Utilization of animal fat waste as carbon source by carotenogenic yeasts – a screening study

Author:

Marova Ivana1,Szotkowski Martin1,Vanek Martin1,Rapta Marek1,Byrtusova Dana1,Mikheichyk Nadzeya1,Haronikova Andrea1,Certik Milan2,Shapaval Volha3

Affiliation:

1. Materials Research Centre, Faculty of Chemistry BUT, Brno , Czech Republic

2. Faculty of Biotechnical Technology, Slovak Technical University, Bratislava , Slovakia

3. Norwegian University of Life Sciences, As , Norway

Abstract

Abstract Red yeast strains are ubiquitous microorganisms which accumulate substantial amounts of lipids and lipid-soluble metabolites. Red yeasts utilize many waste substrates of different origin. In this work red yeasts strains (Rhodotorula, Sporobolomyces, Cystofilobasidium) were used for screening of growth and metabolic activity. As a carbon source waste animal fat and its hydrolysis products were used. Hydrolysis of animal fat was tested in alkaline as well as acidic conditions. As the substrate glucose (control), glycerol, crude animal fat, acid fat hydrolyzate and hydrolysate: glucose 1:2 were used. Screening of growth and metabolic activity of red yeasts was performed by flow cytometry. Extracellular lipase production was monitored as adaptation mechanism. Carotenoids, ergosterol and ubiquinone were quantified by HPLC/PDA/MS/ESI and the biomass was evaluated gravimetrically. All tested strains utilized fat hydrolysate and produced red coloured biomass. Cultivation in media containing non-hydrolysed fat led to strain specific induction of extracellular lipase. Amount of lipid metabolites produced by individual strains was depended on glycerol content in medium. The highest increase of lipase production was observed in Cystofilobasidium macerans and Sporobolomyces shibatanus. Valorisation of animal fat can lead to production of unsaturated fatty acids, single cell oils, carotenoid pigments, sterols and enriched red yeast biomass.

Publisher

Walter de Gruyter GmbH

Subject

Genetics,Molecular Biology,Biomedical Engineering,Molecular Medicine,Food Science,Biotechnology

Reference19 articles.

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