Production and activity of extracellular lipase from Luteibacter sp.

Abstract

Microbial lipases are widely used in industrial applications due to their versatility, and the characterization of new lipase-producing microorganisms could provide new sources of these enzymes, with different specificities and better activities. In this context, we have improved lipase production by Luteibacter sp. by using basal medium supplemented with 2 % olive oil, a pH of 6 and a growth temperature of 37 °C. The enzyme extraction process with the addition of 0.25 % Tween 80 increased lipase activity. Implementation of these modifications increased lipase activity by approximately 430 %. The lipase activities produced in the culture supernatant (LCS) and extracted with Tween 80 (LCST80) were characterized. Both extracts hydrolyzed ρ-nitrophenyl (ρNP) esters with different acyl chain lengths, with a preference for short acyl lengths, and had optimum activity at 45 °C. The LCS was stable at acidic and alkaline pH, but LCST80 was only stable at alkaline pH. Methanol, SDS, Triton X-100, EDTA, and EGTA did not affect lipase activity, while divalent cations (Ca2+, Zn2+, Mg2+) - with the exception of Co2+— increased lipase activity. Both extracts showed transesterification activity on ρNP ester substrates, and both were able to hydrolyze different natural lipids. The characterization of lipase produced by Luteibacter sp. introduces this recently described genus as a new source of lipases with great biotechnological potential.