Chemogenetic Evolution of a Peroxidase-like Artificial Metalloenzyme

定向进化 过氧化物酶 酶动力学 化学 丁香醛 辅因子 阿布茨 组合化学 蛋白质工程 蛋白质设计 立体化学 活动站点 生物化学 蛋白质结构 香兰素 抗氧化剂 DPPH 突变体 基因
作者
Ulrich Markel,Daniel F. Sauer,Malte Wittwer,Johannes Schiffels,Haiyang Cui,Mehdi D. Davari,Konstantin W. Kröckert,Sonja Herres‐Pawlis,Jun Okuda,Ulrich Schwaneberg
出处
期刊:ACS Catalysis [American Chemical Society]
卷期号:11 (9): 5079-5087 被引量:26
标识
DOI:10.1021/acscatal.1c00134
摘要

Directed evolution has helped enzyme engineering to remarkable successes in the past. A main challenge in directed evolution is to find the most suitable starting point, that is, an enzyme that allows maximum "evolvability". Consisting of a synthetic cofactor embedded in a protein scaffold, artificial metalloenzymes (ArMs) are reminiscent of rough-hewn ancestral metalloproteins and thus could provide an evolutionarily clean slate. Here, we report the design and directed evolution of an ArM with peroxidase-like properties based on the nitrobindin variant, NB4. After identifying a suitable artificial metal cofactor, two rounds of directed evolution were sufficient to elevate the ArM's activity to levels akin to those of some natural peroxidases (up to kcat = 14.1 s–1 and kcat/Km = 52,800 M–1 s–1). A substitution to arginine in the distal cofactor environment (position 76) was the key to boost the peroxidase activity. Molecular dynamics simulations reveal a remarkable flexibility in the distal site of the NB4 scaffold that is absent in the nitrobindin wildtype and which allows the unrestricted movement of the catalytically important Arg76. In addition to the oxidation of the common redox mediators (ABTS, syringaldehyde, and 2,6-dimethoxyphenol), the ArM proved efficient in the decolorization of three recalcitrant dyes (indigo carmine, reactive blue 19, and reactive black 5) and was amenable to several rounds of ArM recycling.

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