LAUSR

Trypsin-like Serine Proteases are a group of homologous enzymes which exert multiple roles in both vertebrate and invertebrate organisms. Key properties of these enzymes include their activation from an inactive zymogen form to their active form by cleavage of residues in their N-terminus, the presence of a conserved catalytic triad of residues and the existence of different patterns of substrate selectivity for residue cleavage between the various members of this protein family. In this article we apply the Decomposition of Residue Coevolution Networks computational method to find sets of residues related to some of these key properties, especially to zymogen activation. Positive selection detection, normal modes analysis and the calculation of thermal couplings between for the Bovine Trypsinogen and Bovine Trypsin structures residues yielded further information for understanding the zymogen activation process and highlighted the importance of some of the Coevolved Set residues during these transitions.