posted on 2020-08-06, 22:21authored byVerónica Nolan, Alejandro Collin, Carolina Rodriguez, María A. Perillo
Here, we report the effect of polyethylene
glycol (PEG6000)-induced molecular crowding (MC) on the
catalytic activity and thermal
stability of Kluyveromyces lactis β-galactosidase
(β-Gal). The β-Gal-catalyzed hydrolysis of o-nitrophenyl-β-d-galactopyranoside followed a Michaelian
kinetics at [PEG6000] ≤ 25% w/v and positive cooperativity
at higher concentrations (35% w/v PEG6000). Compared with
dilute solutions, in the MC media, β-Gal exhibited stronger
thermal stability, as shown by the increase in the residual activity
recovered after preincubation at high temperatures (e.g., 45 °C) and by the slower inactivation kinetics. Considering
the effects of water thermodynamic activity on the reaction kinetics
and protein structure and the effect of the exclusion volume on protein
conformation, we suggest that changes in the protein oligomerization
state and hydration could be the responsible for the behavior observed
at the highest MC levels assayed. These results could be relevant
and should be taken into account in industrial food processes applying
β-Gal from K. lactis.