Back to Search Start Over

Structure and Mechanism of a Cold-Adapted Bacterial Lipase

Authors :
van der Ent, Florian
Lund, Bjarte A.
Svalberg, Linn
Purg, Miha
Chukwu, Ghislean
Widersten, Mikael
V. Isaksen, Geir
Brandsdal, Bjørn O.
Åqvist, Johan
van der Ent, Florian
Lund, Bjarte A.
Svalberg, Linn
Purg, Miha
Chukwu, Ghislean
Widersten, Mikael
V. Isaksen, Geir
Brandsdal, Bjørn O.
Åqvist, Johan
Publication Year :
2022

Abstract

The structural origin of enzyme cold-adaptation has been the subject of considerable research efforts in recent years. Comparative studies of orthologous mesophilic-psychrophilic enzyme pairs found in nature are an obvious strategy for solving this problem, but they often suffer from relatively low sequence identity of the enzyme pairs. Small bacterial lipases adapted to distinctly different temperatures appear to provide an excellent model system for these types of studies, as they may show a very high degree of sequence conservation. Here, we report the first crystal structures of lipase A from the psychrophilic bacterium Bacillus pumilus, which confirm the high structural similarity to the mesophilic Bacillus subtilis enzyme, as indicated by their 81% sequence identity. We further employ extensive QM/MM calculations to delineate the catalytic reaction path and its energetics. The computational prediction of a rate-limiting deacylation step of the enzymatic ester hydrolysis reaction is verified by stopped-flow experiments, and steady-state kinetics confirms the psychrophilic nature of the B. pumilus enzyme. These results provide a useful benchmark for examining the structural basis of cold-adaptation and should now make it possible to disentangle the effects of the 34 mutations between the two enzymes on catalytic properties and thermal stability.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1337542228
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1021.acs.biochem.2c00087