Evolution of Metabolic Diversity Laboratory, Laboratorio Nacional de Genómica para la Biodiversidad (Langebio), Cinvestav-IPN, Irapuato, México.
Mol Biol Evol. 2013 Sep;30(9):2024-34. doi: 10.1093/molbev/mst115. Epub 2013 Jun 25.
Despite the prominent role of horizontal gene transfer (HGT) in shaping bacterial metabolism, little is known about the impact of HGT on the evolution of enzyme function. Specifically, what is the influence of a recently acquired gene on the function of an existing gene? For example, certain members of the genus Corynebacterium have horizontally acquired a whole l-tryptophan biosynthetic operon, whereas in certain closely related actinobacteria, for example, Mycobacterium, the trpF gene is missing. In Mycobacterium, the function of the trpF gene is performed by a dual-substrate (βα)8 phosphoribosyl isomerase (priA gene) also involved in l-histidine (hisA gene) biosynthesis. We investigated the effect of a HGT-acquired TrpF enzyme upon PriA's substrate specificity in Corynebacterium through comparative genomics and phylogenetic reconstructions. After comprehensive in vivo and enzyme kinetic analyses of selected PriA homologs, a novel (βα)8 isomerase subfamily with a specialized function in l-histidine biosynthesis, termed subHisA, was confirmed. X-ray crystallography was used to reveal active-site mutations in subHisA important for narrowing of substrate specificity, which when mutated to the naturally occurring amino acid in PriA led to gain of function. Moreover, in silico molecular dynamic analyses demonstrated that the narrowing of substrate specificity of subHisA is concomitant with loss of ancestral protein conformational states. Our results show the importance of HGT in shaping enzyme evolution and metabolism.
尽管水平基因转移(HGT)在塑造细菌代谢方面起着重要作用,但人们对 HGT 对酶功能进化的影响知之甚少。具体来说,最近获得的基因对现有基因的功能有什么影响?例如,棒状杆菌属的某些成员水平获得了整个 l-色氨酸生物合成操纵子,而在某些密切相关的放线菌中,例如分枝杆菌,trpF 基因缺失。在分枝杆菌中,trpF 基因的功能由双底物(βα)8 磷酸核糖异构酶(priA 基因)执行,该酶也参与 l-组氨酸(hisA 基因)的生物合成。我们通过比较基因组学和系统发育重建研究了 Corynebacterium 中水平获得的 TrpF 酶对 PriA 底物特异性的影响。对选定的 PriA 同源物进行全面的体内和酶动力学分析后,确认了一个具有专门功能的新型(βα)8 异构酶亚家族,用于 l-组氨酸生物合成,称为 subHisA。利用 X 射线晶体学揭示了 subHisA 中对底物特异性变窄很重要的活性位点突变,当这些突变变为 PriA 中天然存在的氨基酸时,会导致获得功能。此外,计算机分子动力学分析表明,subHisA 底物特异性变窄与祖先蛋白构象状态的丧失同时发生。我们的研究结果表明 HGT 在塑造酶进化和代谢方面的重要性。
