Melnyk Roman A, Kim Sanguk, Curran A Rachael, Engelman Donald M, Bowie James U, Deber Charles M
Division of Structural Biology and Biochemistry, Research Institute, Hospital for Sick Children, Toronto, Ontario M5G 1X8, Canada.
J Biol Chem. 2004 Apr 16;279(16):16591-7. doi: 10.1074/jbc.M313936200. Epub 2004 Feb 5.
Sequence motifs are responsible for ensuring the proper assembly of transmembrane (TM) helices in the lipid bilayer. To understand the mechanism by which the affinity of a common TM-TM interactive motif is controlled at the sequence level, we compared two well characterized GXXXG motif-containing homodimers, those formed by human erythrocyte protein glycophorin A (GpA, high-affinity dimer) and those formed by bacteriophage M13 major coat protein (MCP, low affinity dimer). In both constructs, the GXXXG motif is necessary for TM-TM association. Although the remaining interfacial residues (underlined) in GpA (LIXXGVXXGVXXT) differ from those in MCP (VVXXGAXXGIXXF), molecular modeling performed here indicated that GpA and MCP dimers possess the same overall fold. Thus, we could introduce GpA interfacial residues, alone and in combination, into the MCP sequence to help decrypt the determinants of dimer affinity. Using both in vivo TOXCAT assays and SDS-PAGE gel migration rates of synthetic peptides derived from TM regions of the proteins, we found that the most distal interfacial sites, 12 residues apart (and approximately 18 A in structural space), work in concert to control TM-TM affinity synergistically.
序列基序负责确保跨膜(TM)螺旋在脂质双层中正确组装。为了理解在序列水平上控制常见TM-TM相互作用基序亲和力的机制,我们比较了两个特征明确的含GXXXG基序的同二聚体,即由人红细胞蛋白血型糖蛋白A形成的同二聚体(GpA,高亲和力二聚体)和由噬菌体M13主要衣壳蛋白形成的同二聚体(MCP,低亲和力二聚体)。在这两种构建体中,GXXXG基序对于TM-TM缔合是必需的。尽管GpA(LIXXGVXXGVXXT)中其余的界面残基(下划线)与MCP(VVXXGAXXGIXXF)中的不同,但此处进行的分子建模表明GpA和MCP二聚体具有相同的整体折叠。因此,我们可以将GpA界面残基单独或组合引入MCP序列中,以帮助解读二聚体亲和力的决定因素。使用体内TOXCAT测定法和源自蛋白质TM区域的合成肽的SDS-PAGE凝胶迁移率,我们发现最远端的界面位点相距12个残基(在结构空间中约为18 Å),协同作用以协同控制TM-TM亲和力。
