Non-destructive efficient green recovery of multiple high value products from microalgal cells with enzymatically enhanced permeability

Abstract

A method is developed for simultaneous extraction of lipids, hydrocarbons and carotenoids from primary algal biomass without the need for cell sacrifice. Enzymatically predigested cells (from previous experiments) with enhanced permeability were used, for ‘milking’ with biocompatible solvent. The continuous non-destructive extraction of lipids and carotenoids from an improved permeabilized microalgal cell using crude enzyme concoctions and biocompatible solvents has not been reported so far. Oocystis sp. cells showed considerable viability following enzymatic pretreatment and extraction using dodecane which was verified through cell viability assays, and chlorophyll content. HPLC analysis confirmed the presence of lutein and zeaxanthin. GC-MS analysis showed the presence of omega-3 alpha linolenic acid, PUFAs, and phenolics, in enzymatically digested microalgal cells. The content of fatty acids and esters in enzyme treated samples was 57.18%, and the enzyme with dodecane treated samples showed 31.4% fatty acids and esters content. Omega-3 linolenic acid comprised 11.66% in enzyme treated cells and showed a marginal increase of 12.5% in enzyme with dodecane treated cells. The method enables recovery of multiple compounds from a single biomass. In the present study, a cultivation strategy of microalgal cells with enhanced permeability, grown in biocompatible solvent is proposed, whereby maximum yield of multiple valuable metabolites can be obtained from a single biomass. The method simplifies downstream processing operations by circumventing cell harvesting and drying. The use of green extraction solvents reduces the overall carbon footprint of the process.