Biodegradation of textile effluents by basidiomycetes fungi that produce ligninolytic enzymes: a brief review
DOI:
https://doi.org/10.13102/scb8114Abstract
The use of the basidiomycetes fungi has become an excellent alternative in the process of biodegradation of industrial waste. The lignocellulosic fungi have a notable potential for the degradation of these residues, especially the textile industry effluents. Fungi present an efficient enzymatic system for lignocellulosic residues degradation and mineralization being useful also in the bioremediation of xenobiotic composites. This work had the objective to make a mini-review of studies on fungi that produce ligninolytic enzymes used in the biodegradation of industrial wastewater.
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References
Alexopoulus CJ, CW Mims & M Blackwell M. 1996. Introductory mycology. New York: John Wiley & Sons.
Abadulla E, T Tzanov, S Costa, KH Robra, CP Artur & GM Gu Bitz. 2000. Decolorization and detoxification of textile dyes with a laccase from Trametes hirsuta. Applied and Environmental Microbiology 66: 3357-3362.
Balan DSL & RTR Monteiro. 2001. Decolorization of textile indigo dye by ligninolytic fungi. Journal of Biotechnology 89: 141-145.
Bennet JW, KG Wuanch & BD Faison. 2002. Use of fungi biodegradation, p. 960-971. In: CJ Hurst (ed.). Manual of environmental microbiology. 2ª ed. Washington, D. C.: ASM Press.
Bhatt M, T Cajthaml & V Sãsk. 2002. Mycoremediation of PAH contaminated soil. Folia Microbiologica 47: 255-258.
Cajthaml T, P Erbanova, V Sãsk & M Moeder. 2006. Breakdown products on metabolic pathway of degradation of benz[a]anthracene by a ligninolytic fungus. Chemosphere 64: 560-564.
Chander M & DS Arora. 2007. Evaluation of some white-rot fungi for their potential to decolourise industrial dyes. Dyes and Pigments 72: 192-198.
Conceição DM, DA Angelis, ED Bidoia & D de F de Angelis. 2005. Fungos filamentosos isolados do Rio Atibaia, SP e refinaria de petróleo biodegradadores de compostos fenólicos. Arquivos Instituto Biologico São Paulo 72(1): 99-106.
Cohen R, L Persky & Y Hadar. 2002. Biotechnological applications and potencial of wood-degrading mushrooms of the genus Pleurotus. Applied Microbiology and Biotechnology 58: 582-594.
Coulibaly L, G Gourene & NS Agathos. 2003. Utilization of fungi for biotreatment of raw wastewaters. African Journal of Biotechnology 2(12): 620-630.
Couto SR, I Rivela, MR Muñoz & A Sanromám. 2000. Stimulation of ligninolitic enzyme production and the ability to decolorize Poly R-478 in semisolid-state cultures of Phanerochate crysosporium. Bioresource Technology 74: 159-164.
De Moraes SG, RS Freire & N Durán. 2000. Degradation and toxity reduction of textile effluent by combined photocatalytic and ozonation process. Chemosphere 40: 369-373.
Ejechi BO. 2003. Biodegradation of wood in crude oil-polluted soil. World Journal of Microbiology & Biotechnology 19: 799-804.
Fackler K, C Gradinger, B Hinterstoisser, K Messner & M Schwanninger. 2006. Lignin degradation by white rot fungi on spruce wood shavings during short-time solid-state fermentations monitored by near infrared spectroscopy. Enzyme and Microbial Technology 39: 1476-1483.
Fragoeiro S & N Magan. 2005. Enzymatic activity, osmotic stress and degradation of pesticide mixtures in soil extract liquid broth inoculated with Phanerochaete chrysosporium and Trametes versicolor. Environmental Microbiology 7(3): 348.
Freire S, R Pelegrini, LT Kubota & N Durán. 2000. Novas tendências para o tratamento de resíduos industriais contendo espécies organocloradas. Química Nova 23(4): 504-511.
Gill PK, DS Arora & M Chander. 2002. Biodecolourization of azo and triphenylmethane dyes by Dichomitus squales and Phlebia spp. Journal of Industrial Microbiology & Biotechnology 28: 201-203.
Guaratini CCI & MVB Zanoni. 2000. Corantes têxteis. Química Nova 23: 71-78.
Gugliotta AM. 2001. Utilização de basidiomicetos nativos na remoção de corantes em efluentes na indústria têxtil. Tese de Doutorado, Universidade de São Paulo, São Paulo.
Kamida HM, LR Durrant, RTR Monteiro & ED Armas. 2005. Biodegradação de efluente têxtil por Pleurotus sajor-caju. Química Nova 28(4): 629-632.
Kirk PM, PF Cannon, JC David & JA Stalpers. 2001. Ainsworth & Bisby’s Dictionary of the Fungi. Wallingford: C.A.B. International.
Kunz A, P Peralta-Zamora, SG de Moares & N Durán. 2002. Novas tendências no tratamento de efluentes têxteis. Química Nova 25(1): 78-82.
Machado KMG, DR Matheus & VLR Bononi. 2005a. Ligninolytic enzymes production and remazol brilliant blue R decolorization by tropical brazilian basidiomycetes fungi. Brazilian Journal of Microbiology 36: 246-252.
Machado KMG, DR Matheus & VLR Bononi. 2005b. Biodegradation of pentachlorophenol by tropical basidiomycetes in soils contaminated with industrial residues. World Journal of Microbiology and Biotechnology 21: 297-310.
Martins MAM, IC Ferreira, IM Santos, MJ Queiroz & N Lima. 2001. Biodegradation of bioaccessible textile azo dyes by Phanerochate crysosporium. Journal of Biotechnology 89: 91-98.
Matheus DR & LK Okino. 1998. Utilização de basiodiomicetos em processos biotenológicos, p. 106-139. In: VLR Bononi (ed.). Zigomicetos, Basidiomicetos e Deuteromicetos: noções básicas de taxonomia e aplicações biotecnológicas. São Paulo: Instituto de Botânica, Secretaria de Estado do Meio Ambiente.
Matheus DR. 2003. Otimização da biodegradação de hexaclorobenzeno por fungos basidiomicetos em solos contaminados com resíduos industriais. Tese de Doutorado. Universidade Estadual Paulista, Rio Claro.
Máximo C, TPA Maria & M Costa-Ferreira. 2003. Biotransformation of industrial reactive azo dyes by Geotrichum sp. CCMI 1019. Enzyme Microbial Technology 32: 145-151.
Mielgo I, MT Moreira, G. Feijoo & JM Lema. 2001. A packed-bed fungal bioreactor for the continuos decolourisation of azo-dyes (Orange II). Journal of Biotechnology 89: 99-106.
Minussi RC, SG Moraes, GM Pastore & N Durán. 2001. Biodecolorization screening of synthetic dyes by four white-rot fungi in a solid medium: possible role of siderophores Letters in Applied Microbiology 33: 21-25.
Novotný C, B Rawal, M Bhatt, M Patel, V Sasek & HP Molitoris. 2001. Capacity of Irpex lacteus and Pleurotus ostreatus for decolorization of chemically different dyes. Jornal of Biotechnology 89: 113-122.
Pointing SB. 2001. Feasibility of bioremediation by white-rot fungi. Applied Microbiology and Biotechnology 57: 20-33.
Raghukumar C. 2000. Fungi from marine habitats: an application in bioremediation. Mycology Research 104(10): 1222-1226.
Ramsay JA & C Goode. 2004. Decoloration of a carpet dye effluent using Trametes versicolor. Biotechnology Letter 26: 197-201.
Rigas F & V Dritsa. 2006. Decolourisation of a polymeric dye by selected fungal strains in liquid cultures. Enzyme and Microbial Technology 39: 120-124.
Shan V & F Nerud. 2002. Lignin degrading system of white-rot fungi and its exploitation for dye decolorization. Canadian Journal Microbiology 48: 857-870.
Toh Y, JJL Yen, JP Obbard & Y Ting. 2003. Decolourisation of azo dyes by white-rot fungi (WRF) isolated in Singapore. Enzyme and Microbial Technology 33: 569-575.
Valentín L, G Feijoo, MT Moreira & JM Lema. 2006. Biodegradation of polycyclic aromatic hydrocarbons in forest and salt marsh soils by white-rot fungi. International Biodeterioration & Biodegradation 58: 15-21.
Verma P & D Madamwar. 2005. Decolorization of azo dyes using Basidiomycete strain PV 002. World Jornal of microbiology 21: 481-485.
Vyas BRM & HP Molitoris. 1995. Involvement of an extracellular H2O2-dependent igninolytic activity of white rot fungus Pleurotus ostreatus in the decolorization of remazol brilliant blue R. Applied Environmental Microbiology 61(11): 3919-3927.
Wesenberg D, I Kyriakides & SN Agathos. 2003. White-rot fungi and their enzymes for the treatment of industrial dye effluents. Biotechnology Advances 22: 161-187.
Yesiladali S, Koray, Pekin, G Lseren, Bermek, Hakan, I Arslan-Alaton, Orhon Derin, Tamerle, Candan Tamerle. 2006. Bioremediation of textile azo dyes by Trichophyton rubrum LSK-27. World Jornal of Microbiology & Biotechnology 22: 1027-1031.
Yu G, X Wen, R Li & Y Qian. 2006. In vitro degradation of a reactive azo dye by crude ligninolytic enzymes from nonimmersed liquid culture of Phanerochaete chrysosporium. Process Biochemistry 41: 1987-1993.
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