Environmental Engineering Reference
In-Depth Information
peroxidase DyP from
Thanatephorus cucumeris
Dec 1.
Biodegradation
,
Vol. 20, pp. 433-440, 2009.
119. Y. Sugano, R. Muramatsu, A. Ichiyanagi, T. Sato, M. Shoda. DyP, a unique
dye-decolorizing peroxidase, represents a novel heme peroxidase family:
ASP171 replaces the distal histidine of classical peroxidases.
J. Biol. Chem
.,
Vol. 282, pp. 36652-36658, 2007.
120. R. Pogni, M. C. Baratto, S. Giansanti, C. Teutloff, J. Verdin, B. Valderrama,
F. Lendzian, W. Lubitz, R. Vazquez-Duhalt, R. Basosi. Tryptophan-based
radical in the catalytic mechanism of versatile peroxidase from
Bjerkandera
adusta
.
Biochemistry
, Vol. 44, pp. 4267-4274, 2005.
121. M. Pérez-Boada, F. J. Ruiz-Dueñas, R. Pogni, R. Basosi, T. Choinowski, M. J.
Martínez, K. Piontek, A. T. Martínez. Versatile peroxidase oxidation of high
redox potential aromatic compounds: Site-directed mutagenesis, spectro-
scopic and crystallographic investigation of three long-range electron trans-
fer pathways.
J. Mol. Biol
., Vol. 354, pp. 385-402, 2005.
122. E. I. Solomon, U. M. Sundaram, T. E. Machonkin. Multicopper oxidases and
oxygenases.
Chem. Rev
., Vol. 96, pp. 2563-2605, 1996.
123. J.-M. Bollag, A. Leonowicz. Comparative studies of extracellular fungal lac-
cases.
Appl. Environ. Microbiol
., Vol. 48, pp. 849-854, 1984.
124. K. Piontek, M. Antorini, T. Choinowski. Crystal structure of a laccase from
the fungus
Trametes versicolor
at 1.90-A resolution containing a full comple-
ment of coppers.
J. Biol. Chem
., Vol. 277, pp. 37663-37669, 2002.
125. C. Eggert, U. Temp, K.-E. L. Eriksson. Laccase is essential for lignin degrada-
tion by the white-rot fungus
Pycnoporus cinnabarinus
.
FEBS Lett
., Vol. 407,
pp. 89-92, 1997.
126. G. Szklarz, A. Leonowicz. Cooperation between fungal laccase and glucose
oxidase in the degradation of lignin derivatives.
Phytochemistry
, Vol. 25,
pp. 2537-2539, 1986.
127. H. Galliano, G. Gas, J. L. Seris, A. M. Boudet. Lignin degradation by
Rigidoporus lignosus
involves synergistic action of two oxidizing enzymes:
Mn peroxidase and laccase.
Enz. Microb. Technol
., Vol. 13, pp. 478-482, 1991.
128. L. Marzullo, R. Cannio, P. Giardina, M. T. Santini, G. Sannia. Veratryl alco-
hol oxidase from
Pleurotus ostreatus
participates in lignin biodegradation
and prevents polymerization of laccase-oxidized substrates.
J. Biol. Chem
.,
Vol. 270, pp. 3823-3827, 1995.
129. R. Bourbonnais, M. G. Paice. Oxidation of non-phenolic substrates. An
expanded role for laccase in lignin biodegradation.
FEBS Lett
., Vol. 267,
pp. 99-102, 1990.
130. C. Eggert, U. Temp, J. F. D. Dean, K.-E. L. Eriksson. A fungal metabolite
mediates degradation of non-phenolic lignin structures and synthetic lignin
by laccase.
FEBS Lett
., Vol. 391, pp. 144-148, 1996.
131. R. Bourbonnais, D. Leech, M. G. Paice. Electrochemical analysis of the
interactions of laccase mediators with lignin model compounds.
Biochim.
Biophys. Acta
, Vol. 1379, pp. 381-390, 1998.
Search WWH ::
Custom Search