R Margesin1, V Fauster, P-A Fonteyne. 1. Institute of Microbiology, Leopold Franzens University, Innsbruck, Austria. rosa.margesin@uibk.ac.at
Abstract
AIMS: This study was conducted to determine optimal conditions for pectate lyase (PL) production by two psychrophilic yeast strains and to compare the properties of the cold-active enzymes using mesophilic PL as reference enzyme. METHODS AND RESULTS: Two psychrophilic yeasts isolated from remote geographical locations (European Alps, north Siberia) produced extracellular cold-active PL. Both strains were identified as Mrakia frigida by analysis of ITS and large subunit (LSU) rRNA sequences. Maximum enzyme production occurred at a cultivation temperature of 1 or 5 degrees C. The apparent optimum for enzyme activity was observed at 30 degrees C and pH 8.5-9. The enzymes were thermolabile, but were resistant to repeated freezing and thawing. CONCLUSION: We describe for the first time alkaline PL-producing representatives of the yeast species M. frigida. The two strains produce cold-active PL with similar properties, but have a different enzyme production pattern. SIGNIFICANCE AND IMPACT OF THE STUDY: The enzymes described in this study could be useful for a wide range of applications, such as low-temperature pretreatment of wastewater containing pectic substances.
AIMS: This study was conducted to determine optimal conditions for pectate lyase (PL) production by two psychrophilic yeast strains and to compare the properties of the cold-active enzymes using mesophilic PL as reference enzyme. METHODS AND RESULTS: Two psychrophilic yeasts isolated from remote geographical locations (European Alps, north Siberia) produced extracellular cold-active PL. Both strains were identified as Mrakia frigida by analysis of ITS and large subunit (LSU) rRNA sequences. Maximum enzyme production occurred at a cultivation temperature of 1 or 5 degrees C. The apparent optimum for enzyme activity was observed at 30 degrees C and pH 8.5-9. The enzymes were thermolabile, but were resistant to repeated freezing and thawing. CONCLUSION: We describe for the first time alkaline PL-producing representatives of the yeast species M. frigida. The two strains produce cold-active PL with similar properties, but have a different enzyme production pattern. SIGNIFICANCE AND IMPACT OF THE STUDY: The enzymes described in this study could be useful for a wide range of applications, such as low-temperature pretreatment of wastewater containing pectic substances.