José D. Fontana scite author profile

A bacterial strain with morphological and biochemical properties close to Acetobacter xylinum has been cultured in nonagitated, inverted sucrose- and yeast water-based medium for the production of thick, smooth, and floating cellulosic pellicles. The cellulose content (greater than 90%, dry weight, depending on the efficiency of water washing) and the beta-D-homopolyglucan nature of these pellicles were assessed by physical, chemical, and enzymatic methods. The apyrogenic bacterial biomass, a minor component of the dried biofilm (BioFill), is inactivated by ethylene dioxide. Once applied on exudating or bloody tissues, this biofilm displays several advantages as a biological dressing, and hence, it is valuable as a temporary skin substitute in the treatment of skin wounds, such as burns, ulcers, grafts, and as an adjuvant in dermal abrasions.

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Recent Developments in Microbial Inulinases: Its Production, Properties, and Industrial Applications

Pandey

Soccol

Selvakumar

et al. 1999

ABAB

210

131

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Microbial inulinases are an important class of industrial enzymes that have gained much attention recently. Inulinases can be produced by a host of microorganisms, including fungi, yeast, and bacteria. Among them, however, Aspergillus sp. (filamentous fungus) and Kluyveromyces sp. (diploid yeast) are apparently the preferred choices for commercial applications. Among various substrates (carbon source) employed for their production, inulin-containing plant materials offer advantages in comparison to pure substrates. Although submerged fermentation has been universally used as the technique of fermentation, attempts are being made to develop solid-state fermentation technology also. Inulinases catalyze the hydrolysis of inulin to D-fructose (fructose syrup), which has gained an important place in human diets today. In addition, inulinases are finding other newer applications. This article reviews more recent developments, especially those made in the past decade, on microbial inulinases--its production using various microorganisms and substrates. It also describes the characteristics of various forms of inulinases produced as well as their applications.

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Activity and stability of a crude lipase from Penicillium aurantiogriseum in aqueous media and organic solvents

Lima

Krieger

Mitchell

et al. 2004

Biochemical Engineering Journal

123

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Sweet diterpenic glycosides balance of a new cultivar of Stevia rebaudiana (Bert.) Bertoni: Isolation and quantitative distribution by chromatographic, spectroscopic, and electrophoretic methods

Madrona

Silva

Costa

et al. 2005

Process Biochemistry

115

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Larvicidal action of ethanolic extracts from fruit endocarps of Melia azedarach and Azadirachta indica against the dengue mosquito Aedes aegypti

Wandscheer

Duque

Silva

et al. 2004

Toxicon

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Measurement of acetylxylan esterase in Streptomyces

Johnson¹,

Fontana²,

MacKenzie³

1988

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Carotenoid Production by Halophilic Archaea Under Different Culture Conditions

et al. 2016

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Carotenoids are pigments that may be used as colorants and antioxidants in food, pharmaceutical, and cosmetic industries. Since they also benefit human health, great efforts have been undertaken to search for natural sources of carotenoids, including microbial ones. The optimization of culture conditions to increase carotenoid yield is one of the strategies used to minimize the high cost of carotenoid production by microorganisms. Halophilic archaea are capable of producing carotenoids according to culture conditions. Their main carotenoid is bacterioruberin with 50 carbon atoms. In fact, the carotenoid has important biological functions since it acts as cell membrane reinforcement and it protects the microorganism against DNA damaging agents. Moreover, carotenoid extracts from halophilic archaea have shown high antioxidant capacity. Therefore, current review summarizes the effect of different culture conditions such as salt and carbon source concentrations in the medium, light incidence, and oxygen tension on carotenoid production by halophilic archaea and the strategies such as optimization methodology and two-stage cultivation already used to increase the carotenoid yield of these microorganisms.

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α-4-O-methyl-d-glucuronidase component of xylanolytic complexes

Fontana¹,

Gebara²,

Blümel³

et al. 1988

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José D. Fontana

Acetobacter cellulose pellicle as a temporary skin substitute

Recent Developments in Microbial Inulinases: Its Production, Properties, and Industrial Applications

Activity and stability of a crude lipase from Penicillium aurantiogriseum in aqueous media and organic solvents

Sweet diterpenic glycosides balance of a new cultivar of Stevia rebaudiana (Bert.) Bertoni: Isolation and quantitative distribution by chromatographic, spectroscopic, and electrophoretic methods

Larvicidal action of ethanolic extracts from fruit endocarps of Melia azedarach and Azadirachta indica against the dengue mosquito Aedes aegypti

Measurement of acetylxylan esterase in Streptomyces

Carotenoid Production by Halophilic Archaea Under Different Culture Conditions

α-4-O-methyl-d-glucuronidase component of xylanolytic complexes

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