White-rot fungi that are efficient lignin degraders responsible for its turnover in nature have appeared twice in the center of biotechnological research - first, when the lignin degradation process started being systematically investigated and major enzyme activities and mechanisms involved were described, and second, when the huge remediation potential of these organisms was established. Originally, Phanerochaete chrysosporium became a model organism, characterized by a secondary metabolism regulatory pattern triggered by nutrient (mostly nitrogen) limitation. Last decade brought evidence of more varied regulatory patterns in white-rot fungi when ligninolytic enzymes were also abundantly synthesized under conditions of nitrogen sufficiency. Gradually, research was focused on other species, among them Irpex lacteus showing a remarkable pollutant toxicity resistance and biodegradation efficiency. Systematic research has built up knowledge of biochemistry and biotechnological applicability of this fungus, stressing the need to critically summarize and estimate these scattered data. The review attempts to evaluate the information on I. lacteus focusing on various enzyme activities and bioremediation of organopollutants in water and soil environments, with the aim of mediating this knowledge to a broader microbiological audience.

• MeSH
• Basidiomycota enzymologie   genetika   metabolismus   MeSH
• biodegradace MeSH
• biotechnologie * MeSH
• fungální proteiny genetika   metabolismus   MeSH
• látky znečišťující životní prostředí metabolismus   MeSH
• lignin metabolismus   MeSH
• regulace genové exprese u hub MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH
• přehledy MeSH
• Názvy látek
• fungální proteiny MeSH
• látky znečišťující životní prostředí MeSH
• lignin MeSH

Thirty wood-rotting basidiomycetes, most of them causing white rot in wood, were isolated from fruiting bodies growing on decaying wood from the Sierra de Ayllón (Spain). The fungi were identified on the basis of their morphological characteristics and compared for their ability to decolorize Reactive Black 5 and Reactive Blue 38 (as model of azo and phthalocyanine type dyes, respectively) at 75 and 150 mg/L. Only eighteen fungal strains were able to grow on agar plates in the presence of the dyes and only three species (Calocera cornea, Lopharia spadicea, Polyporus alveolaris) decolorized efficiently both dyes at both concentrations. The ligninolytic activities, involved in decolorization dyes (laccases, lignin peroxidases, Mn-oxidizing peroxidases), were followed in glucose basal medium in the presence of enzyme inducers. The results indicate a high variability of the ligninolytic system within white-rot basidiomycetes. These fungal species and their enzymes can represent new alternatives for the study of new biological systems to degrade aromatic compounds causing environmental problems.

• MeSH
• barvicí látky metabolismus   MeSH
• Basidiomycota klasifikace   enzymologie   izolace a purifikace   metabolismus   MeSH
• biodegradace MeSH
• dřevo mikrobiologie   MeSH
• fungální proteiny metabolismus   MeSH
• fylogeneze MeSH
• lakasa metabolismus   MeSH
• peroxidasy metabolismus   MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH
• Názvy látek
• barvicí látky MeSH
• fungální proteiny MeSH
• lakasa MeSH
• lignin peroxidase MeSH Prohlížeč
• peroxidasy MeSH