The CELLG3 assay reagent for the measurement of endo-cellulase (endo-1,4-β-glucanase) contains two components;
1) 4,6-O-benzylidene-2-chloro-4-nitrophenyl-β-D-cellotrioside (BCNPG3) and 2) thermostable β-glucosidase. The benzylidene blocking group prevents any hydrolytic action by the β-glucosidase on BCNPG3. Incubation with an endo-cellulase generates a non-blocked colourimetric oligosaccharide that is rapidly hydrolysed by the ancillary β-glucosidase. The rate of formation of 2-chloro-4-nitrophenol is therefore directly related to the hydrolysis of BCNPG3 by the endo-cellulase. The reaction is terminated and the phenolate colour is developed on addition of Tris buffer solution (pH 9.0).
Please note that a new assay kit (K-CELLG5) is now available for the measurement of endo-cellulase. The CELLG5 reagent contains a cellopentaose core and exhibits vastly improved sensitivity for some cellulases. In addition, the exchange of the benzylidene blocking group in CELLG3 for 3-keto-butylidene in CELLG5 improves the substrate’s water solubility significantly, allowing for a reduction in the concentration of DMSO required in the assay. As DMSO is known to inhibit certain cellulases, this is another benefit in using CELLG5. Megazyme now recommends the use of K-CELLG5 for all assays for the measurement of endo-cellulase.
Colourimetric method for the determination of endo-1,4-β-glucanase (cellulase) in enzyme preparations and fermentationproducts Principle: (endo-1,4-β-glucanase) (1) 3-Ketobutylidene-G5-β-PNP + H2O → Blocked-GX + G(5-X)-β-PNP (thermostable β-glucosidase) (2) G(5-X)-β-PNP + H2O → D-glucose + PNP (alkaline solution) (3) PNP → phenolate ion (yellow colour) Note: PNP = 4-nitrophenol
Kit size: K-CELLG5-4V 120 / 240 assays (manual) / 480 (auto-analyser) or K-CELLG5-2V 60 / 120 assays (manual) / 240 (auto-analyser) Method: Spectrophotometric at 400 nm Total assay time: 10 min Detection limit: 3.5 x 10-4 U/mL Application examples: Fermentation broths, industrial enzyme preparations, biofuels research Method recognition: Novel method
