Abstract
ABSTRACT β-glucosidase (BglB) from Paenibacillus polymyxa was mutated (G23S, Rosetta/Foldit numbering; G26S, conventional numbering) to assess structural and functional changes. Foldit modeling and prior Design 2 Data (D2D) database results led us to hypothesize that this mutation would increase substrate binding affinity and catalytic efficiency, with a moderate reduction in thermal stability. The mutant protein was expressed, purified, and analyzed using kinetics and thermal stability assays. Relative to the wild-type (WT), G23S exhibited a similar binding affinity (similar K m ), an approximately 2-fold increase in turnover number (k cat ) and catalytic efficiency (k cat /K m ), an almost 14-fold increase in maximum reaction velocity (V max ) and a slight decrease in thermostability (T 50 ). The results largely support the hypothesis, indicating that changes in residue 23 can enhance catalytic power while minimally compromising stability.
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ABSTRACT
β-glucosidase (BglB) from Paenibacillus polymyxa was mutated (G23S, Rosetta/Foldit numbering; G26S, conventional numbering) to assess structural and functional changes. Foldit modeling and prior Design 2 Data (D2D) database results led us to hypothesize that this mutation would increase substrate binding affinity and catalytic efficiency, with a moderate reduction in thermal stability. The mutant protein was expressed, purified, and analyzed using kinetics and thermal stability assays. Relative to the wild-type (WT), G23S exhibited a similar binding affinity (similar Km), an approximately 2-fold increase in turnover number (kcat) and catalytic efficiency (kcat/Km), an almost 14-fold increase in maximum reaction velocity (Vmax) and a slight decrease in thermostability (T50). The results largely support the hypothesis, indicating that changes in residue 23 can enhance catalytic power while minimally compromising stability.
Competing Interest Statement
The authors have declared no competing interest.
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