Tso Shih-Chia, Yin Ying, Yu Chang-An, Yu Linda
Department of Biochemistry and Molecular Biology, Oklahoma State University, Stillwater, OK 74078, USA.
Biochim Biophys Acta. 2006 Dec;1757(12):1561-7. doi: 10.1016/j.bbabio.2006.06.010. Epub 2006 Jun 27.
A region of subunit IV comprising residues 77-85 is identified as essential for interaction with the core complex to restore the bc(1) activity (reconstitutive activity). Recombinant subunit IV mutants with single or multiple alanine substitution at this region were generated and characterized to identify the essential amino acid residues. Residues 81-84, with sequence of YRYR, are required for reconstitutive activity of subunit IV, because a mutant with these four residues substituted with alanine has little activity, while a mutant with alanine substitution at residues 77-80 and 85 have the same reconstitutive activity as that of the wild-type IV. The positively charged group at R-82 and R-84 and both the hydroxyl group and aromatic group at Y-81 and Y-83 are essential. The interactions between these four residues of subunit IV and residues of core subunits are also responsible for the stability of the complex. However, these interactions are not essential for the incorporation of subunit IV into the bc(1) complex.
亚基IV中包含第77 - 85位残基的区域被确定为与核心复合物相互作用以恢复bc(1)活性(重组活性)所必需的。产生了在该区域具有单个或多个丙氨酸取代的重组亚基IV突变体,并对其进行表征以鉴定必需的氨基酸残基。第81 - 84位残基,序列为YRYR,是亚基IV重组活性所必需的,因为这四个残基被丙氨酸取代的突变体几乎没有活性,而在第77 - 80位和85位残基被丙氨酸取代的突变体具有与野生型IV相同的重组活性。R - 82和R - 84处的带正电荷基团以及Y - 81和Y - 83处的羟基和芳香基团都是必需的。亚基IV的这四个残基与核心亚基的残基之间的相互作用也负责复合物的稳定性。然而,这些相互作用对于亚基IV掺入bc(1)复合物并非必需。