Biology Reference
In-Depth Information
Wong, D. W. (2008). Structure and action mechanism of ligninolytic enzymes.
Applied Biochemistry and Biotechnology 157, 174-209.
Wood, D. A. (1980). Production, purification and properties of extracellular laccase
of Agaricus bisporus. Journal of Genetic and Microbiology 117, 327-338.
Xu, G. and Goodell, B. (2001). Mechanism of wood degradation by brown-rot fungi:
Chelator-mediated cellulose degradation and binding of iron by cellulose.
Journal of Biotechnology 27, 43-57.
Xu, F., Shin, W., Brown, S. H., Wahleithner, J. A., Sundaram, U. M. and
Solomon, E. I. (1996). A study of a series of recombinant fungal laccases
and bilirubin oxidase that exhibit significant differences in redox potential,
substrate specificity, and stability. Biochemica and Biophysica Acta 1292,
303-311.
Yaropolov, A. I., Skorobogat'ko, O. V., Vartanov, S. S. and Varfolomeyev, S. D.
(1994). Laccase: Properties, catalytic mechanism and applicability. Applied
Biochemistry and Biotechnology 49, 257-280.
Yaver, D. S., Xu, F., Golightly, E. J., Brown, K. M., Brown, S. H., Rey, M. W.,
Schneider, P., Halkier, T., Mondorf, K. and Dalboge, H. (1996). Purifica-
tion, characterisation, molecular cloning, and expression of two laccase
genes from the white rot basidiomycete Trametes villosa. Applied and Envi-
ronmental Microbiology 62, 834-841.
Yaver, D. S., Overjero, M. D., Xu, F., Nelson, B. A., Brown, K. M., Halkier, T.,
Bernauer, S., Brown, S. H. and Kauppinen, S. (1999). Molecular characteri-
zation of laccase genes from the basidiomycete Coprinus cinereus and heterol-
ogous expression of the laccase lcc1. Applied and Environmental Microbiology
65, 4943-4948.
Yelle, D., Ralph, J., Lu, F. and Hammel, K. E. (2001). Evidence for cleavage of lignin
by a brown rot basidiomycete. Environmental Microbiology 10, 1844-1849.
Yoshida, H. (1883). Chemistry of lacquer (urushi). Journal of the Chemical Society 43,
472-486.
Zamocky, M., Hallberg, M., Ludwig, R., Divne, C. and Haltrich, D. (2004). Ances-
tral gene fusion in cellobiose dehydrogenases reflects a specific evolution of
GMC oxidoreductases in fungi. Gene 338, 1-14.
Zmasek, C. M. and Eddy, S. R. (2002). RIO: Analyzing proteomes by automated
phylogenomics using resampled inference of orthologs. BMC Bioinformatics
3, 14.
Zubieta, C., Krishna, S., Kapoor, M. et al. (2007). Crystal structure of two novel dye-
decolorizing peroxidases reveal a b-barrel fold with a conserved heme-
binding motif. Proteins 69, 223-233.
