Molecular Biology Division, Bhabha Atomic Research Centre, Mumbai 400 085, India.
Int J Biochem Cell Biol. 2013 Nov;45(11):2541-52. doi: 10.1016/j.biocel.2013.08.011. Epub 2013 Aug 28.
The DR2518 (RqkA) a eukaryotic type serine/threonine protein kinase in Deinococcus radiodurans was characterized for its role in bacterial response to oxidative stress and DNA damage. The K42A, S162A, T169A and S171A mutation in RqkA differentially affected its kinase activity and functional complementation for γ radiation resistance in Δdr2518 mutant. For example, K42A mutant was completely inactive and showed no complementation while S171A, T169A and T169A/S171A mutants were less active and complemented proportionally to different levels as compared to wild type. Amongst, different DNA binding proteins that purified RqkA could phosphorylate, PprA a DNA repair protein, phosphorylation had improved its affinity to DNA by 4 fold and could enhance its supportive role in intermolecular ligation by T4 DNA ligase. RqkA phosphorylates PprA at threonine 72 (T72), serine 112 (S112) and threonine 144 (T144) in vitro with the majority of it goes to T72 site. Unlike wild type PprA and single mutants of T72, S112 and T144 residues, the T72AS112A double and T72AS112AT144A triple mutant derivatives of PprA did not phosphorylate in vivo and also failed to complement PprA loss in D. radiodurans. Deletion of rqkA in pprA::cat background enhanced radiosensitivity of pprA mutant, which became nearly similar to ΔrqkA resistance to γ radiation. These results suggested that K42 of RqkA is essential for catalytic functions and the kinase activity of RqkA as well as phosphorylation of PprA have roles in γ radiation resistance of D. radiodurans.
耐辐射球菌 DR2518(RqkA)是一种真核丝氨酸/苏氨酸蛋白激酶,其在细菌对氧化应激和 DNA 损伤的反应中具有作用。RqkA 的 K42A、S162A、T169A 和 S171A 突变分别影响其激酶活性和对 Δdr2518 突变体γ辐射抗性的功能互补。例如,K42A 突变体完全无活性,无互补作用,而 S171A、T169A 和 T169A/S171A 突变体的活性较低,与野生型相比,互补程度也相应较低。其中,能使 RqkA 磷酸化的不同 DNA 结合蛋白,PprA 是一种 DNA 修复蛋白,磷酸化可使其与 DNA 的亲和力提高 4 倍,并能增强 T4 DNA 连接酶在分子间连接中的支持作用。RqkA 在体外将 PprA 磷酸化于苏氨酸 72(T72)、丝氨酸 112(S112)和苏氨酸 144(T144),其中大部分发生在 T72 位点。与野生型 PprA 以及 T72、S112 和 T144 残基的单一突变体不同,PprA 的 T72AS112A 双突变体和 T72AS112AT144A 三突变体衍生物不能在体内磷酸化,也不能弥补 D. radiodurans 中 PprA 的缺失。在 pprA::cat 背景下删除 rqkA 增强了 pprA 突变体的放射敏感性,使其对 γ 辐射的抗性几乎与 ΔrqkA 相同。这些结果表明,RqkA 的 K42 对于催化功能和 RqkA 的激酶活性以及 PprA 的磷酸化在 D. radiodurans 的γ 辐射抗性中都具有作用。
