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Języki publikacji
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Tom
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6--12
Opis fizyczny
Bibliogr. 23 poz.
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autor
autor
Bibliografia
- [1] Marchut-Mikołajczyk O., Kwapisz E., Antczak T. Enzymatyczna bioremediacja ksenobiotyków. Inżynieria i Ochrona Środowiska, 2013, 16, 1, 39-55.
- [2] Cameron M.D., Timofeevski S., Aust S.D. Enzymology of Phanerochaete chrysosporium with respect to the degradation of recalcitrant compounds and xenobiotics. Appl Microbiol Biotechnol 2000, 54, 751-758.
- [3] Percz J., Munoz-Dorado J., de la Rubia T., Martinez J. Biodegradation and biological treatment of cellulose, hemicellulose and lignin: an overview. Int Microbiol 2002, 5, 53-63.
- [4] Hadibarata T., Kristanti R.A. Biotransformation studies on fluoranthene, a four-ring polycyclic aromatic hydrocarbon, by white rot fungus Armillaria sp. F022. The 2014 International Conference on Agro-industry (ICoA): Competitive and sustainable Agroindustry for Human Welfare. Agriculture and Agricultural Science Procedia 2015, 3, 45-50.
- [5] Wirasnita R., Hadibarata T. Potential of the White-Rot Fungus Pleurotus pulmonarius F043 for Degradation and Transformation of Fluoranthene. Pedosphere 2016, 26 (1), 49-54.
- [6] Purahong W., Arnstadt T., Kahl T., Bauhus J., Kellner H., Hofrichter M., Krüger D., Buscot F., Hoppe B. Are correlations between deadwood fungal community structure, wood physico-chemical properties and lignin-modifying enzymes stable across different geographical regions? Fungal Ecology 2016, 22, 98-105.
- [7] https://en.wikipedia.org/ wiki/Wood-decay_fungus
- [8] http://www.forestpathology. org/dis_decay.html
- [9] Aust S.D. Mechanisms of degradation by White Rot Fungi. Environmental Health Perspectives 1995, 103, 5, 59-61.
- [10] Dashtban M., Schraft H., Syed T.A., Qin W. Fungal biodegradation and enzymatic modification of lignin. Int J Biochem Mol Biol 2010, 1 (1), 36-50.
- [11] Polak J., Jarosz-WIlkołazka A. Reakcje katalizowane przez lakazę – mechanizm i zastosowanie w biotechnologii. Biotechnologia 2007, 4 (79), 82-94.
- [12] Yang S., Hai F.I., Nghiem L.D., Price W.E., Roddick F., Moreira M.T., Magram S.F. Understanding the factors controlling the removal of trace organic contaminants by white-rot fungi and their lignin modifying enzymes: A critical review. Bioresource Technology 2013, 141, 97-108.
- [13] Rouches E., Herpoël- -Gimbert I., Steyer J.P., Carrere H. Improvement of anaerobic degradation by white-rot fungi pretreatment of lignocellulosic biomass: A review. Renewable and Sustainable Energy Reviews 2016, 59, 179-198.
- [14] Ruqayyah T.I.D., Jamal P., Alam M.Z., Mirghani M.E.S., Jaswir I., Ramli N. Application of response surface methodology for protein enrichment of cassava peel as animal feed by the white-rot fungus Panus tigrinus M609RQY. Food Hydrocolloids 2014, 42, 293-303.
- [15] Sari A.A., Kurniawan H.H., Nurdin M., Abimanyu H. Decolorization of black liquor wastewater generated from bioethanol process by using oil palm empty fruit bunches. Energy Procedia 2015, 68, 254-262.
- [16] Aranda E., Sampedro I., Ocampo J.A., García-Romera I. Phenolic removal of olive- -mill dry residues by laccase activity of white-rot fungi and its impact on tomato plant growth. International Biodeterioration & Biodegradation 58 2006, 58, 176-179.
- [17] Hirabayashi., Wang J., Kawagishi H., Hirai H. Imroving xylitol production through recombinant expression of xylose reductase in the white-rot fungus Phanerochaete sordida YK-624. Journal of Bioscence and Bioengineering 2015, 120, 1, 6-8.
- [18] Mir-Tutusaus J.A., Masís-Mora M., Corcellas C., Eljarrat E., Barceló D., Sarrà M., Caminal G., Vicent T., Rodríguez- Rodríguez C.E. Degradation of selected agrochemicals by the white rot fungus Trmates versicolor. Science of the Total Environment 2014, 500-501, 235-242.
- [19] Lazim Z.M., Hadibarata T. Ligninolytic fungus Polyporus sp. S133 mediated metabolic degradation of fluorene. Brazilian Journal of Microbiology 2016, 47, 610-616.
- [20] Marco-Urrea E., Perez- -Trujillo M., Vicent T., Caminal G. Ability of white-rot fungi to remove selected pharmaceuticals and identification of degradation products of ibuprofen by Trametes versicolor. Chemosphere 2009, 74, 765-772.
- [21] Gusse A.C., Miller P.D., Volk T.J. White-Rot Fungi demonstrate first biodegradation of phenolic resin. Environmental Science and Technology 2006, 40, 4196-4199.
- [22] Tuomela M., Vikman M., Hatakka A., Itavaara M. Biodegradation of lignin in a compost environment: a review. Bioresource Technology 2000, 72, 169-183.
- [23] Krupiński M., Długoński J. Biodegradacja nonylofenoli przez wybrane drobnoustroje. Postępy Mikrobiologii 2011, 50, 4, 313-319.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b9d4bcea-3de3-40ba-a7fd-a7d28ef127ca