Lio Yi-Ching, Mazin Alexander V, Kowalczykowski Stephen C, Chen David J
Life Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720, USA.
J Biol Chem. 2003 Jan 24;278(4):2469-78. doi: 10.1074/jbc.M211038200. Epub 2002 Nov 8.
The human Rad51 protein is essential for DNA repair by homologous recombination. In addition to Rad51 protein, five paralogs have been identified: Rad51B/Rad51L1, Rad51C/Rad51L2, Rad51D/Rad51L3, XRCC2, and XRCC3. To further characterize a subset of these proteins, recombinant Rad51, Rad51B-(His)(6), and Rad51C proteins were individually expressed employing the baculovirus system, and each was purified from Sf9 insect cells. Evidence from nickel-nitrilotriacetic acid pull-down experiments demonstrates a highly stable Rad51B.Rad51C heterodimer, which interacts weakly with Rad51. Rad51B and Rad51C proteins were found to bind single- and double-stranded DNA and to preferentially bind 3'-end-tailed double-stranded DNA. The ability to bind DNA was elevated with mixed Rad51 and Rad51C, as well as with mixed Rad51B and Rad51C, compared with that of the individual protein. In addition, both Rad51B and Rad51C exhibit DNA-stimulated ATPase activity. Rad51C displays an ATP-independent apparent DNA strand exchange activity, whereas Rad51B shows no such activity; this apparent strand exchange ability results actually from a duplex DNA destabilization capability of Rad51C. By analogy to the yeast Rad55 and Rad57, our results suggest that Rad51B and Rad51C function through interactions with the human Rad51 recombinase and play a crucial role in the homologous recombinational repair pathway.
人类Rad51蛋白对于通过同源重组进行的DNA修复至关重要。除了Rad51蛋白外,还鉴定出了五个旁系同源物:Rad51B/Rad51L1、Rad51C/Rad51L2、Rad51D/Rad51L3、XRCC2和XRCC3。为了进一步表征这些蛋白的一个子集,利用杆状病毒系统分别表达了重组Rad51、Rad51B-(His)6和Rad51C蛋白,并从Sf9昆虫细胞中对每种蛋白进行了纯化。镍-次氮基三乙酸下拉实验的证据表明,Rad51B.Rad51C异二聚体高度稳定,它与Rad51的相互作用较弱。发现Rad51B和Rad51C蛋白能结合单链和双链DNA,并优先结合3'端带尾的双链DNA。与单个蛋白相比,Rad51与Rad51C混合以及Rad51B与Rad51C混合时,结合DNA的能力有所提高。此外,Rad51B和Rad51C都表现出DNA刺激的ATP酶活性。Rad51C表现出一种不依赖ATP的明显的DNA链交换活性,而Rad51B则没有这种活性;这种明显的链交换能力实际上是由Rad51C的双链DNA去稳定化能力导致的。与酵母Rad55和Rad57类似,我们的结果表明,Rad51B和Rad51C通过与人类Rad51重组酶相互作用发挥功能,并在同源重组修复途径中起关键作用。
