Evolution of multicopper oxidase genes in coprophilous and non-coprophilous members of the order sordariales

Multicopper oxidases (MCO) catalyze the biological oxidation of various aromatic substrates and have been identified in plants, insects, bacteria, and wood rotting fungi. In nature, they are involved in biodegradation of biopolymers such as lignin and humic compounds, but have also been tested for various industrial applications. In fungi, MCOs have been shown to play important roles during their life cycles, such as in fruiting body formation, pigment formation and pathogenicity. Coprophilous fungi, which grow on the dung of herbivores, appear to encode an unexpectedly high number of enzymes capable of at least partly degrading lignin. This study compared the MCO-coding capacity of the coprophilous filamentous ascomycetes Podospora anserina and Sordaria macrospora with closely related non-coprophilous members of the order Sordariales. An increase of MCO genes in coprophilic members of the Sordariales most probably occurred by gene duplication and horizontal gene transfer events.     

Thielavia aurantiaca, a new species from Japanese soil

A new species ofThielavia (T. aurantiaca) isolated from field soil collected from Osaka is described and illustrated. The fungus is distinguished from other known species by having ascomata covered with yellowish orange mycelium and smaller size of ascomata and ascospores. A chlamydospore-like anamorph is formed.     

Apiosordaria striatispora, an endophyte ofMesua ferrea andPrunus arborea from Thailand

Apiosordaria striatispora isolated as an endophyte ofMesua ferrea andPrunus arborea is described, and illustrated with interference contrast light micrographs and scanning electron micrographs.     

Cuspidatispora xiphiago gen. et sp. nov. from an eastern North American creek

An interesting aquatic ascomycete was found that appeared to possess characteristics of some members of the Sordariales. Subsequent sequencing of the 28S large subunit rDNA and β-tubulin genes confirmed the morphological data by placing it in the Sordariales but failed to provide support for placing this species in any recognized genus. Therefore, a new genus, Cuspidatispora, is erected to accommodate Cuspidatispora xiphiago, which is described as a new species based on a combination of morphological and molecular data. Cuspidatispora xiphiago is unique in possessing a central, melanized ascomal wall layer and apiosporous ascospores with a pronounced apical wall extension.     

The morphology of Cercophora palmicola (Lasiosphaeriaceae)

A detailed study of ascomal morphology and development in Cercophora palmicola showed that ontogeny is ascohymeniaceous, giving rise to an ostiolate perithecium. Ascomal initials consist of a coiled ascogonium surrounded by several layers of hyphae whose cells become pseudoparenchymatous. The centrum of the young ascoma is composed of a few rows of large, thin-walled pseudoparenchymatous cells that line the ascomal wall, with the central region filled by tightly packed, filamentous paraphyses. The ascogenous system forms along the inside of the layer of pseudoparenchymatous cells at the base of the paraphyses and gives rise to unitunicate asci that grow up among the paraphyses. The wall of the mature perithecium is greatly thickened. It is composed of three regions: a thin outer region of darkly pigmented, angular cells with thickened walls; a broad central region of cells with gelatinized walls; and a thin inner region of flattened cells. Ascomal ontogeny in C. palmicola conforms well to the Sordaria type of development, as defined by Huang.     

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Summary

A new coprophilous species of Coniochaeta, C. burtii, with 512-spored asci, is described from deer dung from Glen Dochart, Perthshire.     

Molecular Systematics of Zopfiella and allied genera: evidence from multi-gene sequence analyses

This study aims to reveal the phylogenetic relationships of Zopfiella and allied genera in the Sordariales. Multiple gene sequences (partial 28 S rDNA, ITS/5.8 S rDNA and partial β-tubulin) were analysed using MP and Bayesian analyses. Analyses of different gene datasets were performed individually and then combined to infer phylogenies. Phylogenetic analyses show that currently recognised Zopfiella species are polyphyletic. Based on sequence analyses and morphology, it appears that Zopfiella should be restricted to species having ascospores with a septum in the dark cell. Our molecular analysis also shows that Zopfiella should be placed in Lasiosphaeriaceae rather than Chaetomiaceae. Cercophora and Podospora are also polyphyletic, which is in agreement with previous studies. Our analyses show that species possessing a Cladorrhinum anamorph are phylogenetically closely related. In addition, there are several strongly supported clades, characterised by species possessing divergent morphological characters. It is difficult to predict which characters are phylogenetically informative for delimiting these clades.