Probing catalytic hinge bending motions in thermolysin-like proteases by glycine arrow right alanine mutations

The active site of thermolysin-like proteases (TLPs) is located at the bottom of a cleft between the N- and C-terminal domains. Crystallographic studies have shown that the active-site cleft is more closed in ligand-binding TLPs than in ligand-free TLPs. Accordingly, it has been proposed that TLPs u...

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Bibliographic Details
Published in:Biochemistry (Easton) 1998-04, Vol.37 (15), p.5305-5311
Main Authors: Veltman, O R, Eijsink, VGH, Vriend, G, De Kreij, A, Venema, G, Van den Burg, B
Format: Article
Language:English
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Summary:The active site of thermolysin-like proteases (TLPs) is located at the bottom of a cleft between the N- and C-terminal domains. Crystallographic studies have shown that the active-site cleft is more closed in ligand-binding TLPs than in ligand-free TLPs. Accordingly, it has been proposed that TLPs undergo a hinge-bending motion during catalysis resulting in "closure" and "opening" of the active-site cleft. Two hinge regions have been proposed. One is located around a conserved glycine 78; the second involves residues 135 and 136. The importance of conserved glycine residues in these hinge regions was studied experimentally by analyzing the effects of Gly arrow right Ala mutations on catalytic activity. Eight such mutations were made in the TLP of Bacillus stearothermophilus (TLP-ste) and their effects on activity toward casein and various peptide substrates were determined. Only the Gly78Ala, Gly136Ala, and Gly135Ala + Gly136Ala mutants decreased catalytic activity significantly. These mutants displayed a reduction in k sub(cat)/K sub(m) for 3-(2-furylacryloyl)-L-glycyl-L-leucine amide of 73%, 62%, and 96%, respectively. Comparisons of effects on k sub(cat)/K sub(m) for various substrates with effects on the K sub(i) for phosphoramidon suggested that the mutation at position 78 primarily had an effect on substrate binding, whereas the mutations at positions 135 and 136 primarily influence k sub(cat). The apparent importance of conserved glycine residues in proposed hinge-bending regions for TLP activity supports the idea that hinge-bending is an essential part of catalysis.
ISSN:0006-2960