Improvement of stability of nitrile hydratase via protein fragment swapping

Nitrile hydratase (NHase), which catalyzes the hydration of nitriles to amides, is the key enzyme for the production of amides in industries. However, the poor stability of this enzyme under the reaction conditions is a drawback of its industrial application. In this study, we aimed to improve the stability of NHase (PpNHase) from Pseudomonas putida NRRL-18668 using a homologous protein fragment swapping strategy. One thermophilic NHase fragment from Comamonas testosteroni 5-MGAM-4D and two fragments from Pseudonocardia thermophila JCM3095 were selected to swap the corresponding fragments of PpNHase. Seven chimeric NHases were designed using STAR (site targeted amino recombination) software and molecular dynamics to determine the crossover sites for fragment recombination. All constructed chimeric NHases showed 1.4- to 3.5-fold enhancement in thermostability and six of them become more tolerant to high-concentration product. Notably, one of these NHases, 3AB, exhibited a 1.4 ± 0.05-fold increase in activity compared to the wild-type PpNHase. Circular dichroism spectrum analysis and homology modeling revealed that the 3AB slightly differed in secondary structure from wild-type PpNHase. The 3AB constructed in this study is useful for further industrial application, and the method for designing the chimeric protein using homologous protein fragment swapping without a decrease in activity may be a strategy to improve the stability of other enzymes.