A serine alkaline protease from the fungusConidiobolus coronatus with a distinctly different structure than the serine protease subtilisin Carlsberg
Abstract In view of the functional similarities between subtilisin Carlsberg and the alkaline protease fromConidiobolus coronatus, the biochemical and structural properties of the two enzymes were compared. In spite of their similar biochemical properties, e.g., pH optima, heat stability, molecular ... Ausführliche Beschreibung
|1. Person:||Phadtare, Sangita|
|Weitere Personen:||Rao, Mala; Deshpande, Vasanti|
in Archives of microbiology Vol. 166 (1996), p. 414-417
|Genre:||Conidiobolus coronatus, Serine proteases, Subtilisin Carlsberg|
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Copyright: Copyright 1996 Springer-Verlag
Abstract In view of the functional similarities between subtilisin Carlsberg and the alkaline protease fromConidiobolus coronatus, the biochemical and structural properties of the two enzymes were compared. In spite of their similar biochemical properties, e.g., pH optima, heat stability, molecular mass, pI, esterase activity, and inhibition by diisopropyl fluorophosphate and phenylmethlysulfonylfluoride, the proteases were structurally dissimilar as revealed by (1) their amino acid compositions, (2) their inhibition by subtilisin inhibitor, (3) their immunological response to specific anti-Conidiobolus protease antibody, and (4) their tryptic peptide maps. Our results demonstrate that although they are functionally analogous, theConidiobolus protease is structurally distinct from subtilisin Carlsberg. TheConidiobolus protease was also different from other bacterial and animal proteases (e.g. pronase, protease K, trypsin, and chymotrypsin) as evidenced by their lack of response to anti-Conidiobolus protease antibody in double diffusion and in neutralization assays. TheConidiobolus serine protease fails to obey the general rule that proteins with similar functions have similar primary sequences and, thus, are evolutionarily related. Our results strengthen the concept of convergent evolution for serine proteases and provide basis for research in evolutionary relationships among fungal, bacterial, and animal proteases.