Remarkable activity enhancement of thermolysin mutants

Remarkable activity enhancement of thermolysin mutants

Most attempts to modify the properties of enzymes by amino acid substitution around the active sites have resulted in suppression of the biological activity, suggesting that the structure of natural enzymes should be almost optimized evolutionally to show the highest activity. In contrast, we found...

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Veröffentlicht in:FEBS letters 1995-06, Vol.367 (1), p.73-76
Hauptverfasser: Kidokoro, Shun-ichi, Miki, Yoichiro, Endo, Kimiko, Wada, Akiyoshi, Nagao, Hiromasa, Miyake, Toshio, Aoyama, Atsuo, Yoneya, Takashi, Kai, Kenichi, Ooe, Seigo
Format: Artikel
Sprache:eng
Schlagworte:
Activity
Amino acid mutation
circular dichroism
Design principle
differential scaning calorimetry
DSC
Enzyme Activation - genetics
Enzyme stability
FADFM
FAGLA
methylester
Mutagenesis, Site-Directed
N-(3-[2-furyl]acryloyl)-glycyl-l-leucine amide
Thermolysin - genetics
Thermolysin - metabolism
three-dimensional
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Zusammenfassung:Most attempts to modify the properties of enzymes by amino acid substitution around the active sites have resulted in suppression of the biological activity, suggesting that the structure of natural enzymes should be almost optimized evolutionally to show the highest activity. In contrast, we found an interesting site of a well-known metalloendopeptidase, thermolysin (EC. 3.4.24.4), where almost all the amino acid replacement causes a remarkable increase in the hydrolytic activity. Negative correlation between the activity and the thermal stability was observed. The flexibility around the substrate binding site is suggested to be a key to the correlation. Nature may have selected the amino acid at this site, which suppresses the flexibility of the molecule, to get the highest thermal stability at the expense of the activity.
ISSN:0014-5793
1873-3468
DOI:10.1016/0014-5793(95)00537-J