下进行了精修。CD位点似乎是6配位的,EF位点是8配位的。然而,使用113Cd取代的小清蛋白进行的核磁共振实验结果表明,这些位点彼此相似,配位数大于6。为了解决晶体学和核磁共振结果之间的不一致,收集了天然和镉取代的小清蛋白的1.6 Å面积探测器数据;这些结构分别精修到了18.7%和16.4%的R因子,具有可接受的几何结构和低原子坐标误差。文中讨论了1975年描述的小清蛋白结构与当前结构之间的差异,包括发现CD和EF位点均为7配位。