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International Journal of Medicinal Mushrooms
Импакт фактор: 1.423 5-летний Импакт фактор: 1.525 SJR: 0.433 SNIP: 0.661 CiteScore™: 1.38

ISSN Печать: 1521-9437
ISSN Онлайн: 1940-4344

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International Journal of Medicinal Mushrooms

DOI: 10.1615/IntJMedMushrooms.v7.i3.580
pages 415-416

Biology, Food, Medicinal, and Biotechnological Applications of the Tropical Mushroom Pleurotus tuberregium (Rumph.:Fr.) Singer

Omoanghe S. Isikhuemhen
Mushroom Biology and Fungal Biotechnology Laboratory, Department of Natural Resources and Environmental Design, College of Agriculture and Environmental Sciences, North Carolina Agricultural and Technical State University, Greensboro, North Carolina
Paul E. Stamets
University of California San Francisco, San Francisco, California; Fungi Perfecti P.O. Box 7634 Olympia, WA 98507, USA
Rytas Vilgalys
Department of Biology, Duke University, Durham, NC 27708, USA

Краткое описание

Pleurotus tuberregium (Syn. Lentinus tuberregium), a tropical Basidiomycete, is the only species of Pleurotus known to produce fruit bodies from a true sclerotium. P. tuberregium, often collected in the field growing on decaying logs, can also be cultivated on many different lignocellulosic substrates. Fruit bodies can be found growing out of the sclerotia in the wild and can be induced to do the same if subjected to soaking followed by exposure to warm temperature and humid conditions. This fungus is reported to be distributed in most of equatorial Africa, Madagascar, India, Sri Lanka, South East Asia, Papua New Guinea, New Caledonia, and Northern Australia.
Until recent times, the taxonomic position of P. tuberregium has been problematic. The leathery fruit bodies and dimitic hyphal system with intercalary skeletal hyphae possessed by this fungus led authorities such as E. J. H. Corner and D. N. Pegler to place P. tuberregium in the genus Panus and Lentinus, respectively. However, more recent studies have shown P. tuberregium to have nematotoxic abilities, which supports the classification of this fungus in the genus Pleurotus by R. Singer in 1986. Molecular systematics using ribosomal DNA sequences have shown P. tuberregium to be nested with the genus Pleurotus.
Phylogeny studies of P. tuberregium based on ITS sequences have shown that the African isolates studied showed very little variation, indicating a homogenous gene pool of P. tuberregium in Western Africa. In contrast, there was more gene flow in the Australasia-Pacific region, which could suggest that the origin of diversification for P. tuberregium is the Australasia-Pacific region.
In nature, during the early months of the rainy season, sporophores germinating from fruit bodies discharge spores. These spores, having adequate humidity and warmth in the environment, germinate and seek compatible mates to combine with and begin the dominant dikaryotic mycelia stage in their life cycle. The life cycle of P. tuberregium is different from most other Basidiomycetes in having the sclerotial stage between the mycelia stage and fruit body formation. However, we have also observed in nature and in the laboratory that the genetic background and substrate conditions can cause some isolates of P. tuberregium to go from the mycelia stage directly to sporophore formation. Fıeld observations and laboratory studies have revealed that P. tuberregium is a white rot fungus that secretes laccase- and manganese-dependent peroxidase as its main enzymes used in lignin degradation. Cultivation studies have also shown that P. tuberregium can grow on virtually any lignocellulosic substrate to produce sclerotia and sporophores.
The advantage derived from this quality is the possibility of mass producing the highly-sought-after sclerotia in West Africa, where until recent times, collection from the wild was the only source.
Also, the understanding of the breeding pattern, which is tetrapolar, as well as breeding and selection studies have led to the development of improved strains tor use in commercial cultivation or this fungus. Similarly,its high temperature requirements in addition to its ability to degrade many lignocel-lulosic substrates has made it a potential candidate for bio technological approaches to waste recycling and bioremediation of recalcitrant pollutants.
There are many reports that document traditional uses of P. tuberregium for food and medicine in Africa. Nutritional analysis has shown both sclerotium and sporophores of P. tuberregium to be an excellent source of protein, carbohydrates, and essential minerals. Scientific studies into the medicinal properties of P. tuberregium are active areas of research today. Extracts from sclerotia of P. tuberregium have been shown to have antibacterial and antitumor activities. Protein-bound polysaccharides isolated from P. tuberregium have been shown to have high antitumor activities against Sarcoma 180. Liquid cultivation of mycelia of P. tuberregium has been reported. Mass production of mycelia in bioreactors in developed countries and sclerotia in developing countries, where adequate environmental conditions prevail, will be the source of materials from P. tuberregium needed in medicinal products preparation and bio-technological applications.


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