EC Number |
Natural Substrates |
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4.2.2.3 | more |
biological function of the enzyme |
4.2.2.3 | more |
biological function of the enzyme, Pseudomonas aeruginosa produces a bacterial alginate which seems to be necessary for cell attachment to the capsule-like biofilm build in lung of infected humans suffering cystic fibrosis |
4.2.2.3 | more |
enzymatic depolymerization of sodium alginate, the enzyme shows specificity for cleaving at the beta-1,4 glycosidic bond between polyM and polyG blocks of sodium alginate |
4.2.2.3 | alginate |
incorporated into cells, substrate of alginate lyase isozymes A1-I, A1-II, and A1-III |
4.2.2.3 | alginate |
increased expression of alginate lyase in mucoid strain 8830 leads to alginate degradation and increased cell detachment. When expressed from a regulated promoter, the alginate lyase can induce enhanced sloughing of cells because of degradation of the alginate. Possible role for lyase in the development of bacterial growth films |
4.2.2.3 | more |
induced by native alginate |
4.2.2.3 | more |
KJ-2 poly-mannuronate-guluronate-specific alginate lyase preferably degrades the glycosidic bond in beta-D-mannuronoyl-alpha-L-guluronate linkage than that in alpha-L-guluronoyl-beta-D-mannuronate linkage |
4.2.2.3 | disaccharides of alginate |
oligoalginate lyase, complete depolymerization of alginate |
4.2.2.3 | trisaccharides of alginate |
oligoalginate lyase, complete depolymerization of alginate |
4.2.2.3 | more |
preferably degrades poly(M)-rich substrate and rapidly decreases the viscosity of sodium alginate solution in the initial phase of degradation. Aly33 degrades poly(M)-rich substrate into various sizes of oligosaccharides in the reaction time up to 1 h and further degrades the thus formed oligosaccharides to disaccharide and monosaccharide such as alpha-keto acid in the reaction time 2-6 h |