Biochemical characterization of an alkaline and detergent-stable Lipase from Fusarium annulatum Bugnicourt strain CBS associated with olive tree dieback
Enzyme Immobilization Techniques
Science
Detergents
Materials Science
Biochemistry
Microbiology
Biomaterials
Surface-Active Agents
Tributyrin
Olea
Biochemistry, Genetics and Molecular Biology
Size-exclusion chromatography
Enzyme Stability
Molecular Biology
Biology
Fusarium solani
Ammonium sulfate precipitation
Chromatography
Q
Metabolic Engineering and Synthetic Biology
R
Temperature
Flux Balance Analysis
Membrane
Life Sciences
Lipase
Hydrogen-Ion Concentration
Chemistry
Phosphatidylcholine
Phospholipid
Triacylglycerol lipase
Enzyme
FOS: Biological sciences
Physical Sciences
Medicine
Biodegradable Polymers as Biomaterials and Packaging
Research Article
DOI:
10.1371/journal.pone.0286091
Publication Date:
2023-05-19T17:25:20Z
AUTHORS (12)
ABSTRACT
This work describes a novel extracellular lipolytic carboxylester hydrolase named FAL, with lipase and phospholipase A1 (PLA1) activity, from a newly isolated filamentous fungus Ascomycota CBS strain, identified as Fusarium annulatum Bunigcourt. FAL was purified to about 62-fold using ammonium sulphate precipitation, Superdex® 200 Increase gel filtration and Q-Sepharose Fast Flow columns, with a total yield of 21%. The specific activity of FAL was found to be 3500 U/mg at pH 9 and 40°C and 5000 U/mg at pH 11 and 45°C, on emulsions of triocanoin and egg yolk phosphatidylcholine, respectively. SDS-PAGE and zymography analysis estimated the molecular weight of FAL to be 33 kDa. FAL was shown to be a PLA1 with a regioselectivity to the sn-1 position of surface-coated phospholipids esterified with α-eleostearic acid. FAL is a serine enzyme since its activity on triglycerides and phospholipids was completely inhibited by the lipase inhibitor Orlistat (40 μM). Interestingly, compared to Fusarium graminearum lipase (GZEL) and the Thermomyces lanuginosus lipase (Lipolase®), this novel fungal (phospho)lipase showed extreme tolerance to the presence of non-polar organic solvents, non-ionic and anionic surfactants, and oxidants, in addition to significant compatibility and stability with some available laundry detergents. The analysis of washing performance showed that it has the capability to efficiently eliminate oil-stains. Overall, FAL could be an ideal choice for application in detergents.
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