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ABSTRACT: A new cold-adapted protease subtilisin BPN' mutant, termed m-51, was successfully isolated by use of an evolutionary program consisting of two-step in vitro random mutagenesis, which we developed for the screening of mutant subtilisins with increased activity at low temperature. The m-51 mutant showed 70% higher catalytic efficiency, expressed by the k(cat)/K(m) value, than the wild-type at 10 degrees C against N-succinyl-L-Ala-L-Ala-L-Pro-L-Phe-p-nitroanilide as a synthetic substrate. This cold-adaptation was achieved mainly by the increase in the k(cat) value in a temperature-dependent manner. Genetic analysis revealed that m-51 had three mutations, Ala-->Thr at position -31 (A-31T) in the prodomain, Ala-->Val at position 88 (A88V), and Ala-->Thr at position 98 (A98T). From kinetic parameters of the purified mutant enzymes, it was found that the A98T mutation led to 30% activity increase, which was enhanced up to 70% by the accompanying neutral mutation A88V. The A-31T mutation severely constrained the autoprocessing-mediated maturation of the pro-subtilisin in the Escherichia coli expression system, thus probably causing an activity-non-detectable mutation in the first step of mutagenesis. No distinct change was observed in the thermal stability of any mutant or in the substrate specificity for m-51. In the molecular models of the two single mutants (A88V and A98T), relatively large displacements of alpha carbon atoms were found around the mutation points. In the model of the double mutant (A88V/A98T), on the other hand, the structural changes around the mutation point counterbalanced each other, and thus no crucial displacements occurred. This mutual effect may be related to the enhanced activity of the double mutant.
Journal of Biochemistry 11/1999; 126(4):689-93. · 2.37 Impact Factor
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ABSTRACT: A cold-adapted protease subtilisin was successfully isolated by evolutionary engineering based on sequential in vitro random mutagenesis and an improved method of screening (H. Kano, S. Taguchi, and H. Momose, Appl. Microbiol. Biotechnol. 47:46-51, 1997). The mutant subtilisin, termed m-63, exhibited a catalytic efficiency (expressed as the kcat/Km value) 100% higher than that of the wild type at 10 degrees C when N-succinyl-L-Ala-L-Ala-L-Pro-L-Phe-p-nitroanilide was used as a synthetic substrate. This cold adaptation was achieved with three mutations, Val to Ile at position 72 (V72I), Ala to Thr at position 92 (A92T), and Gly to Asp at position 131 (G131D), and it was found that an increase in substrate affinity (i.e., a decreased Km value) was mostly responsible for the increased activity. Analysis of kinetic parameters revealed that the V72I mutation contributed negatively to the activity but that the other two mutations, A92T and G131D, overcame the negative contribution to confer the 100% increase in activity. Besides suppression of the activity-negative mutation (V72I) by A92T and G131D, suppression of structural stability was observed in measurements of activity retention at 60 degrees C and circular dichroism spectra at 10 degrees C.
Applied and Environmental Microbiology 03/1998; 64(2):492-5. · 3.83 Impact Factor
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ABSTRACT: Functional mapping was carried out to address the amino acid residues responsible for the activity of the antibacterial peptide apidaecin from the honeybee by an in vivo assay system developed previously. The C-terminal region and many of the proline and arginine residues which are present at high frequency in apidaecin were found to play an important role in its antibacterial activity.
Applied and Environmental Microbiology 01/1997; 62(12):4652-5. · 3.83 Impact Factor
