A mechanistic model for lactose/H+ symport via the lactose permease of Escherichia coli proposed recently indicates that the permease must be protonated to bind ligand with high affinity. Moreover, in the ground state, the symported H+ is shared between His-322 (helix X) and Glu-269 (helix VIII), whereas Glu-325 (helix X) is charge-paired with Arg-302 (helix IX). Substrate binding at the outer surface induces a conformational change that leads to transfer of the H+ to Glu-325 and reorientation of the binding site to the inner surface. After release of the substrate, Glu-325 is deprotonated on the inside because of rejuxtapositioning with Arg-302. To test the role of Arg-302 in the mechanism, the catalytic properties of mutants Arg-302→Ala and Arg-302→Ser were studied. Both mutants are severely defective in active lactose transport, as well as in efflux or influx down a concentration gradient, translocation modes that involve net H+ movement. In marked contrast, the mutants catalyze equilibrium exchange of lactose and bind ligand with high affinity. These characteristics are remarkably analogous to those of permease mutants with neutral replacements for Glu-325, a residue that plays a direct role in H+ translocation. These observations lend strong support for the argument that Arg-302 interacts with Glu-325 to facilitate deprotonation of the carboxylic acid during turnover.
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机译:最近提出了一种通过大肠杆菌的乳糖渗透酶进行乳糖/ H +结合的机制模型,该模型表明渗透酶必须质子化才能以高亲和力结合配体。此外,在基态下,导入的H +在His-322(螺旋X)和Glu-269(螺旋VIII)之间共享,而Glu-325(螺旋X)与Arg-302(螺旋IX)电荷配对。底物在外表面上的结合引起构象变化,该构象变化导致H +转移到Glu-325以及结合位点重新定向到内表面。释放底物后,由于与Arg-302并置,Glu-325在内部被去质子化。为了测试Arg-302在该机理中的作用,研究了突变体Arg-302→Ala和Arg-302→Ser的催化性能。两种突变体均在活性乳糖运输以及浓度梯度外排或流入方面存在严重缺陷,涉及到净H +移动的易位模式。与之形成鲜明对比的是,这些突变体催化乳糖的平衡交换并以高亲和力结合配体。这些特征与通透酶突变体的那些特征相似,这些突变体具有中性替代Glu-325的残基,该残基在H +易位中起直接作用。这些观察结果为Arg-302与Glu-325相互作用以促进周转期间羧酸的去质子化提供了强有力的支持。
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