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活性位点环在 Amycolatopsis sp. T-1-60 NSAR/OSBS 杂合活性中的作用。

Role of an active site loop in the promiscuous activities of Amycolatopsis sp. T-1-60 NSAR/OSBS.

机构信息

Department of Biochemistry and Biophysics, Texas A&M University , 2128 TAMU, College Station, Texas 77843-2128, United States.

出版信息

Biochemistry. 2014 Jul 15;53(27):4434-44. doi: 10.1021/bi500573v. Epub 2014 Jul 3.

DOI:10.1021/bi500573v
PMID:24955846
Abstract

The o-succinylbenzoate synthase (OSBS) family is part of the functionally diverse enolase superfamily. Many proteins in one branch of the OSBS family catalyze both OSBS and N-succinylamino acid racemization in the same active site. In some promiscuous NSAR/OSBS enzymes, NSAR activity is biologically significant in addition to or instead of OSBS activity. Identifying important residues for each reaction could provide insight into how proteins evolve new functions. We have made a series of mutations in Amycolatopsis sp. T-1-60 NSAR/OSBS in an active site loop, referred to as the 20s loop. This loop affects substrate specificity in many members of the enolase superfamily but is poorly conserved within the OSBS family. Deletion of this loop decreased OSBS and NSAR catalytic efficiency by 4500-fold and 25,000-fold, respectively, showing that it is essential. Most point mutations had small effects, changing the efficiency of both NSAR and OSBS activities <10-fold compared to that of the wild type. An exception was F19A, which reduced kcat/KM(OSBS) 200-fold and kcat/KM(NSAR) 120-fold. Mutating the surface residue R20E, which can form a salt bridge to help close the 20s loop over the active site, had a more modest effect, decreasing kcat/KM of OSBS and NSAR reactions 32- and 8-fold, respectively. Several mutations increased KM of the NSAR reaction more than that of the OSBS reaction. Thus, both activities require the 20s loop, but differences in how mutations affect OSBS and NSAR activities suggest that some substitutions in this loop made a small contribution to the evolution of NSAR activity, although additional mutations were probably required.

摘要

邻琥珀酰苯甲酸合酶(OSBS)家族是功能多样的烯醇酶超家族的一部分。OSBS 家族的一个分支中的许多蛋白质在同一个活性位点中催化 OSBS 和 N-琥珀酰氨基酸外消旋化。在一些混杂的 NSAR/OSBS 酶中,NSAR 活性除了 OSBS 活性之外或代替 OSBS 活性具有生物学意义。确定每个反应的重要残基可以深入了解蛋白质如何进化出新的功能。我们在 Amycolatopsis sp. T-1-60 的 NSAR/OSBS 中一个称为 20s 环的活性位点环上进行了一系列突变。这个环影响烯醇酶超家族许多成员的底物特异性,但在 OSBS 家族中保存得很差。该环的缺失使 OSBS 和 NSAR 的催化效率分别降低了 4500 倍和 25000 倍,表明其是必需的。大多数点突变的影响较小,与野生型相比,NSAR 和 OSBS 活性的效率变化<10 倍。例外是 F19A,其使 kcat/KM(OSBS)降低了 200 倍,使 kcat/KM(NSAR)降低了 120 倍。突变表面残基 R20E,它可以形成盐桥以帮助将 20s 环封闭在活性位点上,其影响更为温和,使 OSBS 和 NSAR 反应的 kcat/KM 分别降低了 32 倍和 8 倍。一些突变使 NSAR 反应的 KM 增加超过了 OSBS 反应的 KM。因此,两种活性都需要 20s 环,但突变如何影响 OSBS 和 NSAR 活性的差异表明,该环中的一些取代对 NSAR 活性的进化做出了微小贡献,尽管可能还需要其他突变。

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