AI Article Synopsis
- This study focuses on creating stable nanogels in water that enhance the activity of lipase enzymes for breaking down water-insoluble substances.
- Different types of surfactant-coated gel nanoparticles (neutral, anionic, and cationic) were formed using peptide-based materials, optimized for hydrophilic and lipophilic balance.
- The presence of these nanogels increased lipase activity significantly (up to 8 times) for certain substrates, and the structure of the lipase changed positively when immobilized in the nanogels, improving its overall efficiency.
Article Abstract
The present work depicts the development of stable nanogels in an aqueous medium that were exploited for efficient surface-active lipase-catalyzed hydrolysis of water-insoluble substrates. Surfactant-coated gel nanoparticles (neutral NG1, anionic NG2, and cationic NG3) were prepared from peptide amphiphilic hydrogelator (G1, G2, and G3, respectively) at different hydrophilic and lipophilic balance (HLB). Chromobacterium viscosum (CV) lipase activity towards hydrolysis of water-insoluble substrates (p-nitrophyenyl-n-alkanoates (C4-C10)) in the presence of nanogels got remarkably improved by ~1.7-8.0 fold in comparison to that in aqueous buffer and other self-aggregates. An increase in hydrophobicity of the substrate led to a notable improvement in lipase activity in the hydrophilic domain (HLB>8.0) of nanogels. The micro-heterogeneous interface of small-sized (10-65 nm) nanogel was found to be an appropriate scaffold for immobilizing surface-active lipase to exhibit superior catalytic efficiency. Concurrently, the flexible conformation of lipase immobilized in nanogels was reflected in its secondary structure having the highest α-helix content from the circular dichroism spectra.
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| http://dx.doi.org/10.1002/cbic.202300253 | DOI Listing |
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