AI Article Synopsis
- Engineering studies of lipase A (CalA) reveal its ability to selectively hydrolyze fatty acid esters of varying chain lengths through a substrate-binding tunnel connected to its active site.
- Residues located outside the tunnel also influence substrate selectivity, and modifications to these areas can affect how the enzyme interacts with different fatty acids.
- The research combines experimental testing and computational analysis to show that changes in both the tunnel and distal regions contribute to the enzyme's diverse selectivity profiles, highlighting its potential for various applications.
Article Abstract
Engineering studies of lipase A (CalA) have demonstrated the potential of this enzyme in the selective hydrolysis of fatty acid esters of different chain lengths. CalA has been shown to bind substrates preferentially through an acyl-chain binding tunnel accessed via the hydrolytic active site; it has also been shown that selectivity for substrates of longer or shorter chain length can be tuned, for instance by modulating steric hindrance within the tunnel. Here we demonstrate that, whereas the tunnel region is certainly of paramount importance for substrate recognition, residues in distal regions of the enzyme can also modulate substrate selectivity. To this end, we investigate variants that carry one or more substitutions within the substrate tunnel as well as in distal regions. Combining experimental determination of the substrate selectivity using natural and synthetic substrates with computational characterization of protein dynamics and of tunnels, we deconvolute the effect of key substitutions and demonstrate that epistatic interactions contribute to procuring selectivity toward either long-chain or short/medium-chain fatty acid esters. We demonstrate that various mechanisms contribute to the diverse selectivity profiles, ranging from reshaping tunnel morphology and tunnel stabilization to obstructing the main substrate-binding tunnel, highlighting the dynamic nature of the substrate-binding region. This work provides important insights into the versatility of this robust lipase toward diverse applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9851156 | PMC |
| http://dx.doi.org/10.1021/acs.biochem.2c00513 | DOI Listing |
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