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将大肠杆菌异分支酸酯烟酰胺酶转化为γ-内酰胺酶。

Converting the E. coli Isochorismatase Nicotinamidase into γ-Lactamase.

作者信息

Guo Xiaoyan, Chang Licao, Jin Haibo, Zhu Junge, Tao Yong, Wu Sheng, Wang Jianjun

机构信息

College of New Materials and Chemical Engineering, Beijing Institute of Petrochemical Technology, Beijing, People's Republic of China.

Beijing Key Laboratory of Fuels Cleaning and Advanced Catalytic Emission Reduction Technology, Beijing, People's Republic of China.

出版信息

Microbiol Spectr. 2022 Feb 23;10(1):e0098521. doi: 10.1128/spectrum.00985-21. Epub 2022 Feb 16.

DOI:10.1128/spectrum.00985-21
PMID:35171012
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8849098/
Abstract

Nicotinamidase (Nic) (E.C.3.5.1.19) is a representative protein of the isochorismatase superfamily from Escherichia coli. Despite showing no (+) γ-lactamase activity, its active site constellations (ASCs) are very similar to those of two other known (+) γ-lactamases (Mhpg and RutB), indicating that it could be a latent (+) γ-lactamase. In this study, the primary sequences of the five representative proteins of the isochorismatase superfamily from E. coli were aligned, and a "lid"-like unit of a six-residue loop (112GENPLV117) was established. The Nic protein was converted to a (+) γ-lactamase by eliminating the loop. A conversion mechanism was proposed in which a more compact binding pocket is formed after lid deletion. In addition, the "shrunk" binding pocket stabilized the small substrate and the catalysis intermediate, which triggered catalysis. Moreover, we identified another latent (+) γ-lactamase in the E. coli isochorismatase superfamily and successfully converted it into an active (+) γ-lactamase. In summary, the isochorismatase superfamily is potentially a good candidate for obtaining novel (+) γ-lactamases. γ-Lactamases are important enzymatic catalysts in preparing optically pure γ-lactam enantiomers, which are high-value chiral intermediates. Different studies have presumed that the isochorismatase superfamily is a candidate to obtain novel (+) γ-lactamases. By engineering its substrate entrance tunnel, Nic, a representative protein of the isochorismatase superfamily, is converted to a (+) γ-lactamase. Tunnel engineering has proven effective in enhancing enzyme promiscuity. Therefore, the latent or active γ-lactamase activities of the isochorismatase superfamily members indicate their evolutionary path positions.

摘要

烟酰胺酶(Nic)(E.C.3.5.1.19)是来自大肠杆菌的异分支酸酶超家族的代表性蛋白质。尽管它不显示(+)γ-内酰胺酶活性,但其活性位点结构(ASC)与另外两种已知的(+)γ-内酰胺酶(Mhpg和RutB)非常相似,这表明它可能是一种潜在的(+)γ-内酰胺酶。在本研究中,对来自大肠杆菌的异分支酸酶超家族的五个代表性蛋白质的一级序列进行了比对,并确定了一个由六个残基环(112GENPLV117)组成的类似“盖子”的单元。通过去除该环,Nic蛋白被转化为一种(+)γ-内酰胺酶。提出了一种转化机制,即去除盖子后形成了一个更紧凑的结合口袋。此外,“收缩”后的结合口袋稳定了小底物和催化中间体,从而引发催化作用。此外,我们在大肠杆菌异分支酸酶超家族中鉴定出了另一种潜在的(+)γ-内酰胺酶,并成功地将其转化为活性(+)γ-内酰胺酶。总之,异分支酸酶超家族可能是获得新型(+)γ-内酰胺酶的良好候选者。γ-内酰胺酶是制备光学纯γ-内酰胺对映体的重要酶催化剂,γ-内酰胺对映体是高价值的手性中间体。不同的研究推测异分支酸酶超家族是获得新型(+)γ-内酰胺酶的候选者。通过改造其底物进入通道,异分支酸酶超家族的代表性蛋白质Nic被转化为一种(+)γ-内酰胺酶。通道工程已被证明在增强酶的多特异性方面是有效的。因此,异分支酸酶超家族成员潜在的或活性γ-内酰胺酶活性表明了它们在进化路径中的位置。

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J Biol Chem. 2017 Dec 8;292(49):20313-20327. doi: 10.1074/jbc.M117.802736. Epub 2017 Oct 13.
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6
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7
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