EC Number |
Application |
Reference |
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3.2.1.8 | agriculture |
unprocessed Xyn2, supplemented to a xylan-containing diet for weaned pigs, results an average body-weight gain increased by 16.9% with added Xyn2 at a concentration of 500 U/kg diet |
707911 |
3.2.1.8 | analysis |
construction of a pipeline based on Leishmania tarentolae cell-free system to characterize 30 putative thermostable endo-1,4-beta-glucanases and xylanases identified in public genomic databases. The system uses high-throughput assays for glucanase and xylanase activities that rely on solubilisation of labelled particulate substrates performed in multiwell plates |
745427 |
3.2.1.8 | analysis |
enzyme coupled assay procedure, using substrate 4-nitrophenyl 4,6-O-(3-oxobutylidene)-beta-D-glucosyl-(1->4)-[(1->4)-beta-D-xylopentaoside] and release of 4-nitrophenol by beta-xylosidase |
744626 |
3.2.1.8 | biofuel production |
potential applications on biofuels and paper industries |
-, 746962 |
3.2.1.8 | biofuel production |
pre-treatment for ethanol formation from lignin-cellulose fibres more efficiently |
695679 |
3.2.1.8 | biofuel production |
RuCelA can produce xylo-oligosaccharides and cell-oligosaccharides in the continuous saccharification of pretreated rice straw, which can be further degraded into fermentable sugars. Therefor, the bifunctional RuCelA distinguishes itself as an ideal candidate for industrial application |
717134 |
3.2.1.8 | biofuel production |
the enzyme is a candidate for the utilization of agro-industrial waste for fuel production |
-, 692258 |
3.2.1.8 | biofuel production |
the fusion enzyme (EG-M-Xyn) of endoglucanase (cellulase) from Teleogryllus emma and xylanase from Thermomyces lanuginosus has great potential in generating fermentable sugars from renewable agro-residues for biofuel and fine chemical industry. Application of the fusion enzyme (EG-M-Xyn)in combination with Ctec2 (commercial enzyme) in the saccharification leads to a 10-20% net increase in fermentable sugars liberated from pretreated rice straw in comparison to the Ctec2 alone |
750783 |
3.2.1.8 | biotechnology |
increasingly used in a number of biotechnological processes, including bread-making, gluten-starch separation, improving nutritional properties of animal feed, and the bleaching of cellulose pulp in paper manufacturing |
682027 |
3.2.1.8 | degradation |
a fungal consortium of Aspergillus nidulans, Mycothermus thermophilus, and Humicola sp. composts a mixture (1:1) of silica rich paddy straw and lignin rich soybean trash during summer period in North India, results in a product with C:N ratio 9.5:1, available phosphorus 0.042% and fungal biomass 6.512 mg of N-acetyl glucosamine/100 mg of compost. A C:N ratio of 10.2:1 and highest humus content of 3.3% is achieved with 1:1 mixture of paddy straw and soybean trash. The consortium shows high cellobiase, carboxymethyl cellulase, xylanase, and FPase activities |
742020 |