Biology Reference
In-Depth Information
Schmidhalter, D. R. and Canevascini, G. (1993). Isolation and characterization of
the cellobiose dehydrogenase from the brown-rot fungus Coniophora
puteana (Schum Ex-Fr) Karst. Archives of Biochemistry and Biophyics 300,
559-563.
Schmidt, C. J., Whitten, B. K. and Nicholas, D. D. (1981). A proposed role for oxalic
acid in non-enzymatic wood decay by brown-rot fungi. Proceedings of the
American Wood Preservers Association 77, 157-164.
Schou, C., Christensen, M. H. and Schulein, M. (1998). Characterization of a cellobi-
ose dehydrogenase from Humicola insolens. Biochemical Journal 330,
565-571.
Score, A. J., Palfreyman, J. W. and White, N. A. (1997). Extracellular phenoloxidase
and peroxidase enzyme production during interspecific fungal interactions.
International Biodeterioration and Biodegradation 39, 225-233.
Sigoillot, C., Lomascolo, A., Record, E., Robert, J.-L., Asther, M. and Sigoillot, J.-C.
(2002). Lignolytic and hemicellulolytic system of Pycnoporus cinnabarinus:
Isolation of a cellobiose deshydrogenase and a new xylanase. Enzyme and
Microbial Technology 31, 876-883.
Sigoillot, C., Record, E., Belle, V., Robert, J. L., Levasseur, A., Punt, P. J., van den
Hondel, C. A., Fournel, A., Sigoillot, J.-C. and Asther, M. (2004). Natural
and recombinant fungal laccases for paper pulp bleaching. Applied Microbi-
ology and Biotechnology 64, 346-352.
Slomczynski, D., Nakas, J. P. and Tanenbaum, S. W. (1995). Production and char-
acterization of laccase from Botrytis cinerea. Applied and Environmental
Microbiology 61, 907-912.
Smˆnia, E., Smˆnia, A. and Loguercio-Leite, C. (1998). Cinnabarin synthesis by
Pycnoporus sanguineus strains and antimicrobial activity against bacteria
from food products. Revista de Microbiologia 29, 317-320.
Sugano, Y., Muramatsu, R., Ichiyanagi, A., Sato, T. and Shoda, M. (2007). DyP, a
unique dye decolorizing peroxidase, represents novel heme peroxidase fam-
ily. Journal of Biological Chemistry 282, 3652-3658.
Sundaramoorthy, M., Kishi, K., Gold, M. H. and Poulos, T. L. (1994). High
resolution crystal structure of a manganese peroxidase from Phanero-
chaete chrysosporium at 2.06
˚
resolution. Journal of Biological Chemistry
269, 32759-32767.
Suzuki, M. R., Hunt, C. G., Houtman, C. J., Dalebroux, Z. D. and Hammel, K. E.
(2006). Fungal hydroquinones contribute to brown rot of wood. Environ-
mental Microbiology 8, 2214-2223.
Tanaka, H., Fuse, G. and Enoki, A. (1991). An extracellular H
2
O
2
-producing and
H
2
O
2
-reducing glycopeptide preparation from the lignin-degrading white
rot fungus, Irpex lacteus. Mokuzai Gakkaishi 37, 986-988.
Tanaka, H., Itakura, S. and Enoki, A. (1999). Hydroxyl radical generation by an
extracellular low-molecular-weight substance and phenol oxidase activity
during wood degradation by the white-rot basidiomycete Phanerochaete
chrysosporium. Holzforschung 53, 21-28.
Thompson, J. D., Plewniak, F., Thierry, J. C. and Poch, O. (2000). DbClustal: Rapid
and reliable global multiple alignments of protein sequences detected by
database searches. Nucleic Acids Research 28, 2919-2926.
Thurston, C. F. (1994). The structure and function of fungal laccases. Microbiology
140, 19-26.
Timofeevski, S. L., Reading, N. S. and Aust, S. D. (1998). Mechanisms for protection
against inactivation of manganese peroxidase by hydrogen peroxide.
Archives of Biochemistry and Biophysics 356, 287-295.
