Title of article
Combinatorial Enzyme Design Probes Allostery and Cooperativity in the Trypsin Fold
Author/Authors
Michael J. Page، نويسنده , , Enrico Di Cera، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
14
From page
306
To page
319
Abstract
Converting one enzyme into another is challenging due to the uneven distribution of important amino acids for function in both protein sequence and structure. We report a strategy for protein engineering allowing an organized mixing and matching of genetic material that leverages lower throughput with increased quality of screens. Our approach successfully tested the contribution of each surface-exposed loop in the trypsin fold alone and the cooperativity of their combinations towards building the substrate selectivity and Na+-dependent allosteric activation of the protease domain of human coagulation factor Xa into a bacterial trypsin. As the created proteases lack additional protein domains and protein co-factor activation mechanism requisite for the complexity of blood coagulation, they are stepping-stones towards further understanding and engineering of artificial clotting factors.
Keywords
substrate selectivity , blood coagulation , Allostery , cooperativity , protein engineering
Journal title
Journal of Molecular Biology
Serial Year
2010
Journal title
Journal of Molecular Biology
Record number
1251758
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