Yarrowia lipolytica Lipase 2 Is Stable and Highly Active in Test Meals and Increases Fat Absorption in an Animal Model of Pancreatic Exocrine Insufficiency.

Background & Aims: Pancreatic exocrine insufficiency (PEI) reduces pancreatic secretion of digestive enzymes, including lipases. Oral pancreatic enzyme replacement therapy (PERT) with pancreatin produces unsatisfactory results. The lipase 2 produced by the yeast Yarrowia lipolytica (YLLIP2; GenBank: AJ012632) might be used in PERT.

Biochemical characterization of Yarrowia lipolytica LIP8, a secreted lipase with a cleavable C-terminal region.

Yarrowia lipolytica is a lipolytic yeast possessing 16 paralog genes coding for lipases. Little information on these lipases has been obtained and only the major secreted lipase, namely YLLIP2, had been biochemically and structurally characterized. Another secreted lipase, YLLIP8, was isolated from Y.

Modulation of metabolism and switching to biofilm prevail over exopolysaccharide production in the response of Rhizobium alamii to cadmium.

Heavy metals such as cadmium (Cd(2+)) affect microbial metabolic processes. Consequently, bacteria adapt by adjusting their cellular machinery. We have investigated the dose-dependent growth effects of Cd(2+) on Rhizobium alamii, an exopolysaccharide (EPS)-producing bacterium that forms a biofilm on plant roots.

Evidence for the cytotoxic effects of Mycobacterium tuberculosis phospholipase C towards macrophages.

Phospholipase Cs (PLCs) contribute importantly to the virulence and pathogenicity of several bacteria. It has been reported in previous studies that mutations in the four predicted plc genes of Mycobacterium tuberculosis inhibit the growth of these bacteria during the late phase of infection in mice. These enzymes have not yet been fully characterised, mainly because they are not easy to produce in large quantities.

Two cutinase-like proteins secreted by Mycobacterium tuberculosis show very different lipolytic activities reflecting their physiological function.

Cutinases are extracellular enzymes that are able to degrade cutin, a polyester protecting plant leaves and many kinds of lipids. Although cutinases are mainly found in phytopathogenic fungi or bacteria, 7 genes related to the cutinase family have been predicted in the genome of Mycobacterium tuberculosis. These genes may encode proteins that are involved in the complex lipid metabolism of the bacterium.