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Improvement of multicatalytic properties of nitrilase from Paraburkholderia graminis for efficient biosynthesis of 2‐chloronicotinic acid

Nitrilases are promising biocatalysts to produce high‐value‐added carboxylic acids through hydrolysis of nitriles. However, since the enzymes always show low activity and sometimes with poor reaction specificity toward 2‐chloronicotinonitrile (2‐CN),… Click to show full abstract

Nitrilases are promising biocatalysts to produce high‐value‐added carboxylic acids through hydrolysis of nitriles. However, since the enzymes always show low activity and sometimes with poor reaction specificity toward 2‐chloronicotinonitrile (2‐CN), very few robust nitrilases have been reported for efficient production of 2‐chloronicotinic acid (2‐CA) from 2‐CN. Herein, a nitrilase from Paraburkholderia graminis (PgNIT) was engineered to improve its catalytic properties. We identified the beneficial residues via computational analysis and constructed the mutant library. The positive mutants were obtained and the activity of the “best” mutant F164G/I130L/N167Y/A55S/Q260C/T133I/R199Q toward 2‐CN was increased from 0.14 × 10−3 to 4.22 U/mg. Its reaction specificity was improved with elimination of hydration activity. Molecular docking and molecular dynamics simulation revealed that the conformational flexibility, the nucleophilic attack distance, as well as the interaction forces between the enzyme and substrate were the main reason alternating the catalytic properties of PgNIT. With the best mutant as biocatalyst, 150 g/L 2‐CN was completely converted, resulting in 2‐CA accumulated to 169.7 g/L. When the substrate concentration was increased to 200 g/L, 203.1 g/L 2‐CA was obtained with yield of 85.7%. The results laid the foundation for industrial production of 2‐CA with the nitrilase‐catalyzed route.

Keywords: paraburkholderia graminis; chloronicotinic acid; nitrilase paraburkholderia; improvement multicatalytic; multicatalytic properties

Journal Title: Biotechnology and Bioengineering
Year Published: 2022

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