Population structure of the wood-decay fungus Trichaptum abietinum (J. Dicks.) Ryvarden in the Carpathian National Nature Park (Ukraine)

Annesi T., Coppola R. & Motta E. 2003. Isozyme analysis on some wood decay fungi. Journal of Plant Pathology 85: 87-90.Search in Google Scholar

Baldrian P. 2008. Enzymes of saprotrophic basidiomycetes. In: L. Boddy, J. C. Frankland & P. van West (eds.). Ecology of Saprotrophic Basidiomycetes, pp. 19-41. Academic Press, Amsterdam.10.1016/S0275-0287(08)80004-5Search in Google Scholar

Berg E. E. & Hamrick J. L. 1997. Quantification of genetic diversity at allozyme loci. Can. J. For. Res. 27: 415-424.10.1139/x96-195Search in Google Scholar

Bilay V. I. 1982. Metodyi eksperimentalnoy mikologii. Naukova dumka, Kyiv.Search in Google Scholar

Boddy L., Frankland J. & West P. 2008. Ecology of saprotrophic Basidiomycetes. 372 pp. Published by Elsevier Ltd.Search in Google Scholar

Boiko S. M. 2015. Allozyme polymorphism in mono- and dikaryotic cultures of fungus Schizophyllum commune Fr. (Basidiomycetes). Cytology and Genetics 49: 27-31.10.3103/S009545271501003XSearch in Google Scholar

Bonde M. R., Micales J. A. & Peterson G. L. 1993. The use of isozyme analysis for identification of plant-pathogenic fungi. Plant Disease 77: 961-968.10.1094/PD-77-0961Search in Google Scholar

Bragaloni M., Anselmi N. & Cellerino G. P. 1997. Identification of European Armillaria species by analysis of isozyme profiles. European Journal of Forest Pathology 27: 147-157.10.1111/j.1439-0329.1997.tb00856.xSearch in Google Scholar

Eichlerova I., Homolka L., Zifcakova L., Lisa L., Dobiasova P. & Baldrian P. 2015. Enzymatic systems involved in decomposition reflects the ecology and taxonomy of saprotrophic fungi. Fungal ecology 13: 10-22.10.1016/j.funeco.2014.08.002Search in Google Scholar

Engh I. B., Carlsen T., Kauserud H., Hogberg N., Saetre G.-P. & Doi S. 2010. Two invasive populations of the dry rot fungus Serpula lacrymans show divergent population genetic structures. Mol. Ecol. 19: 706-715.10.1111/j.1365-294X.2009.04505.x20089125Search in Google Scholar

Gorova T. L. 1980. Macromycetes derivatives spruce Ukrainian Carpathians. Ukr. Bot. J. 37: 44-50 (in Ukraine with English summary).Search in Google Scholar

Grand L. F., Vernia C. S. & Munster M. J. 2009. Biogeography and hosts of poroid wood decay fungi in North Carolina: species of Trametes and Trichaptum. Mycotaxon 106: 243-246.Search in Google Scholar

Hames B. D. 1998. Gel Electrophoresis of Proteins: A Practical Approach 3rd ed. 352 pp. Oxford University Press, New York.Search in Google Scholar

Hogberg N, Holdenreider O. & Stenlid J. 1999. Population structure of the wood decay fungus Fomitopsis pinicola. Heredity 83: 354-360.10.1038/sj.hdy.688597010504434Search in Google Scholar

Huang H., Dane F. & Kubisiak T. 1998. Allozyme and RAPD analysis of the genetic diversity and geographic variation in wild populations of the American chestnut (Fagaceae). Am. J. Bot. 85: 1013-1021.10.2307/2446368Search in Google Scholar

James T. Y., Porter D., Hamrick J. L. & Vilgalys R. 1999. Evidence for limited intercontinental gene flow in the cosmopolitan mushroom Schizophyllum commune. Evolution 53: 1665-1677.10.1111/j.1558-5646.1999.tb04552.x28565469Search in Google Scholar

Jasalavich C. A., Ostrofsky A. & Jellison J. 2000. Detection and identification of decay fungi in spruce wood by restriction fragment length polymorphism analysis of amplified genes encoding rRNA. Applied and environmental microbiology 66: 4725-4734.10.1128/AEM.66.11.4725-4734.20009237211055916Search in Google Scholar

Kauserud H. & Schumacher T. 2003a. Ribosomal DNA variation, recombination and inheritance in the basidiomycete Trichaptum abietinum: implications for reticulate evolution. Heredity 91: 163-172.10.1038/sj.hdy.6800294Search in Google Scholar

Kauserud H. & Schumacher T. 2003b. Regional and local population structure of the pioneer wood-decay fungus Trichaptum abietinum. Mycologia 95: 416-425.10.1080/15572536.2004.11833086Search in Google Scholar

Manchenko G. P. 2003. Handbook of detection of enzymes on electrophoretic gels. 553 pp. CRC Press.10.1201/9781420040531Search in Google Scholar

Mishra A. K., Sharma K. & Misra R. S. 2010. Isozyme and PCR-based genotyping of epidemic Phytophthora colocasiae associated with taro leaf blight. Archives of Phytopathology and Plant Protection 43: 1367-1380.10.1080/03235400802476450Search in Google Scholar

Mondini L., Noorani A. & Pagnotta M. 2009. Assessing plant genetic diversity by molecular tools. Diversity 1: 19-35.10.3390/d1010019Search in Google Scholar

Nei M. 1978. Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89: 583-590.10.1093/genetics/89.3.583121385517248844Search in Google Scholar

Osono T. & Takeda H. 2006. Fungal decomposition of Abies needle and Betula leaf litter. Mycologia 98: 172-179.10.1080/15572536.2006.11832689Search in Google Scholar

Otieno O. D., Onyango C., Onguso J. M., Matasyoh L. G., Wanjala B. W., Wamalwa M. & Harvey J. J. 2015. Genetic diversity of Kenyan native oyster mushroom (Pleurotus). Mycologia 107: 32-38.10.3852/13-18625344263Search in Google Scholar

Ovaskainen O., Schigel D., Ali-Kovero H., Auvinen P., Paulin L., Norden B. & Norden J. 2013. Combining high-throughput sequencing with fruit body surveys reveals contrasting life-history strategies in fungi. ISME Journal 7: 1696-1709.10.1038/ismej.2013.61374950023575372Search in Google Scholar

Runnel K., Tamm H. & Lohmus A. 2015. Surveying wood-inhabiting fungi: Most molecularly detected polypore species form fruit-bodies within short distances. Fungal Ecology 18: 93-99.10.1016/j.funeco.2015.08.008Search in Google Scholar

Shnyreva A. V. Belokon Yu. S., Belokon M. M. & Altukhov Yu. P. 2004. Interspecific genetic variability of the Oyster mushroom Pleurotus ostreatus as revealed by allozyme gene analysis. Russian Journal of Genetics 40: 871-881.10.1023/B:RUGE.0000039721.91620.2aSearch in Google Scholar

Siddiquee S., Abdullah F., Guan T. S. & Rohaza E. 2007. Level in allozyme variations of Malaysian isolates of Trichoderma harzianum and its taxonomic implications. Research journal of microbiology 10: 717-726.10.3923/jm.2007.717.726Search in Google Scholar

Siddiquee S., Guan T. S. & Kalsom Y. 2010. Isozyme analysis and relationships among three species in Malaysian Trichoderma isolates. J. Microbiol. Biotechnol 20: 1266-1275.10.4014/jmb.1004.04029Search in Google Scholar

Stenlid J., Karlsson J. O& Hogberg N. 1994. Intraspecific genetic variation in Heterobasidion annosum revealed by amplification of minisatellite DNA. Mycol. Res. 98: 57-63.10.1016/S0953-7562(09)80337-7Search in Google Scholar

Udu-Ibiam O. E., Ogbu O., Ibiam U. A., Nnachi A. U., Agah M. V., Ukaegbu C. O., Chukwu O.S., Agumah N. B. & Ogbu K. I. 2014. Phytochemical and antioxidant analyses of selected edible mushrooms, ginger and garlic from Ebonyi State, Nigeria. IOSR Journal of Pharmacy and Biological Sciences 9: 86-91.10.9790/3008-09348691Search in Google Scholar

Xin Qian, Cai-xia Wang & Min Tian. 2013. Genetic diversity and population differentiation of Calanthe tsoongiana, a rare and endemic orchid in China. Int. J. Mol. Sci. 14: 20399-20413.10.3390/ijms141020399Search in Google Scholar

Yeh F. C., Yang R. & Boyle T. 1999. POPGENE Version 1.32. Microsoft window-based freeware for population genetic analysis. Univ. Alberta. Center Intern. Forestry Res.Search in Google Scholar

Zjawiony J. K. 2004. Biologically active compounds from Aphyllophorales (Polypore) fungi. J. Nat. Prod. 67: 300-310.10.1021/np030372w14987072Search in Google Scholar