CNRS, Aix-Marseille Université, Architecture et Fonction des Macromolécules Biologiques (AFMB) UMR 7257, 13288 Marseille, France.
Protein Sci. 2012 Oct;21(10):1577-85. doi: 10.1002/pro.2138. Epub 2012 Sep 17.
The intrinsically disordered C-terminal domain (N(TAIL) ) of the measles virus (MeV) nucleoprotein undergoes α-helical folding upon binding to the C-terminal X domain (XD) of the phosphoprotein. The N(TAIL) region involved in binding coupled to folding has been mapped to a conserved region (Box2) encompassing residues 489-506. In the previous studies published in this journal, we obtained experimental evidence supporting a K(D) for the N(TAIL) -XD binding reaction in the nM range and also showed that an additional N(TAIL) region (Box3, aa 517-525) plays a role in binding to XD. In striking contrast with these data, studies published in this journal by Kingston and coworkers pointed out a much less stable complex (K(D) in the μM range) and supported lack of involvement of Box3 in complex formation. The objective of this study was to critically re-evaluate the role of Box3 in N(TAIL) -XD binding. Since our previous studies relied on N(TAIL) -truncated forms possessing an irrelevant Flag sequence appended at their C-terminus, we, herein, generated an N(TAIL) devoid of Box3 and any additional C-terminal residues, as well as a form encompassing only residues 482-525. We then used isothermal titration calorimetry to characterize the binding reactions between XD and these N(TAIL) forms. Results effectively argue for the presence of a single XD-binding site located within Box2, in agreement with the results by Kingston et al., while providing clear experimental support for a high-affinity complex. Altogether, the present data provide mechanistic insights into the replicative machinery of MeV and clarify a hitherto highly debated point.
麻疹病毒(Measles virus,MeV)核蛋白的无规卷曲 C 端结构域(N(TAIL))在与磷蛋白 C 端 X 结构域(XD)结合后发生α-螺旋折叠。与结合偶联的折叠所涉及的 N(TAIL)区域已映射到一个保守区域(Box2),包含残基 489-506。在之前发表于本期刊的研究中,我们获得了支持 N(TAIL)-XD 结合反应的 K(D)值在纳摩尔范围内的实验证据,还表明 XD 结合中涉及到一个额外的 N(TAIL)区域(Box3,残基 517-525)。与这些数据形成鲜明对比的是,Kingston 及其同事在本期刊上发表的研究指出了一个稳定性低得多的复合物(K(D)值在微摩尔范围内),并支持 Box3 不参与复合物形成。本研究的目的是重新评估 Box3 在 N(TAIL)-XD 结合中的作用。由于我们之前的研究依赖于具有 C 末端附加无关 Flag 序列的 N(TAIL)截断形式,因此我们在此生成了一个没有 Box3 和任何额外 C 末端残基的 N(TAIL),以及仅包含残基 482-525 的形式。然后,我们使用等温滴定量热法来描述 XD 与这些 N(TAIL)形式之间的结合反应。结果有效地证明了存在一个位于 Box2 内的单个 XD 结合位点,与 Kingston 等人的结果一致,同时为高亲和力复合物提供了明确的实验支持。总之,这些数据提供了对 MeV 复制机制的机制见解,并澄清了一个迄今为止备受争议的观点。