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Identification and nomenclature of the genus <i>Penicillium</i>
Visagie, C.M.,Houbraken, J.,Frisvad, J.C.,Hong, S.-B.,Klaassen, C.H.W.,Perrone, G.,Seifert, K.A.,Varga, J.,Yaguchi, T.,Samson, R.A. CBS PUBLICATIONS 2014 STUDIES IN MYCOLOGY Vol.78 No.-
<P><I>Penicillium</I> is a diverse genus occurring worldwide and its species play important roles as decomposers of organic materials and cause destructive rots in the food industry where they produce a wide range of mycotoxins. Other species are considered enzyme factories or are common indoor air allergens. Although DNA sequences are essential for robust identification of <I>Penicillium</I> species, there is currently no comprehensive, verified reference database for the genus. To coincide with the move to one fungus one name in the International Code of Nomenclature for algae, fungi and plants, the generic concept of <I>Penicillium</I> was re-defined to accommodate species from other genera, such as <I>Chromocleista</I>, <I>Eladia</I>, <I>Eupenicillium</I>, <I>Torulomyces</I> and <I>Thysanophora</I>, which together comprise a large monophyletic clade. As a result of this, and the many new species described in recent years, it was necessary to update the list of accepted species in <I>Penicillium</I>. The genus currently contains 354 accepted species, including new combinations for <I>Aspergillus crystallinus</I>, <I>A. malodoratus</I> and <I>A. paradoxus</I>, which belong to <I>Penicillium</I> section <I>Paradoxa</I>. To add to the taxonomic value of the list, we also provide information on each accepted species MycoBank number, living ex-type strains and provide GenBank accession numbers to ITS, β-tubulin, calmodulin and <I>RPB2</I> sequences, thereby supplying a verified set of sequences for each species of the genus. In addition to the nomenclatural list, we recommend a standard working method for species descriptions and identifications to be adopted by laboratories working on this genus.</P>
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All that glitters is not <i>Ramularia</i>
Videira, S.I.R.,Groenewald, J.Z.,Braun, U.,Shin, H.D.,Crous, P.W. CBS PUBLICATIONS 2016 STUDIES IN MYCOLOGY Vol.83 No.-
<P><I>Ramularia</I> is a species-rich genus that harbours plant pathogens responsible for yield losses to many important crops, including barley, sugar beet and strawberry. Species of <I>Ramularia</I> are hyphomycetes with hyaline conidiophores and conidia with distinct, thickened, darkened, refractive conidiogenous loci and conidial hila, and <I>Mycosphaerella</I> sexual morphs. Because of its simple morphology and general lack of DNA data in public databases, several allied genera are frequently confused with <I>Ramularia</I>. In order to improve the delimitation of <I>Ramularia</I> from allied genera and the circumscription of species within the genus <I>Ramularia</I>, a polyphasic approach based on multilocus DNA sequences, morphological and cultural data were used in this study. A total of 420 isolates belonging to <I>Ramularia</I> and allied genera were targeted for the amplification and sequencing of six partial genes. Although <I>Ramularia</I> and <I>Ramulariopsis</I> proved to be monophyletic, <I>Cercosporella</I> and <I>Pseudocercosporella</I> were polyphyletic. <I>Phacellium</I> isolates clustered within the <I>Ramularia</I> clade and the genus is thus tentatively reduced to synonymy under <I>Ramularia</I>. <I>Cercosporella</I> and <I>Pseudocercosporella</I> isolates that were not congeneric with the ex-type strains of the type species of those genera were assigned to existing genera or to the newly introduced genera <I>Teratoramularia</I> and <I>Xenoramularia</I>, respectively. <I>Teratoramularia</I> is a genus with ramularia-like morphology belonging to the <I>Teratosphaeriaceae</I>, and <I>Xenoramularia</I> was introduced to accommodate hyphomycetous species closely related to <I>Zymoseptoria</I>. The genera <I>Apseudocercosporella</I>, <I>Epicoleosporium</I>, <I>Filiella</I>, <I>Fusidiella</I>, <I>Neopseudocercosporella</I>, and <I>Mycosphaerelloides</I> were also newly introduced to accommodate species non-congeneric with their purported types. A total of nine new combinations and 24 new species were introduced in this study.</P>
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Phylogenetic classification of <i>Cordyceps</i> and the clavicipitaceous fungi
Sung, Gi-Ho,Hywel-Jones, Nigel L.,Sung, Jae-Mo,Luangsa-ard, J. Jennifer,Shrestha, Bhushan,Spatafora, Joseph W. CBS PUBLICATIONS 2007 STUDIES IN MYCOLOGY Vol.- No.57
<P><I>Cordyceps</I>, comprising over 400 species, was historically classified in the <I>Clavicipitaceae</I>, based on cylindrical asci, thickened ascus apices and filiform ascospores, which often disarticulate into part-spores. <I>Cordyceps</I> was characterized by the production of well-developed often stipitate stromata and an ecology as a pathogen of arthropods and <I>Elaphomyces</I> with infrageneric classifications emphasizing arrangement of perithecia, ascospore morphology and host affiliation. To refine the classification of <I>Cordyceps</I> and the <I>Clavicipitaceae</I>, the phylogenetic relationships of 162 taxa were estimated based on analyses consisting of five to seven loci, including the nuclear ribosomal small and large subunits (<I>nrSSU</I> and <I>nrLSU</I>), the elongation factor 1α (<I>tef1</I>), the largest and the second largest subunits of RNA polymerase II (<I>rpb1</I> and <I>rpb2</I>), β-tubulin (<I>tub</I>), and mitochondrial ATP6 (<I>atp6</I>). Our results strongly support the existence of three clavicipitaceous clades and reject the monophyly of both <I>Cordyceps</I> and <I>Clavicipitaceae</I>. Most diagnostic characters used in current classifications of <I>Cordyceps</I> (e.g., arrangement of perithecia, ascospore fragmentation, etc.) were not supported as being phylogenetically informative; the characters that were most consistent with the phylogeny were texture, pigmentation and morphology of stromata. Therefore, we revise the taxonomy of <I>Cordyceps</I> and the <I>Clavicipitaceae</I> to be consistent with the multi-gene phylogeny. The family <I>Cordycipitaceae</I> is validated based on the type of <I>Cordyceps</I>, <I>C. militaris,</I> and includes most <I>Cordyceps</I> species that possess brightly coloured, fleshy stromata. The new family <I>Ophiocordycipitaceae</I> is proposed based on <I>Ophiocordyceps</I> Petch, which we emend. The majority of species in this family produce darkly pigmented, tough to pliant stromata that often possess aperithecial apices. The new genus <I>Elaphocordyceps</I> is proposed for a subclade of the <I>Ophiocordycipitaceae</I>, which includes all species of <I>Cordyceps</I> that parasitize the fungal genus <I>Elaphomyces</I> and some closely related species that parasitize arthropods. The family <I>Clavicipitaceae</I><I>s. s.</I> is emended and includes the core clade of grass symbionts (e.g., <I>Balansia</I>, <I>Claviceps</I>, <I>Epichloë</I>, etc.), and the entomopathogenic genus <I>Hypocrella</I> and relatives. In addition, the new genus <I>Metacordyceps</I> is proposed for <I>Cordyceps</I> species that are closely related to the grass symbionts in the <I>Clavicipitaceae</I><I>s. s.</I><I>Metacordyceps</I> includes teleomorphs linked to <I>Metarhizium</I> and other closely related anamorphs. Two new species are described, and lists of accepted names for species in <I>Cordyceps</I>, <I>Elaphocordyceps</I>, <I>Metacordyceps</I> and <I>Ophiocordyceps</I> are provided.</P>
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