Phosphorylase coupling as a tool to convert cellobiose into amyloseOHDAN, Kohji; FUJII, Kazutoshi; YANASE, Michiyo et al.Journal of biotechnology. 2007, Vol 127, Num 3, pp 496-502, issn 0168-1656, 7 p.Article

Borate enhances the production of lactulose from lactose by cellobiose 2-epimerase from Caldicellulosiruptor saccharolyticusKIM, Yeong-Su; KIM, Jung-Eun; OH, Deok-Kun et al.Bioresource technology. 2013, Vol 128, pp 809-812, issn 0960-8524, 4 p.Article

Functional consortium for hydrogen production from cellobiose : Concentration-to-extinction approachADAV, Sunil S; LEE, Duu-Jong; AIJIE WANG et al.Bioresource technology. 2009, Vol 100, Num 9, pp 2546-2550, issn 0960-8524, 5 p.Article

Effect of N-methyl-1-deoxy-nojirimycin on the degradation of cellobiose by Cellulomonas cartalyticum = Effet de la N-méthyl-désoxy-1-nojirimycine sur la dégradation du cellobiose par Cellulomonas cartalyticumSAHM, H; SCHIMZ, K. L.Applied microbiology and biotechnology. 1984, Vol 20, Num 1, pp 54-58, issn 0175-7598Article

Molecular cloning and characterization of a cDNA encoding cellobiose dehydrogenase from the wood-rotting fungus Grifola frondosaYOSHIDA, Makoto; OHIRA, Tsuyoshi; IGARASHI, Kiyohiko et al.FEMS microbiology letters. 2002, Vol 217, Num 2, pp 225-230, issn 0378-1097, 6 p.Article

Determining the inhibition constants in the HCH-1 model of cellulose hydrolysis = Détermination des constantes d'inhibition dans un modèle HCH-1 d'hydrolyse de la celluloseHOLTZAPPLE, M. T; CARAM, H. S; HUMPHREY, A. E et al.Biotechnology and bioengineering. 1984, Vol 26, Num 7, pp 753-757, issn 0006-3592Article

Cellobiose phosphorylase (EC 2.4.1.20) of Cellulomonas: occurrence, induction, and its role in cellobiose metabolismSCHIMZ, K.-L; BROLL, B; JOHN, B et al.Archives of microbiology. 1983, Vol 135, Num 4, pp 241-249, issn 0302-8933Article

Synthesis of [¹⁴C]cellobiose with Clostridium thermocellum cellobiose phosphorylaseNG, T. K; ZEIKUS, J. G.Applied and environmental microbiology (Print). 1986, Vol 52, Num 4, pp 902-904, issn 0099-2240Article

Biochemical Characterization of a Thermophilic Cellobiose 2-Epimerase from a Thermohalophilic Bacterium, Rhodothermus marinus JCM9785OJIMA, Teruyo; SABURI, Wataru; SATO, Hiroki et al.Bioscience, biotechnology, and biochemistry. 2011, Vol 75, Num 11, pp 2162-2168, issn 0916-8451, 7 p.Article

Cofermentation of Glucose, Xylose, and Cellobiose by the Beetle-Associated Yeast Spathaspora passalidarumLONG, Tanya M; SU, Yi-Kai; HEADMAN, Jennifer et al.Applied and environmental microbiology (Print). 2012, Vol 78, Num 16, pp 5492-5500, issn 0099-2240, 9 p.Article

Functionally Redundant Cellobiose-Degrading Soil Bacteria Respond Differentially to OxygenSCHELLENBERGER, Stefanie; DRAKE, Harold L; KOLB, Steffen et al.Applied and environmental microbiology (Print). 2011, Vol 77, Num 17, pp 6043-6048, issn 0099-2240, 6 p.Article

Role of phosphorolytic cleavage in cellobiose and cellodextrin metabolism by the ruminal bacterium Prevotella ruminicolaLOU, J; DAWSON, K. A; STROBEL, H. J et al.Applied and environmental microbiology (Print). 1996, Vol 62, Num 5, pp 1770-1773, issn 0099-2240Article

Creation of metal-complexing agents, reduction of manganese dioxide, and promotion of manganese peroxidase-mediated Mn(III) production by cellobiose:quinone oxidoreductase from Trametes versicolorROY, B. P; PAICE, M. G; ARCHIBALD, F. S et al.The Journal of biological chemistry (Print). 1994, Vol 269, Num 31, pp 19745-19750, issn 0021-9258Article

A combined cellobiose oxidase/glucose oxidase biosensor for HPLC determination on-line of glucose and soluble cellodextrinesNORDLING, M; ELMGREN, M; STÅHLBERG, J et al.Analytical biochemistry. 1993, Vol 214, Num 2, pp 389-396, issn 0003-2697Article

Kinetic characterization of a crude β-D-glucosidase from Aspergillus wentii Pt 2804 = Caractérisation de la cinétique de la β-D-glucosidase native d'Aspergillus wentii Pt 2804SRIVASTAVA, S. K; GOPALKRISHNAN, K. S; RAMACHANDRAN, K. B et al.Enzyme and microbial technology. 1984, Vol 6, Num 11, pp 508-512, issn 0141-0229Article

Recent advances in fungal cellobiose oxidoreductasesERIKSSON, K.-E. L; HABU, N; SAMEJIMA, M et al.Enzyme and microbial technology. 1993, Vol 15, Num 12, pp 1002-1008, issn 0141-0229Article

Octyl glucoside inhibits [¹⁴C]DHP mineralization whereas peroxidase activity is stimulated in Phanerochaete chrysosporiumSILVA, A; COSTA-FERREIRA, M; DUARTE, J. C et al.Applied biochemistry and biotechnology. 1996, Vol 60, Num 1, pp 83-94, issn 0273-2289Article

The effect of quinone-reducing and phenol-methylating enzymes on the yellowing of mechanical pulpHATAKKA, A; METTÄLÄ, A; ROUTHIAINEN, L et al.Holzforschung. 1994, Vol 48, Num 1, pp 82-88, issn 0018-3830Article

Immobilization of a Thermostable Cellobiose 2-Epimerase from Rhodothermus marinus JCM9785 and Continuous Production of EpilactoseSATO, Hiroki; SABURI, Wataru; OJIMA, Teruyo et al.Bioscience, biotechnology, and biochemistry. 2012, Vol 76, Num 8, pp 1584-1587, issn 0916-8451, 4 p.Article

Practical Preparation of Epilactose Produced with Cellobiose 2-Epimerase from Ruminococcus albus NE1SABURI, Wataru; YAMAMOTO, Takeshi; TAGUCHI, Hidenori et al.Bioscience, biotechnology, and biochemistry. 2010, Vol 74, Num 8, pp 1736-1737, issn 0916-8451, 2 p.Article

Evidence that cellobiose-quinone oxidoreductase from Phanerochaete chrysosporium is a breakdown product of cellobiose oxidaseWOOD, J. D; WOOD, P. M.Biochimica et biophysica acta. Protein structure and molecular enzymology. 1992, Vol 1119, Num 1, pp 90-96, issn 0167-4838Article

Mechanisms of pyrolysis of polysaccharides: cellulobiitol as a model for celluloseLOWARY, T. L; RICHARDS, G. N.Carbohydrate research. 1990, Vol 198, Num 1, pp 79-89, issn 0008-6215Article

Limitations of the DNS assay for reducing sugars from saccharified lignocellulosics = Limites du test DNS pour l'analyse des sucres réducteurs de substances lignocellulosiques saccharifiéesRIVERS, D. B; GRACHECK, S. J; WOODFORD, L. C et al.Biotechnology and bioengineering. 1984, Vol 26, Num 7, pp 800-802, issn 0006-3592Article

Contribution à l'étude de la fermentation des produits d'hydrolyse de la cellulose par les levuresGONDE, Pierre.1984, 153 pThesis

Cellobiose-oxidizing enzymes from the lignocellulose-degrading basidiomycete Phanerochaete chrysosporium : interaction with microcrystalline celluloseRENGANATHAN, V; USHA, S. N; LINDENBURG, F et al.Applied microbiology and biotechnology. 1990, Vol 32, Num 5, pp 609-613, issn 0175-7598Article