Polycistronic Expression System for Composed of Chitino- and Chitosanolytic Enzymes.

Chitin is one of the most abundant biopolymers. Due to its recalcitrant nature and insolubility in accessible solvents, it is often considered waste and not a bioresource. The products of chitin modification such as chitosan and chitooligosaccharides are highly sought, but their preparation is a challenging process, typically performed with thermochemical methods that lack specificities and generate hazardous waste.

Biosurfactant from endophytic Bacillus pumilus 2A: physicochemical characterization, production and optimization and potential for plant growth promotion.

Background: Microbial surfactants called biosurfactants, thanks to their high biodegradability, low toxicity and stability can be used not only in bioremediation and oil processing, but also in the food and cosmetic industries, and even in medicine. However, the high production costs of microbial surfactants and low efficiency limit their large-scale production. This requires optimization of management conditions, including the possibility of using waste as a carbon source, such as food processing by-products.

Biosurfactant production and hydrocarbon degradation activity of endophytic bacteria isolated from Chelidonium majus L.

Background: The process of plant growth in the contaminated environment is often inhibited and entails the neutralization of harmful compounds. To reduce the negative impact of harmful compounds microorganisms produce unique compounds called biosurfactants. This paper describes the potential of culturable endophytic microorganisms from synanthropic plant-Chelidonium majus L.

Oil accumulation and in situ trans/esterification by lipolytic fungal biomass.

The goal of this study was to increase the cost-effectiveness of oil production by an oleaginous and lipolytic strain M. circinelloides IBT-83, by optimizing both lipids accumulation in the mycelium containing intracellular lipases, and a one-step process coupling lipids extraction and enzymatic trans/esterification. In optimal conditions (culture medium composed of corn steep solids, plant oil, glucose and NO) over 50g/dm of biomass containing over 60% of lipids was produced.

Scale-up of PUF-immobilized fungal chitosanase-lipase preparation production.

Mucor circinelloides IBT-83 mycelium that exhibits both lipolytic (A) and chitosanolytic (A) activities was immobilized into polyurethane foam in a 30 L laboratory fermenter. The process of immobilization was investigated in terms of the carrier porosity, its type, amount, and shape, location inside the fermenter, mixing, and aeration parameters during the culture, as well as downstream processing operations. The selected conditions allowed for immobilization of approximately 7 g of defatted and dried mycelium in 1 g of carrier, i.