选择性
基质(水族馆)
化学
催化作用
脂肪酸
突变
生物化学
组合化学
饱和突变
突变体
活动站点
立体化学
底物特异性
定点突变
酶
蛋白质工程
有机化学
氨基酸
作者
Bin Wu,Qi He,Yiling Tang,Dongming Lan,Bo Yang,Manting Du,Yunjian Ma,Yonghua Wang
标识
DOI:10.1021/acs.jafc.5c05074
摘要
Fatty acid photodecarboxylases (FAPs) are promising biocatalysts for converting renewable fatty acids into alkanes. However, naturally occurring FAPs capable of catalyzing aromatic acids are exceedingly rare. In this study, we engineered the substrate selectivity of a novel FAP from Chrysochromulina tobinii ( Ct FAP) by modifying its catalytic pocket structure. The active variant Ct FAP-S endowed it with unique preferential catalysis of 5-phenylvaleric acid (43.1%) over linear C8 and C18 fatty acids (13.5–33.5%). Mutagenesis revealed that sites L431 and F437 are key determinants of the C t FAP-S substrate selectivity. The double mutant L431F/F437W shifted catalytic preference toward long-chain substrates, achieving 77.4% conversion for C18:0. Molecular dynamics confirmed cavity geometry-directed substrate preference modulation. Analogous mutations in other FAPs validated the universal role of catalytic pocket geometry in substrate selectivity regulation. This work provides a structure-guided strategy for tailoring FAP catalytic properties, paving a new avenue for biofuel and fine chemical production.
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