Ro-Dong Park scite author profile

Chitin deacetylases, occurring in marine bacteria, several fungi and a few insects, catalyze the deacetylation of chitin, a structural biopolymer found in countless forms of marine life, fungal cell and spore walls as well as insect cuticle and peritrophic matrices. The deacetylases recognize a sequence of four GlcNAc units in the substrate, one of which undergoes deacetylation: the resulting chitosan has a more regular deacetylation pattern than a chitosan treated with hot NaOH. Nevertheless plain chitin is a poor substrate, but glycolated, reprecipitated or depolymerized chitins are good ones. The marine Vibrio sp. colonize the chitin particles and decompose the chitin thanks to the concerted action of chitinases and deacetylases, otherwise they could not tolerate chitosan, a recognized antibacterial biopolymer. In fact, chitosan is used to prevent infections in fishes and crustaceans. Considering that chitin deacetylases play very important roles in the biological attack and defense systems, they may find applications for the biological control of fungal plant pathogens or insect pests in agriculture and for the biocontrol of opportunistic fungal human pathogens.

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Bioproduction of Chitooligosaccharides: Present and Perspectives

Jung

2014

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Chitin and chitosan oligosaccharides (COS) have been traditionally obtained by chemical digestion with strong acids. In light of the difficulties associated with these traditional production processes, environmentally compatible and reproducible production alternatives are desirable. Unlike chemical digestion, biodegradation of chitin and chitosan by enzymes or microorganisms does not require the use of toxic chemicals or excessive amounts of wastewater. Enzyme preparations with chitinase, chitosanase, and lysozymeare primarily used to hydrolyze chitin and chitosan. Commercial preparations of cellulase, protease, lipase, and pepsin provide another opportunity for oligosaccharide production. In addition to their hydrolytic activities, the transglycosylation activity of chitinolytic enzymes might be exploited for the synthesis of desired chitin oligomers and their derivatives. Chitin deacetylase is also potentially useful for the preparation of oligosaccharides. Recently, direct production of oligosaccharides from chitin and crab shells by a combination of mechanochemical grinding and enzymatic hydrolysis has been reported. Together with these, other emerging technologies such as direct degradation of chitin from crustacean shells and microbial cell walls, enzymatic synthesis of COS from small building blocks, and protein engineering technology for chitin-related enzymes have been discussed as the most significant challenge for industrial application.

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Effect of food waste compost on microbial population, soil enzyme activity and lettuce growth

Lee

Park

Kim

et al. 2004

Bioresource Technology

165

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Purification and characterization of chitosanase from Bacillus cereus D-11

Gao

Jung

et al. 2008

Carbohydrate Polymers

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Antifungal activity of gallic acid purified from Terminalia nigrovenulosa bark against Fusarium solani

Nguyen

Seo

Lee

et al. 2013

Microbial Pathogenesis

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Ro-Dong Park

Chitin Deacetylases: Properties and Applications

Bioproduction of Chitooligosaccharides: Present and Perspectives

Effect of food waste compost on microbial population, soil enzyme activity and lettuce growth

Purification and characterization of chitosanase from Bacillus cereus D-11

Antifungal activity of gallic acid purified from Terminalia nigrovenulosa bark against Fusarium solani

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