Works about CELLOBIOSE
Results: 313
Identification and Characterization of Cellobiose 2-Epimerases from Various Aerobes.
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- Bioscience, Biotechnology & Biochemistry, 2013, v. 77, n. 1, p. 189, doi. 10.1271/bbb.120742
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Immobilization of a Thermostable Cellobiose 2-Epimerase from Rhodothermus marinus JCM9785 and Continuous Production of Epilactose.
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- Bioscience, Biotechnology & Biochemistry, 2012, v. 76, n. 8, p. 1584, doi. 10.1271/bbb.120284
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How Oxygen Binding Enhances Long‐Range Electron Transfer: Lessons From Reduction of Lytic Polysaccharide Monooxygenases by Cellobiose Dehydrogenase.
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- Angewandte Chemie, 2021, v. 133, n. 5, p. 2415, doi. 10.1002/ange.202011408
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Integrating the enzymatic syntheses of lactulose, epilactose and galacto-oligosaccharides.
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- Food & Bioproducts Processing: Transactions of the Institution of Chemical Engineers Part C, 2024, v. 147, p. 474, doi. 10.1016/j.fbp.2024.08.002
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Modeling lactulose and epilactose synthesis by a mutant cellobiose 2-epimerase from Caldicellulosiruptor saccharolyticus.
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- Food & Bioproducts Processing: Transactions of the Institution of Chemical Engineers Part C, 2024, v. 143, p. 36, doi. 10.1016/j.fbp.2023.10.002
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β‐Glucosidase produced by Moniliophthora perniciosa: Characterization and application in the hydrolysis of sugarcane bagasse.
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- Biotechnology & Applied Biochemistry, 2022, v. 69, n. 3, p. 963, doi. 10.1002/bab.2167
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Adsorption-based immobilization of Caldicellulosiruptor saccharolyticus cellobiose 2-epimerase on Bacillus subtilis spores.
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- Biotechnology & Applied Biochemistry, 2015, v. 62, n. 2, p. 237, doi. 10.1002/bab.1262
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Metabolic engineering of Agrobacterium sp. ATCC31749 for curdlan production from cellobiose.
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- Journal of Industrial Microbiology & Biotechnology, 2016, v. 43, n. 9, p. 1323, doi. 10.1007/s10295-016-1805-z
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Characterization of Clostridium thermocellum strains with disrupted fermentation end-product pathways.
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- Journal of Industrial Microbiology & Biotechnology, 2013, v. 40, n. 7, p. 725, doi. 10.1007/s10295-013-1275-5
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Co-fermentation of xylose and cellobiose by an engineered Saccharomyces cerevisiae.
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- Journal of Industrial Microbiology & Biotechnology, 2012, v. 39, n. 11, p. 1597, doi. 10.1007/s10295-012-1169-y
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Fungal β-glucosidase expression in Saccharomyces cerevisiae.
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- Journal of Industrial Microbiology & Biotechnology, 2012, v. 39, n. 10, p. 1445, doi. 10.1007/s10295-012-1150-9
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Cell surface display of a β-glucosidase employing the type V secretion system on ethanologenic Escherichia coli for the fermentation of cellobiose to ethanol.
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- Journal of Industrial Microbiology & Biotechnology, 2012, v. 39, n. 8, p. 1141, doi. 10.1007/s10295-012-1122-0
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Synthesis of stigmasteryl (β1→4)-oligoglucosides.
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- Journal of Carbohydrate Chemistry, 2016, v. 35, n. 1, p. 24, doi. 10.1080/07328303.2015.1136321
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Intraspecific functional and genetic diversity of Petriella setifera.
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- PeerJ, 2018, p. 1, doi. 10.7717/peerj.4420
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An Oxygen Insensitive Amperometric Glucose Biosensor Based on An Engineered Cellobiose Dehydrogenase: Direct versus Mediated Electron Transfer Responses.
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- ChemElectroChem, 2022, v. 9, n. 13, p. 1, doi. 10.1002/celc.202200418
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Activation of Cellobiose Dehydrogenase Bioelectrocatalysis by Carbon Nanoparticles.
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- ChemElectroChem, 2019, v. 6, n. 19, p. 5032, doi. 10.1002/celc.201901066
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Studying Direct Electron Transfer by Site‐Directed Immobilization of Cellobiose Dehydrogenase.
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- ChemElectroChem, 2019, v. 6, n. 3, p. 700, doi. 10.1002/celc.201801503
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Engineering of Cellobiose Dehydrogenases for Improved Glucose Sensitivity and Reduced Maltose Affinity.
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- ChemElectroChem, 2017, v. 4, n. 4, p. 846, doi. 10.1002/celc.201600781
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Engineering of Class II Cellobiose Dehydrogenases for Improved Glucose Sensitivity and Reduced Maltose Affinity.
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- ChemElectroChem, 2017, v. 4, n. 4, p. 750, doi. 10.1002/celc.201700226
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Cover Picture: Engineering of Cellobiose Dehydrogenases for Improved Glucose Sensitivity and Reduced Maltose Affinity (ChemElectroChem 4/2017).
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- ChemElectroChem, 2017, v. 4, n. 4, p. 748, doi. 10.1002/celc.201700227
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One-pot synthesis of cellobiose from sucrose using sucrose phosphorylase and cellobiose phosphorylase co-displaying Pichia pastoris as a reusable whole-cell biocatalyst.
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- Scientific Reports, 2024, v. 14, n. 1, p. 1, doi. 10.1038/s41598-024-69676-x
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Influence of Water-Miscible Organic Solvent on the Activity and Stability of Silica-Coated Ru Catalysts in the Selective Hydrolytic Hydrogenation of Cellobiose into Sorbitol.
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- Catalysts (2073-4344), 2020, v. 10, n. 2, p. 149, doi. 10.3390/catal10020149
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Tailoring Celluclast® Cocktail's Performance towards the Production of Prebiotic Cello-Oligosaccharides from Waste Forest Biomass.
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- Catalysts (2073-4344), 2019, v. 9, n. 11, p. 897, doi. 10.3390/catal9110897
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One-Pot Catalytic Conversion of Cellobiose to Sorbitol over Nickel Phosphides Supported on MCM-41 and Al-MCM-41.
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- Catalysts (2073-4344), 2019, v. 9, n. 1, p. 92, doi. 10.3390/catal9010092
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Virulence regulation of cel‐EIIB protein mediated PTS system in Streptococcus agalactiae in Nile tilapia.
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- Journal of Fish Diseases, 2019, v. 42, n. 1, p. 11, doi. 10.1111/jfd.12907
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Carboxylated or Aminated Polyaniline-Multiwalled Carbon Nanotubes Nanohybrids for Immobilization of Cellobiose Dehydrogenase on Gold Electrodes.
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- Biosensors (2079-6374), 2014, v. 4, n. 4, p. 370, doi. 10.3390/bios4040370
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Application of Glycolipid Biosurfactants as Surface Modifiers in Bioplastics.
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- Journal of Oleo Science, 2018, v. 67, n. 12, p. 1609, doi. 10.5650/jos.ess18116
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Characterisation of Cellulolytic Bacteria Isolated from Agricultural Soil in Central Lithuania.
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- Sustainability (2071-1050), 2023, v. 15, n. 1, p. 598, doi. 10.3390/su15010598
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Proteomics-based metabolic modeling and metabolic characterization of the cellulolytic bacterium Thermobifida fusca.
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- BMC Systems Biology, 2014, v. 8, n. 1, p. 1, doi. 10.1186/s12918-014-0086-2
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Transformation of cellobiose during the interaction of cellobiose dehydrogenase and β‐glucosidase of <italic>Cerrena unicolor</italic>.
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- Journal of Basic Microbiology, 2018, v. 58, n. 4, p. 322, doi. 10.1002/jobm.201700399
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Transcriptional regulator XYR1 activates the expression of cellobiose synthase to promote the production of cellulase from glucose.
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- Biotechnology Letters, 2018, v. 40, n. 6, p. 973, doi. 10.1007/s10529-018-2549-9
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Anaerobic microplate assay for direct microbial conversion of switchgrass and Avicel using <italic>Clostridium thermocellum</italic>.
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- Biotechnology Letters, 2018, v. 40, n. 2, p. 303, doi. 10.1007/s10529-017-2467-2
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Regular enzyme recovery enhances cellulase production by Trichoderma reesei in fed-batch culture.
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- Biotechnology Letters, 2017, v. 39, n. 10, p. 1493, doi. 10.1007/s10529-017-2379-1
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Characterization of a new multifunctional beta-glucosidase from Musca domestica.
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- Biotechnology Letters, 2017, v. 39, n. 8, p. 1219, doi. 10.1007/s10529-017-2351-0
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Disruption of non-anchored cell wall protein NCW-1 promotes cellulase production by increasing cellobiose uptake in Neurospora crassa.
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- Biotechnology Letters, 2017, v. 39, n. 4, p. 545, doi. 10.1007/s10529-016-2274-1
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Microbial kinetics of Clostridium termitidis on cellobiose and glucose for biohydrogen production.
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- Biotechnology Letters, 2015, v. 37, n. 10, p. 1965, doi. 10.1007/s10529-015-1891-4
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Improved cellobiose utilization in E. coli by including both hydrolysis and phosphorolysis mechanisms.
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- Biotechnology Letters, 2014, v. 36, n. 2, p. 301, doi. 10.1007/s10529-013-1355-7
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Characterization of a recombinant mannobiose 2-epimerase from Spirochaeta thermophila that is suggested to be a cellobiose 2-epimerase.
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- Biotechnology Letters, 2013, v. 35, n. 11, p. 1873, doi. 10.1007/s10529-013-1267-6
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Microcultivation of anaerobic bacteria single cells entrapped in alginate microbeads.
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- Biotechnology Letters, 2013, v. 35, n. 3, p. 397, doi. 10.1007/s10529-012-1094-1
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Characterization of a recombinant cellobiose 2-epimerase from Dictyoglomus turgidum that epimerizes and isomerizes β-1,4- and α-1,4-gluco-oligosaccharides.
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- Biotechnology Letters, 2012, v. 34, n. 11, p. 2061, doi. 10.1007/s10529-012-0999-z
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Molecular Phylogeny and Taxonomy of Yamadazyma dushanensis f.a., sp. nov., a Cellobiose-Fermenting Yeast Species from China.
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- Current Microbiology, 2015, v. 71, n. 2, p. 268, doi. 10.1007/s00284-015-0847-1
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A metagenomic approach to discover a novel β-glucosidase from bovine rumens.
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- Pure & Applied Chemistry, 2017, v. 89, n. 7, p. 941, doi. 10.1515/pac-2016-0924
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Cellobionate production from sodium hydroxide pretreated wheat straw by engineered Neurospora crassa HL10.
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- Bioprocess & Biosystems Engineering, 2024, v. 47, n. 10, p. 1683, doi. 10.1007/s00449-024-03061-w
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Computer-aided design of novel cellobiose 2-epimerase for efficient synthesis of lactulose using lactose.
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- Bioprocess & Biosystems Engineering, 2023, v. 46, n. 9, p. 1279, doi. 10.1007/s00449-023-02896-z
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Efficient production of cellobionic acid using whole-cell biocatalyst of genetically modified Pseudomonas taetrolens.
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- Bioprocess & Biosystems Engineering, 2022, v. 45, n. 6, p. 1057, doi. 10.1007/s00449-022-02725-9
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Enhanced glycolic acid yield through xylose and cellobiose utilization by metabolically engineered Escherichia coli.
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- Bioprocess & Biosystems Engineering, 2021, v. 44, n. 6, p. 1081, doi. 10.1007/s00449-020-02502-6
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Enhanced biochemical characteristics of β-glucosidase via adsorption and cross-linked enzyme aggregate for rapid cellobiose hydrolysis.
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- Bioprocess & Biosystems Engineering, 2020, v. 43, n. 12, p. 2209, doi. 10.1007/s00449-020-02406-5
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Trans-glycosylation capacity of a highly glycosylated multi-specific β-glucosidase from Fusarium solani.
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- Bioprocess & Biosystems Engineering, 2017, v. 40, n. 4, p. 559, doi. 10.1007/s00449-016-1721-7
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Determination of kinetics and heat of hydrolysis for non-homogenous substrate by isothermal calorimetry.
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- Bioprocess & Biosystems Engineering, 2017, v. 40, n. 4, p. 643, doi. 10.1007/s00449-016-1728-0
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Cellotriose-hydrolyzing activity conferred by truncating the carbohydrate-binding modules of Cel5 from Hahella chejuensis.
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- Bioprocess & Biosystems Engineering, 2017, v. 40, n. 2, p. 241, doi. 10.1007/s00449-016-1692-8
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