Publications by authors named "Janmejay Laha"
Allostery, as seen in extant biology, governs the activity regulation of enzymes through the redistribution of conformational equilibria upon binding an effector. Herein, a minimal design is demonstrated where a dipeptide can exploit dynamic imine linkage to condense with simple aldehydes to access spherical aggregates as catalytically active states, which facilitates an orthogonal reaction due to the closer proximity of catalytic residues (imidazoles). The allosteric site (amine) of the minimal catalyst can concomitantly bind to an inhibitor via a dynamic exchange, which leads to the alternation of the energy landscape of the self-assembled state, resulting in downregulation of catalytic activity.
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- Large enzymes usually rely on small cofactors like dihydronicotinamides to help carry out essential metabolic reactions, but these cofactors are not very effective on their own.
- This study introduces short peptide-based amyloid nanotubes that can efficiently bind to weak hydride transfer agents and facilitate the reduction of ester substrates in water.
- The findings suggest that these amyloid structures could have played a crucial role in the development of early metabolic processes and the evolution of biopolymers on prebiotic Earth.