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大肠杆菌磷酸转移酶系统 N,N'-二乙酰壳二糖分支的 IIAChitobiose-HPr 复合物的溶液结构。

Solution structure of the IIAChitobiose-HPr complex of the N,N'-diacetylchitobiose branch of the Escherichia coli phosphotransferase system.

机构信息

Laboratory of Chemical Physics, NIDDK, National Institutes of Health, Bethesda, Maryland 20892, USA.

出版信息

J Biol Chem. 2012 Jul 6;287(28):23819-29. doi: 10.1074/jbc.M112.371492. Epub 2012 May 16.

Abstract

The solution structure of the complex of enzyme IIA of the N,N'-diacetylchitobiose (Chb) transporter with the histidine phosphocarrier protein HPr has been solved by NMR. The IIA(Chb)-HPr complex completes the structure elucidation of representative cytoplasmic complexes for all four sugar branches of the bacterial phosphoryl transfer system (PTS). The active site His-89 of IIA(Chb) was mutated to Glu to mimic the phosphorylated state. IIA(Chb)(H89E) and HPr form a weak complex with a K(D) of ~0.7 mM. The interacting binding surfaces, concave for IIA(Chb) and convex for HPr, complement each other in terms of shape, residue type, and charge distribution, with predominantly hydrophobic residues, interspersed by some uncharged polar residues, located centrally, and polar and charged residues at the periphery. The active site histidine of HPr, His-15, is buried within the active site cleft of IIA(Chb) formed at the interface of two adjacent subunits of the IIA(Chb) trimer, thereby coming into close proximity with the active site residue, H89E, of IIA(Chb). A His89-P-His-15 pentacoordinate phosphoryl transition state can readily be modeled without necessitating any significant conformational changes, thereby facilitating rapid phosphoryl transfer. Comparison of the IIA(Chb)-HPr complex with the IIA(Chb)-IIB(Chb) complex, as well as with other cytoplasmic complexes of the PTS, highlights a unifying mechanism for recognition of structurally diverse partners. This involves generating similar binding surfaces from entirely different underlying structural elements, large interaction surfaces coupled with extensive redundancy, and side chain conformational plasticity to optimize diverse sets of intermolecular interactions.

摘要

N,N'-二乙酰壳二糖(Chb)转运酶 IIA 与组氨酸磷酸载体蛋白 HPr 的复合物的溶液结构已通过 NMR 方法解决。IIA(Chb)-HPr 复合物完成了细菌磷酸转移系统(PTS)所有四个糖分支代表性细胞质复合物的结构阐明。将 IIA(Chb)的活性位点 His-89 突变为 Glu 以模拟磷酸化状态。IIA(Chb)(H89E)和 HPr 形成一个 K(D)约为 0.7mM 的弱复合物。相互作用的结合表面,对于 IIA(Chb)是凹面,对于 HPr 是凸面,在形状、残基类型和电荷分布方面相互补充,主要是疏水性残基,中间穿插一些不带电荷的极性残基,位于中央,极性和电荷残基位于外围。HPr 的活性位点组氨酸 His-15 位于 IIA(Chb)活性位点裂缝内,该裂缝形成于 IIA(Chb)三聚体两个相邻亚基的界面处,从而与 IIA(Chb)的活性位点残基 H89E 非常接近。可以很容易地模拟具有 His89-P-His-15 五配位磷酸转移过渡态,而无需进行任何显著的构象变化,从而促进快速磷酸化转移。将 IIA(Chb)-HPr 复合物与 IIA(Chb)-IIB(Chb)复合物以及 PTS 的其他细胞质复合物进行比较,突出了一种用于识别结构多样的伴侣的统一机制。这涉及从完全不同的基础结构元素生成相似的结合表面,大的相互作用表面与广泛的冗余相结合,以及侧链构象可塑性,以优化不同的分子间相互作用集。

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