3.2.1.132: chitosanase
This is an abbreviated version!
For detailed information about chitosanase, go to the full flat file.
Word Map on EC 3.2.1.132
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3.2.1.132
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chitosans
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chitooligosaccharides
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deacetylation
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oligosaccharide
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glycoside
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colloidal
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chitinases
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glcn
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endo-type
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biocontrol
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paenibacillus
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circulans
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chitotetraose
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chitosanolytic
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d-glucosamine
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food industry
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chitinolytic
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chitotriose
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synthesis
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biotechnology
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glucanase
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analysis
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industry
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pharmacology
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coss
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medicine
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chitopentaose
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chitooligomers
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lichenan
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microbacterium
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agriculture
- 3.2.1.132
- chitosans
- chitooligosaccharides
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deacetylation
- oligosaccharide
- glycoside
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colloidal
- chitinases
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glcn
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endo-type
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biocontrol
- paenibacillus
- circulans
- chitotetraose
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chitosanolytic
- d-glucosamine
- food industry
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chitinolytic
- chitotriose
- synthesis
- biotechnology
- glucanase
- analysis
- industry
- pharmacology
- coss
- medicine
- chitopentaose
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chitooligomers
- lichenan
- microbacterium
- agriculture
Reaction
Synonyms
actase, AsChi, BspCsnMN, Cel7A, Cel8A, ChA, CHI, ChiN, Chit A, Chit B, chitosan N-acetylglucosaminohydrolase, chitosanase, chitosanase 1, chitosanase CsnA, chitosanase EAG1, chitosanase II, chitosanase OU01, ChiX, CHO, Cho-GG, ChoK, Chs1, Csn, CSN-174, CSN-7M, Csn-PD, Csn1, Csn2, CsnA, CsnB, CsnM, CSNMHKI, CsnN174, CsnTS, csnw2, Cto1, CtoA, Culf-Z, endo-acting chitinase, endo-chitosanase, endochitosanase, family 46 chitosanase, GH-75 chitosanase, GsCsn46A, ImmB-Z, MH-K1 chitosanase, More, mschito, N174 chitosanase, PgChP, SACTE_5457, SCO0677, StrCSN1, StrCSN2, TKU032 chitosanase
ECTree
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Application on EC 3.2.1.132 - chitosanase
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APPLICATION 
ORGANISM
UNIPROT
COMMENTARY 
LITERATURE
agriculture
analysis
biotechnology
food industry
industry
medicine
the chitosanase has promising benefit as antibiofilm agent against biofilm forming pathogenic bacteria and has promising application as alternative antibiofilm agents to combat the growing number of multidrug resistant pathogen-associated infections, especially in situation where biofilms are involved
pharmacology
synthesis
agriculture
Pedobacter sp. PR-M6
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oligochitosan produced with Pedobacter sp. PR-M6 chitosanase is a potential agents for an antifungal activity against phytopathogens in field
agriculture
partially acetylated chitosan oligosaccharides have various potential applications in agriculture, biomedicine, and pharmaceutics due to their suitable bioactivities. A more promising approach is enzymatic depolymerization of chitosan using chitinases or chitosanases, as the substrate specificity of the enzyme determines the composition of the oligomeric products
analysis
development of a simple plate assay based on hydrolysis of soluble chitosan, for high-throughput screening for enzyme activity
analysis
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fluorimetric determination of transition temperature is a reliable method for rapid assessment of the thermal behaviour of chitosanases and applicable to structure-function studies
analysis
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fluorimetric determination of transition temperature is a reliable method for rapid assessment of the thermal behaviour of chitosanases and applicable to structure-function studies
biotechnology
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chitosanase is used as a tool for the biotechnological transformation of chitosan
biotechnology
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chitosanase is used as a tool for the biotechnological transformation of chitosan
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food industry
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has potential in the production of functional foods
food industry
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usage of strain TKU011 on the microbial reclamation of food processing wastes such as shrimp shell wastes for the production of chitosanase
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
food industry
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chitosanase from Paenibacillus mucilaginosus TKU032 may have potential applications in production of bioactive chitosan oligosaccharides for the food and pharmaceutical industries
food industry
partially acetylated chitosan oligosaccharides have various potential applications in agriculture, biomedicine, and pharmaceutics due to their suitable bioactivities. A more promising approach is enzymatic depolymerization of chitosan using chitinases or chitosanases, as the substrate specificity of the enzyme determines the composition of the oligomeric products
food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
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food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
-
food industry
-
seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
-
food industry
-
usage of strain TKU011 on the microbial reclamation of food processing wastes such as shrimp shell wastes for the production of chitosanase
-
food industry
-
seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
-
food industry
-
seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
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food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
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food industry
Bacillus sp. (in: Bacteria) TKU004
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has potential in the production of functional foods
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food industry
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seafood processing industries use chitosanase for bioconversion/valorisation of marine crustacean biomaterials
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food industry
Paenibacillus mucilaginosus TKU032
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chitosanase from Paenibacillus mucilaginosus TKU032 may have potential applications in production of bioactive chitosan oligosaccharides for the food and pharmaceutical industries
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industry
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a cheap chitosanase for large-scale chitosan oligosaccharide production in industry
industry
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the enzyme has a great potential for industrial applications due to its high yield and broad pH stability
industry
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the fusion protein of Renibacterium sp. QD1 chitosanase CsnA and the carbohydrate binding module BgCBM5 from Burkholderia gladioli (CsnA-CBM5) exhibits higher chitosan binding capacity and catalytic activity than wild-type enzyme and improved thermostability. The hybrid enzyme is a useful candidate for industrial application
industry
the high yield of the extracellular overexpression, relevant thermostability, and effective hydrolysis of commercial grade chitosan shows that this recombinant enzyme has a great potential for industrial applications
pharmacology
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chitosanase from Paenibacillus mucilaginosus TKU032 may have potential applications in production of bioactive chitosan oligosaccharides for the food and pharmaceutical industries
pharmacology
partially acetylated chitosan oligosaccharides have various potential applications in agriculture, biomedicine, and pharmaceutics due to their suitable bioactivities. A more promising approach is enzymatic depolymerization of chitosan using chitinases or chitosanases, as the substrate specificity of the enzyme determines the composition of the oligomeric products
pharmacology
Paenibacillus mucilaginosus TKU032
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chitosanase from Paenibacillus mucilaginosus TKU032 may have potential applications in production of bioactive chitosan oligosaccharides for the food and pharmaceutical industries
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synthesis
valuable enzyme for the commercial production of chitosan oligosaccharides and other chitosan hydrolysates
synthesis
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enhancement of enzyme production from 3.6 U/ml to 118 U/ml by substrate induction, statistical optimization of medium composition and culture conditions with colloidal chitosan being the best inducer and carbon source for chitosanase production
synthesis
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enzyme is able to catalyze the synthesis of small amounts of chitooctaose from a mixture of chitobiose to chitoheptaose oligomers, possible through transglycosylation. Carrying out this process in reversed micellar microreactors formed by sodium bis-2(ethylhexyl) sulfosuccinate in isooctane significantly increases formation of high degree polymerized chitooligosaccharides. Pentamer and hexamer oligosaccharides are the main glycosyl acceptors
synthesis
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expression in yeast cells as a whole-cell biocatalyst. Protein is localized to cell surface
synthesis
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optimization of production conditions. In the optimized medium, strain JG produces 0.8 mmol per min and l of enzymic activity in 72 h
synthesis
chitosanases can be used to produce partially acetylated chitosan oligosaccharides for different applications
synthesis
chitosanases can be used to produce partially acetylated chitosan oligosaccharides for different applications
synthesis
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chitosanases can be used to produce partially acetylated chitosan oligosaccharides for different applications
synthesis
the enzyme can be a competitive candidate for chitosan oligosaccharide-manufacturing industry
synthesis
the enzyme is a good candidate for production of beta-D-GlcN-(1->4)-beta-D-GlcN
synthesis
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optimization of production conditions. In the optimized medium, strain JG produces 0.8 mmol per min and l of enzymic activity in 72 h
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synthesis
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enzyme is able to catalyze the synthesis of small amounts of chitooctaose from a mixture of chitobiose to chitoheptaose oligomers, possible through transglycosylation. Carrying out this process in reversed micellar microreactors formed by sodium bis-2(ethylhexyl) sulfosuccinate in isooctane significantly increases formation of high degree polymerized chitooligosaccharides. Pentamer and hexamer oligosaccharides are the main glycosyl acceptors
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synthesis
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enhancement of enzyme production from 3.6 U/ml to 118 U/ml by substrate induction, statistical optimization of medium composition and culture conditions with colloidal chitosan being the best inducer and carbon source for chitosanase production
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synthesis
Bacillus sp. (in: Bacteria) KCTC 0377BP
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valuable enzyme for the commercial production of chitosan oligosaccharides and other chitosan hydrolysates
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synthesis
Niallia circulans MH-K1
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chitosanases can be used to produce partially acetylated chitosan oligosaccharides for different applications
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