Scaltriti Erika, Polverini Eugenia, Grolli Stefano, Eufemi Elisa, Moineau Sylvain, Cambillau Christian, Ramoni Roberto
Dept. of Veterinary Science, Università degli Studi di Parma, Parma, Italy.
Biochim Biophys Acta. 2013 Jun;1834(6):1070-6. doi: 10.1016/j.bbapap.2013.02.014. Epub 2013 Feb 18.
Virulent lactococcal phages of the Siphoviridae family are responsible for the industrial milk fermentation failures worldwide. Lactococcus lactis, a Gram-positive bacterium widely used for the manufacture of fermented dairy products, is subjected to infections by virulent phages, predominantly those of the 936 group, including phage p2. Among the proteins coded by lactococcal phage genomes, of special interest are those expressed early, which are crucial to efficiently carry out the phage lytic cycle. We previously identified and solved the 3D structure of lactococcal phage p2 ORF34, a single stranded DNA binding protein (SSBp2). Here we investigated the molecular basis of ORF34 binding mechanism to DNA. DNA docking on SSBp2 and Molecular Dynamics simulations of the resulting complex identified R15 as a crucial residue for ssDNA binding. Electrophoretic Mobility Shift Assays (EMSA) and Atomic Force Microscopy (AFM) imaging revealed the inability of the Arg15Ala mutant to bind ssDNA, as compared to the native protein. Since R15 is highly conserved among lactococcal SSBs, we propose that its role in the SSBp2/DNA complex stabilization might be extended to all the members of this protein family.
长尾噬菌体科的烈性乳球菌噬菌体是全球工业牛奶发酵失败的原因。乳酸乳球菌是一种广泛用于生产发酵乳制品的革兰氏阳性细菌,易受烈性噬菌体感染,主要是936群的噬菌体,包括噬菌体p2。在乳球菌噬菌体基因组编码的蛋白质中,特别值得关注的是早期表达的蛋白质,它们对于有效地进行噬菌体裂解周期至关重要。我们之前鉴定并解析了乳球菌噬菌体p2的单链DNA结合蛋白(SSBp2)的ORF34的三维结构。在此,我们研究了ORF34与DNA结合机制的分子基础。将DNA对接至SSBp2并对所得复合物进行分子动力学模拟,确定R15是单链DNA结合的关键残基。与天然蛋白相比,电泳迁移率变动分析(EMSA)和原子力显微镜(AFM)成像显示Arg15Ala突变体无法结合单链DNA。由于R15在乳球菌单链结合蛋白中高度保守,我们认为其在稳定SSBp2/DNA复合物中的作用可能扩展至该蛋白家族的所有成员。
