Disrupting putative N-glycosylation site N17 in lipase Lip11 of Yarrowia lipolytica yielded a catalytically efficient and thermostable variant accompanying conformational changes

Abstract

Lip11 gene from oleaginous yeast Yarrowia lipolytica MSR80 was recombinantly expressed in Pichia pastoris X33. Native secretion signal present in its sequence resulted in 92 % expression in comparison to α-secretion factor which resulted to 900 U/L in the extracellular broth. Catalytic triad in Lip11, like most lipases, was formed by serine, histidine, and aspartate residues. While point mutation disrupting putative glycosylation site (N389) present towards the C-terminus ruinously effected its stability and catalytic activity, disruption of the first putative glycosylation site (N17) located towards the N-terminus presented interesting insights. Mutation resulted in a variant N1 exhibiting higher thermal and acid stability; a t1/2 of 198 min was obtained at 50 °C and it retained almost 80 % activity following incubation at pH 3. Catalytic efficiency was improved by 2.7 fold and a 10 °C rise in temperature optima was accompanied by higher relative activity in acidic range. Thermal stability corresponded to convoying structural modifications in the tertiary structure, findings of fluorescence spectroscopy suggested. Thermal fluorescence studies revealed a Tm of 65 °C for both Lip11 and N1 and λmax of Lip11 exhibited a blue shift upon refolding while no shift in the λmax of N1 was observed. A resilient tertiary structure which could fold back to its native confirmation upon thermal denaturation and increase in surface-exposed hydrophobic residues as revealed by ANS binding assay summed up to thermal stability of N1. Furthermore, circular dichroism data disclosed an alternate ratio of alpha-helices and beta-sheets; respective values changed from 36 % and 8%–27% and 19 %. Following mutation, substrate specificity remained unaffected and similar to native protein, N1 showed activation in presence of organic solvents and most divalent cations.