Rajan Rakhi, Bell Charles E
Department of Molecular and Cellular Biochemistry, Ohio State University College of Medicine and Public Health, 371 Hamilton Hall, 1645 Neil Avenue, Columbus, OH 43210, USA.
J Mol Biol. 2004 Dec 3;344(4):951-63. doi: 10.1016/j.jmb.2004.09.087.
The resistance of Deinococcus radiodurans (Dr) to extreme doses of ionizing radiation depends on its highly efficient capacity to repair dsDNA breaks. Dr RecA, the key protein in the repair of dsDNA breaks by homologous recombination, promotes DNA strand-exchange by an unprecedented inverse pathway, in which the presynaptic filament is formed on dsDNA instead of ssDNA. In order to gain insight into the remarkable repair capacity of Dr and the novel mechanistic features of its RecA protein, we have determined its X-ray crystal structure in complex with ATPgammaS at 2.5A resolution. Like RecA from Escherichia coli, Dr RecA crystallizes as a helical filament that is closely related to its biologically relevant form, but with a more compressed pitch of 67 A. Although the overall fold of Dr RecA is similar to E.coli RecA, there is a large reorientation of the C-terminal domain, which in E.coli RecA has a site for binding dsDNA. Compared to E.coli RecA, the inner surface along the central axis of the Dr RecA filament has an increased positive electrostatic potential. Unique amino acid residues in Dr RecA cluster around a flexible beta-hairpin that has also been implicated in DNA binding.
耐辐射球菌(Dr)对极高剂量电离辐射的抗性取决于其修复双链DNA断裂的高效能力。Dr RecA是通过同源重组修复双链DNA断裂的关键蛋白,它以前所未有的反向途径促进DNA链交换,其中突触前细丝在双链DNA而非单链DNA上形成。为了深入了解耐辐射球菌卓越的修复能力及其RecA蛋白的新机制特征,我们以2.5埃的分辨率确定了其与ATPγS复合物的X射线晶体结构。与来自大肠杆菌的RecA一样,Dr RecA结晶为螺旋细丝,与其生物学相关形式密切相关,但螺距更紧凑,为67埃。尽管Dr RecA的整体折叠与大肠杆菌RecA相似,但C端结构域有一个大的重新定向,在大肠杆菌RecA中该结构域有一个结合双链DNA的位点。与大肠杆菌RecA相比,Dr RecA细丝中心轴沿线的内表面具有更高的正静电势。Dr RecA中的独特氨基酸残基聚集在一个也与DNA结合有关的柔性β发夹周围。
