3,5-DINITROSALICYLIC ACID;
ACTIVITY ABLE TO RELEASE REDUCING SUGARS;
ARS;
ARS ABLE TO RELEASE SOLUBLE REDUCING SUGARS;
ARS DUE TO ENDO-Β-1,4-GLUCANASES;
ARS DUE TO EXO-Β-1,4-GLUCANASES;
ARS DUE TO Β-1,4-GLUCOSIDASES;
ARS(ENG);
ARS(EXG);
ARS(SOL);
ARS(TOT);
ARS(ΒG);
CARBOXYMETHYL CELLULOSE;
CELLULASES;
CMC;
DNS;
ENDO-Β-1,4-GLUCANASE;
ENG;
ENZYME ACTIVITY;
EXG;
EXO-Β-1,4-GLUCANASE;
FILTER PAPER;
INSOLUBLE REDUCING SUGARS;
REDUCING SUGARS;
REDUCING SUGARS RELEASED BY Β-1,4-GLUCOSIDASE ACTIVITY;
RS;
RS(INSOL);
RS(SOL);
RS(TOT);
RSI(SOL);
RSΒ(SOL);
SOLUBLE REDUCING SUGARS;
SOLUBLE REDUCING SUGARS OBTAINED UNDER Β-1,4-GLUCOSIDASE INHIBITION BY Δ-GLUCONOLACTONE;
SYNERGISM;
TOTAL ARS;
TOTAL REDUCING SUGARS;
Β-1,4-GLUCOSIDASE;
ΒG;
Cellulase kinetics as a function of cellulose pretreatment
Bommarius A.S., Katona A., Cheben S.E., Patel A.S., Ragauskas A.J., Knudson K., Pu Y. Cellulase kinetics as a function of cellulose pretreatment. Metab. Eng. 2008, 10:370-381.
Influence of β-glucosidase on the filter paper activity and hydrolysis of lignocellulosic substrates
Breuil C., Chan M., Gilbert M., Saddler J.N. Influence of β-glucosidase on the filter paper activity and hydrolysis of lignocellulosic substrates. Bioresour. Technol. 1992, 39:139-142.
Comparison of methods for quantifying the hydrolytic potential of cellulase enzymes
Chan M., Breuil C., Schwald W., Saddler J.N. Comparison of methods for quantifying the hydrolytic potential of cellulase enzymes. Appl. Microbiol. Biotechnol. 1989, 31:413-418.
Inhibition of Trichoderma reesei cellulase by sugars and solvents
Holtzapple M., Cognata M., Shu Y., Hendrickson C. Inhibition of Trichoderma reesei cellulase by sugars and solvents. Biotechnol. Bioeng. 1990, 36:275-287.
Traffic jams reduce hydrolytic efficiency of cellulase on cellulose surface
Igarashi K., Uchihashi T., Koivula A., Wada M., Kimura S., Okamoto T., Penttila M., Ando T., Samejima M. Traffic jams reduce hydrolytic efficiency of cellulase on cellulose surface. Science 2011, 333:1279-1282.
Comparison of Penicillium echinulatum and Trichoderma reesei cellulases in relation to their activity against various cellulosic substrates
Martins L.F., Kolling D., Camassola M., Dillon A.J.P., Ramos L.P. Comparison of Penicillium echinulatum and Trichoderma reesei cellulases in relation to their activity against various cellulosic substrates. Bioresour. Technol. 2008, 99:1417-1424.
Behavior of lignin-binding cellulase in the presence of fresh cellulosic substrate
Nonaka H., Kobayashi A., Funaoka M. Behavior of lignin-binding cellulase in the presence of fresh cellulosic substrate. Bioresour. Technol. 2013, 135:53-57.
Comparison of HPLC and colorimetric methods for measuring cellulolytic activity
Schwald W., Chan M., Breuil C., Saddler J.N. Comparison of HPLC and colorimetric methods for measuring cellulolytic activity. Appl. Microbiol. Biotechnol. 1988, 28:398-403.
Influence of mechanical agitation on the pH profile of total, soluble and insoluble filter paper activity of Hypocrea jecorina cellulase preparations
Silveira M.H.L., Rau M., Andreaus J. Influence of mechanical agitation on the pH profile of total, soluble and insoluble filter paper activity of Hypocrea jecorina cellulase preparations. Biocatal. Biotransform. 2012, 30:63-70.
A simple and fast method for the determination of endo- and exo-cellulase activity in cellulase preparations using filter paper
Silveira M.H.L., Rau M., Bon E.P.D., Andreaus J. A simple and fast method for the determination of endo- and exo-cellulase activity in cellulase preparations using filter paper. Enzyme Microb. Technol. 2012, 51:280-285.
Trichoderma reesei cellulases and their core domains in the hydrolysis and modification of chemical pulp
Suurnakki A., Tenkanen M., Siika-Aho M., Niku-Paavola M.L., Viikari L., Buchert J. Trichoderma reesei cellulases and their core domains in the hydrolysis and modification of chemical pulp. Cellulose 2000, 7:189-209.
