Biodecolourisation of some industrial dyes by white-rot fungi

Eight white-rot fungal strains were screened for biodecolourisation of eight dyes commercially employed in various industries. Decolourisation of Poly R 478 was used as a standard to ascertain the dye-decolourisation potential of various fungi. All the fungi tested significantly decolourised Poly R 478 on solid agar medium. When tested in a nitrogen-limited broth medium, Dichomitus squalens, Irpex flavus, Phlebia spp. and Polyporus sanguineus were better industrial dye decolourisers than Phanerochaete chrysosporium.     

Comparison of different cellulolytic fungi for bioconversion of apple distillery waste

Summary The suitability of three ascomycetous fungi, Aspergillus niger, A. awamori and Trichoderma reesei, as well as two basidiomycetes, Pleurotus ostreatus and Phanerochaete chrysosporium, for bioconversion of apple distillery slop was compared. Trichoderma and Phanerochaete degraded raw fiberes by 20%, producing filter cakes with 17% to 22% raw protein contents. Aspergillus spp. were superior in filtration time and COD reduction and were of the same efficiency in protein synthesis as Trichoderma and Phanerochaete, but did not degrade fibres. Pleurotus ostreatus did not degrade lignin under fermentation conditions used and could not compete with other fungi due to its slower growth.     

Correlations among several screening methods used for identifying wood-decay fungi that can degrade toxic chemicals

Summary Several established screening methods were evaluated to examine enzyme production and toxic-chemical-degrading ability of four wood-decay fungi, includingPhanerochaete chrysosporium, Pleurotus ostreatus, Auricularia auriculajudae, andLentinus edodes. A correlation among various measured parameters for each fungal strain was established. This correlation may be used as a basis to simplify screening programs for wood-decay fungi that are capable of degrading toxic organic compounds.     

Screening for fungi capable of removing benzo[a]pyrene in culture

Some 17 strains of filamentous fungi, encompassing 13 different species, were tested for their ability to decolorize the polymeric dye R-478. Decolorization was observed with both living and dead mycelia of the three Aspergillus species tested, indicating bioadsorption, not biodegradation. With mycelia of other strains tested, the most decolorization was obtained with Marasmiellus troyanus, Pleurotus sapidus, and Pleurotus ostreatus; with extracellular filtrates, the most decolorization was observed with Laetiporus sulphureus. Parallel experiments incubating benzo[a]pyrene (B[a]P) with mycelia and filtrates showed that six of the species removed over 40% of B[a]P in comparison with HgCl₂-killed controls. The highest B[a]P removal by mycelia was shown by M. troyanus (95.0%); the highest level by extracellular filtrates was shown by Hericium erinaceous (44.8%). With the exception of A. ochraceous, no products of B[a]P metabolism were detected for any of the species tested. For most species, the disappearance of B[a]P was correlated with the ability to decolorize poly R-478 ( r = 0.78 for mycelia; r = 0.74 for culture fluids). M. troyanus gave rise to more disappearance than decolorization. The removal of B[a]P by M. troyanus and Phanerochaete chrysosporium was compared over 30 days: M. troyanus gave significantly better removal in a biphasic pattern. Received: 8 July 1996 / Received revision: 11 November 1996 / Accepted: 29 November 1996     

Sorption of heavy metals by four basidiomycetous fungi

Biosorptions of Pb²⁺, Cr⁶⁺, Cd²⁺ and Ni²⁺ were investigated, with special emphasis on the first one, using live and dead fungal mycelia. Of the four fungi, namely Polyporus ostreiformis, Volvariella volvacea, Pleurotus sajor-caju and Phanerochaete chrysosporium, the last one was found to be most effective in Pb²⁺ removal. Total biosorption was effected in 6 days up to the Pb²⁺ concentration of 6 mg/l, with a specific uptake of 1.33 mg Pb²⁺/g dry cell mass. The removal of other three metals varied between 28.8–73.3% from a medium containing 4 mg/l of each of the metals.Laboratory facilities created under M.Tech programme in Biotechnology and Engineering (sponsored by Department of Biotechnology, Govt. of India) were partly utilized for this study.     

Effect of culture conditions on manganese peroxidase production and activity by some white rot fungi

The ligninolytic system of white rot fungi is primarily composed of lignin peroxidase, manganese peroxidase (MnP) and laccase. The present work was carried out to determine the best culture conditions for production of MnP and its activity in the relatively little-explored cultures of Dichomitus squalens, Irpex flavus and Polyporus sanguineus, as compared with conditions for Phanerochaete chrysosporium and Coriolus versicolor. Studies on enzyme production under different nutritional conditions revealed veratryl alcohol, guaiacol, Reax 80 and Polyfon H to be excellent MnP inducers. Electronic Publication     

Biodegradation of pentachlorophenol by white rot fungi under ligninolytic and nonligninolytic conditions

The roles of lignin peroxidase, manganese peroxidase, and laccase were investigated in the biodegradation of pentachlorophenol (PCP) by several white rot fungi. The disappearance of pentachlorophenol from cultures of wild type strains,P. chrysosporium, Trametes sp. andPleurotus sp., was observed. The activities of manganese peroxidase and laccase were detected inTiametes sp. andPleurotus sp. cultures. However, the activities of ligninolytic enzymes were not detected inP. chrysosporium cultures. Therefore, our results showed that PCP was degraded under ligninolytic as well as nonligninolytic conditions. Indicating that lignin peroxidase, manganese peroxidase, and laccase are not essential in the biodegradation of PCP by white rot fungi.     

紫孢侧耳Ps-mnp1基因克隆与蛋白结构预测

克隆紫孢侧耳PS1菌株锰过氧化物酶基因Ps-mnp1,具有生物降解木质素的活性,可用于分析锰过氧化物酶的蛋白功能与结构,并对深入了解紫孢侧耳Ps-mnp1基因功能和转录调控具有重要意义。基于ITS序列分析,明确了该菌株的分类地位。根据Gen Bank中白腐菌Mn Ps保守序列设计引物,采用染色体步移法和逆转录PCR法获得Ps-mnp1基因,Gen Bank登录号为(KP189358.1)。在克隆Ps-mnp1基因并分析蛋白结构时,采用多种现代生物信息学技术,经染色体步移法克隆的DNA全长序列后,利用contigexpress拼接软件预测Psmnp1基因的c DNA全长序列;使用Bio Edit分析软件对DNA和c DNA核苷酸序列比对;通过Augustus网站预测RNA的剪接位点并在NCBI上进行同源序列比对校正;采用基因结构软件对比了解白腐菌Mn Ps基因的内含子/外显子的组成。序列分析表明Ps-mnp1的DNA全长序列1 854 bp,具有外显子14条和内含子13条。从Ps-mnp1与其它白腐菌Mn Ps基因的内含子/外显子组成分析来看,紫孢侧耳和糙皮侧耳同属于侧耳属,但它们之间的Mn Ps基因结构完全不同。Ps-mnp1开放阅读框为1 095 bp,起始密码子ATG,终止密码子TAA,编码364 aa,含有20 aa残基构成的信号肽序列。采用MEGA 5.1软件构建的蛋白系统进化树表明Ps-mnp1与6株白腐菌蛋白聚类在短枝Mn Ps,区分了含有5个二硫键组成的长枝Mn Ps组群;此外,构建的蛋白同源模型表明,与刺芹侧耳多功能过氧化物酶相似度为72.51%,蛋白配体中结合位点有1个含铁血红素、2个钙离子、1个锰离子等,这些结合位点为不守恒。该研究为紫孢侧耳锰过氧化物酶的结构,蛋白功能Ps-mnp1奠定了基础,并进一步为Ps-mnp1的蛋白质工程改造提供借鉴作用。     

Mating systems of some putative polypore — agaric relatives

Mating systems are reported for taxa of polypores and agarics considered related. Taxa areDictyopanus pusillus, Favolus alveolaris, F. tenuiculus, Lentinus bertierii, L. crinitis, L. punctaticeps, L. strigellus, L. strigosus, L. suavissimus, Pleurotus australis, P. levis, P. tuberregium, Polyporus ciliatus, P. elegans, P. squamosus, andP. varius. All are tetrapolar exceptP. elegans.     

Degradation of 14C-labelled poplar wood lignin by selected white-rot fungi

Summary Of eight white-rot fungi examined, seven fungi grew on nitrogen-limited poplar wood meal medium and degraded ¹⁴C-lignin in wood meal to ¹⁴CO₂. Increased oxygen enhanced both the rate and extent of degradation. However, whereas Pleurotus ostreatus, Pycnoporus cinnabarinus 115 and Pycnoporus cinnabarinus A-360 degraded 12–17% of ¹⁴C-(U)-lignin of poplar wood to ¹⁴CO₂ also in an air atmosphere, Sporotrichum pulverulentum, Phlebia radiata 79 and Phanerochaete sordida 37 degraded only 1–5% under these conditions. Addition of cellulose and glucose to the poplar wood medium stimulated degradation of ¹⁴C-(RING)-lignin of poplar wood by Phlebia radiata 79 but repressed degradation by Polyporus versicolor and Pleurotus ostreatus. Cellulose added to the wood meal medium had no effect on the degradation of lignin by Phanerochaete sordida 37 and Sporotrichum pulverulentum but glucose slightly repressed lignin degradation by these fungi. Those white-rot fungi which were considered as preferentially lignin attacking fungi could degrade ¹⁴C-(RING)-lignin of poplar wood efficiently under 100% oxygen. They did not require an extra energy source in addition to wood meal polysaccharides for rapid ring cleavage and they degraded up to 50–60% of the ¹⁴C-lignin to ¹⁴CO₂ in 6–7 weeks at a maximum rate of 3–4% per day.These results were reported in part at the Journées Internationales d'Etudes du Groupe Polyphenols, 29. 9.–1. 10. 1982, Université Paul Sabatier, Toulouse, France     

Radiation and fermentation treatment of cellulosic wastes

The effect of radiation pasteurization of sugar cane bagasse and rice straw and fermentation using various strains of fungi were studied for upgrading of cellulosic wastes. The initial contamination by fungi and aerobic bacteria both in bagasse and straw was high. The doses of 30 kGy for sterilization and 8 kGy for elimination of fungi were required. Irradiation effect showed that rice straw contained comparatively radioresistant microorganisms. It was observed that all the fungi (Hericium erinacium, Pleurotus djamor, Ganoderma lucidum, Auricularia auricula, Lentinus sajor-caju, Coriolus versicolor, Polyporus arcularius, Coprinus cinereus) grow extending over the entire substrates during one month after inoculation in irradiated bagasse and rice straw with 3% rice bran and 65% moisture content incubated at 30°C. Initially, sugar cane bagasse and rice straw substrates contained 39.4% and 25.9% of cellulose, 22.9% and 26.9% of hemicellulose, and 19.6% and 13.9% of lignin + cutin, respectively. Neutral detergent fibre (NDF) values decreased significantly in sugar cane bagasse fermented byG. lucidum, A. auricula andP. arcularius, and in rice straw fermented by all the 8 strains of fungi. Acid detergent fibre (ADF) values also decreased in bagasse and rice straw fermented by all the fungi.P. arcularius, H. erinacium, G. lucidum andC. cinereus were found to be the most effective strains for delignification of sugar cane bagasse.     

Bio-softening of mature coconut husk for facile coir recovery

Bio-softening of the mature coconut husk using Basidiomyceteous fungi was attempted to recover the soft and whiter fibers. The process was faster and more efficient in degrading lignin and toxic phenolics. Phanerochaete chrysosporium, Pleurotus eryngii and Ceriporiopsis subvermispora were found to degrade lignin efficiently without any appreciable loss of cellulose, yielding good quality fiber ideal for dyeing.     

Degradation of nitrocellulose by fungi

Three lignocellulolytic fungi, Trametes versicolor, Pleurotus ostreatus, and Coprinus cinereus, and two cellulolytic fungi Trichoderma reesei andChaetomium elatum were tested for their ability to degrade nitrocellulose. They were provided with different carbon and nitrogen sources in liquid cultures. Nitrocellulose (N content above 12%) was added as nitrogen source (in solution in acetone) alongside amino acids or as sole N source. Either starch or carboxy-methyl cellulose were provided as carbon sources. After 28 days of growth the highest decrease of nitrocellulose was observed with Chaetomium elatum when up to 43% was degraded in a medium containing nitrocellulose as the only nitrogen source. Coprinus cinereus caused a 37% decrease of nitrocellulose when provided with amino acids and starch as co-substrate. In cultures of Trametes versicolor, Pleurotus ostreatus andTrichoderma reesei, only 10%–22% decrease of nitrocellulose was measured in all media. In the presence of nitrocellulose with N content below 12% supplied as 3 mm pellets as the only carbon source, or with nitrocellulose with carboxy-methyl cellulose, the release of nitrite and nitrate from liquid cultures of Chaetomium elatum was measured. Between 6 and 9 days of growth in these media, an increase in both nitrite and nitrate was observed with a loss in weight of nitrocellulose up to 6% achieved after 34 days. The physical nature of the NC pellets may have reduced the rate of degradation in comparison with supplying NC in solution in the cultures.     

Ligninolytic enzymes of selected white rot fungi cultivated on wheat straw

Ligninolytic enzymes of the white rot fungiCoriolopsis polyzona, Phanerochaete chrysosporium, andTrametes versicolor growing on wheat straw under nearly natural conditions were investigated. Manganese peroxidase (MnP), secreted as early as on day 3, was dominant over other activities during the initial phase (the first 10 days). Its activity profile was similar in all the three fungi. Lignin peroxidase (LIP) was not detected in the extracellular enzyme extracts ofC. polyzona andP. chrysosporium cultures.T. versicolor secreted LIP after 10 d of growth. Another, recently described, enzyme activity of manganese-independent peroxidase (MIP) was detected in all the three fungi tested and it appeared on about day 5 (later than MnP and earlier than LIP); it was the dominant activity after day 10. Laccase activity appeared at basal levels without any significant changes. Pyranose 2-oxidase was probably the major extracellular H₂O₂-generating activity (with all the three fungi) that appeared contemporarily with MnP, increased with time, peaking on day 17–18. Glyoxal oxidase could not be detected with any of the fungi.     

Comparative secretome of white-rot fungi reveals co-regulated carbohydrate-active enzymes associated with selective ligninolysis of ramie stalks

In the present research, Phanerochaete chrysosporium and Irpex Lacteus simultaneously degraded lignin and cellulose in ramie stalks, whereas Pleurotus ostreatus and Pleurotus eryngii could depolymerize lignin but little cellulose. Comparative proteomic analysis of these four white-rot fungi was used to investigate the molecular mechanism of this selective ligninolysis. 292 proteins, including CAZymes, sugar transporters, cytochrome P450, proteases, phosphatases and proteins with other function, were successfully identified. A total of 58 CAZyme proteins were differentially expressed, and at the same time, oxidoreductases participated in lignin degradation were expressed at higher levels in P. eryngii and P. ostreatus. Enzyme activity results indicated that cellulase activities were higher in P. chrysosporium and I. lacteus, while the activities of lignin-degrading enzymes were higher in P. eryngii and P. ostreatus. In addition to the lignocellulosic degrading enzymes, several proteins including sugar transporters, cytochrome P450 monooxygenases, peptidases, proteinases, phosphatases and kinases were also found to be differentially expressed among these four species of white-rot fungi. In summary, the protein expression patterns of P. eryngii and P. ostreatus exhibit co-upregulated oxidoreductase potential and co-downregulated cellulolytic capability relative to those of P. chrysosporium and I. lacteus, providing a mechanism consistent with selective ligninolysis by P. eryngii and P. ostreatus.     

Comparison of ligninolytic activities of selected white-rot fungi

Summary Six fast growing ligninolytic white-rot fungi were compared with Phanerochaete chrysosporium. The results showed that the fungi have similar ligninolytic systems, although minor differences exist. Like in P. chrysosporium the ligninolytic system could be induced by veratryl alcohol in Coriolus versicolor and Chrysosporium pruinosum. These three lignin peroxidase producing fungi were the fastest lignin degraders in stationary cultures, whereas in agitated cultures Bjerkandera adusta showed highest lignin degradation rates. Metabolites accumulating during the degradation of veratryl alcohol were analyzed and compared. Peroxidase production seems to be a common feature of all the tested fungi. Polyclonal antibodies against the lignin peroxidase with pl of 4.65 from P. chrysosporium reacted with the extracellular peroxidases of C. pruinosum, C. versicolor and B. adusta, but not with those of Pleurotus ostreatus.Dedicated to Professor Dr. Hans-Jürgen Rehm on the occasion of his 60th birthday     

Accumulation and degradation of dead-end metabolites during treatment of soil contaminated with polycyclic aromatic hydrocarbons with five strains of white-rot fungi

The white-rot fungi Trametes versicolor PRL 572, Trametes versicolor MUCL 28407, Pleurotus ostreatus MUCL 29527, Pleurotus sajor-caju MUCL 29757 and Phanerochaete chrysosporium DSM 1556 were investigated for their ability to degrade the polycyclic aromatic hydrocarbons (PAH) anthracene, benz[a]anthracene and dibenz[a,h]anthracene in soil. The fungi were grown on wheat straw and mixed with artificially contaminated soil. The results of this study show that, in a heterogeneous soil environment, the fungi have different abilities to degrade PAH, with Trametes showing little or no accumulation of dead-end metabolites and Phanerochaete and Pleurotus showing almost complete conversion of anthracene to 9,10-anthracenedione. In contrast to earlier studies, Phanerochaete showed the ability to degrade the accumulated 9,10-anthracenedione while Pleurotus did not. This proves that, in a heterogeneous soil system, the PAH degradation pattern for white-rot fungi can be quite different from that in a controlled liquid system. Received: 20 March 1996 / Received revision: 2 July 1996 / Accepted: 8 July 1996     

Assessment of selected decay Basidiomycetes for selective biodefibrillation of <Emphasis Type="Bold">Picea abies</Emphasis> wood

We studied the capacity of selected Basidiomycetes (72 species; 109 strains) to defibrillate Picea abies wood blocks, and determined the remaining cellular cohesion and the lignin content in the wood after treatment. Forty strains were sufficiently aggressive to invade non-sterile wood blocks in laboratory conditions; but only seven of them — Gloeophyllum trabeum, Gloeoporus taxicola, two strains of Phanerochaete velutina, Polyporus badius, Resinicium bicolor and Trametes versicolor produced an significant biodefibrillation. A combination of Gloeophyllum trabeum and Gloeoporus taxicola or Gloeophyllum trabeum and Resinicium bicolor created a synergetic effect and a nearly 70 % loss of the cellular cohesion. The use of selected rot fungi as pre-treatment to save wood pulping energy in several manufacturing processes is discussed.     

Fungal species residing in the sclerotia of <Emphasis Type="Italic">Polyporus umbellatus</Emphasis>

Sclerotia of Polyporus umbellatus is a traditional Chinese herb. The sclerotia can survive in soils for long time and their growth depends upon a symbiotic association with Armillariella mellea. But it is unclear whether other fungi reside or play a role in the sclerotia. In this study, wild sclerotial samples were collected from seven provinces, which span southwest to northeast China. A total of 148 fungal isolates were recovered from the sclerotia of P. umbellatus and classified into 19 morphological taxa. Seventeen belonged to five genera: Fusarium, Eurotium, Penicillium, Geomyces and Mucor. The fungi found within the sclerotia varied depending on the province from which they were collected. The possible role of these fungi is discussed.     

Experimental calcium-oxalate crystal production and dissolution by selected wood-rot fungi

Twenty-six species of white-rotting Agaricomycotina fungi (Basidiomycota) were screened for their ability to produce calcium-oxalate (CaOx) crystals in vitro. Most were able to produce CaOx crystals in malt agar medium in the absence of additional calcium. In the same medium enriched with Ca²⁺, all the species produced CaOx crystals (weddellite or whewellite). Hyphae of four species (Ganoderma lucidum, Polyporus ciliatus, Pycnoporus cinnabarinus, and Trametes versicolor) were found coated with crystals (weddellite/whewellite). The production of CaOx crystals during the growth phase was confirmed by an investigation of the production kinetics for six of the species considered in the initial screening (Pleurotus citrinopileatus, Pleurotus eryngii, Pleurotus ostreatus, P. cinnabarinus, Trametes suaveolens, and T. versicolor). However, the crystals produced during the growth phase disappeared from the medium over time in four of the six species (P. citrinopileatus, P. eryngii, P. cinnabarinus, and T. suaveolens). For P. cinnabarinus, the disappearance of the crystals was correlated with a decrease in the total oxalate concentration measured in the medium from 0.65 ??g mm⁻² (at the maximum accumulation rate) to 0.30 ??g mm⁻². The decrease in the CaOx concentration was correlated with a change in mycelia morphology. The oxalate dissolution capability of all the species was also tested in a medium containing calcium oxalate as the sole source of carbon (modified Schlegel medium). Three species (Agaricus blazei, Pleurotus tuberregium, and P. ciliatus) presented a dissolution halo around the growth zone. This study shows that CaOx crystal production is a widespread phenomenon in white-rot fungi, and that an excess of Ca²⁺ can enhance CaOx crystal production. In addition, it shows that some white-rot fungal species are capable of dissolving CaOx crystals after growth has ceased. These results highlight a diversity of responses around the production or dissolution of calcium oxalate in white-rot fungi and reveal an unexpected potential importance of fungi on the oxalate cycle in the environment.