Qβ 溶菌蛋白 A2 的抑制机制。
Inhibitory mechanism of the Qβ lysis protein A2.
机构信息
Department of Biochemistry and Biophysics, Texas A&M University, 2128 TAMU, College Station, TX 77843-2128, USA.
出版信息
Mol Microbiol. 2012 Nov;86(4):836-44. doi: 10.1111/mmi.12021. Epub 2012 Sep 19.
Abstract
The lysis protein A2 , present as a single copy on the surface of Qβ virion particles, was previously shown to inhibit the activity of MurA, an enzyme that catalyses the first committed step of murein biosynthesis. Here we report experiments with a two-hybrid study that indicates A2 and MurA interact directly. Moreover, experiments with a soluble MBP-A2 fusion indicate that the interaction between MurA and A2 is dependent on a substrate-induced conformational change featured in the UDP-NAG-liganded state of MurA but not the tetrahedral intermediate state. Moreover, based on the location of L138Q, the original dominant A2 -resistant mutant that identified MurA as the target, a directed mutagenesis strategy has identified a continuous surface required for A2 binding. This surface spans the catalytic loop/cleft and encompasses both the catalytic and C-terminal domains. These data support a model in which A2 preferentially binds MurA liganded with UDP-NAG, thereby preventing catalysis by occluding PEP from accessing the active site.
摘要
裂解蛋白 A2 作为 Qβ 病毒粒子表面的单个拷贝存在,先前已被证明能抑制 MurA 的活性,MurA 是催化肽聚糖生物合成第一步的酶。在这里,我们报告了一项双杂交研究实验,表明 A2 和 MurA 直接相互作用。此外,与可溶性 MBP-A2 融合物的实验表明,MurA 与 A2 之间的相互作用取决于 MurA 的 UDP-NAG 配体状态下的底物诱导构象变化,但不取决于四面体型中间状态。此外,基于最初确定 MurA 为靶标的 L138Q 为主的 A2 抗性突变体的位置,一种定向诱变策略已经确定了 A2 结合所必需的连续表面。该表面跨越催化环/裂缝,并包含催化和 C 末端结构域。这些数据支持这样一种模型,即 A2 优先结合与 UDP-NAG 配体的 MurA,从而通过阻断 PEP 进入活性位点来阻止催化作用。
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