Blastobotrys, Sporothrix and Trichosporiella: generic delimitation, new species, and a Stephanoascus teleomorph

Blastobotrys nigripullensis, a new yeast species isolated from a fungal outbreak on an ancient Roman shipwreck in the Netherlands

A new species of the yeast genus Blastobotrys was discovered on ancient ship timbers in the Netherlands. The species had developed on the wood of a river barge dating to the Roman period. The growth occurred after the preservative polyethylene glycol (PEG 4000) was washed out of some of the timbers due to an undetected leak in the storage unit. Mycological analysis of various timber samples revealed the presence of Microascus melanosporus (predominant), Microascus paisii, a member of the Acremonium chrysogenum-clade, and a new Blastrobotrys species. The new species produced sporothrix-like conidiophores with clavate blastoconidia (3-7 × 1-3.5 μm) and was found to be osmotolerant, capable of growth on low water activity media like malt yeast 50% glucose agar (MY50G). In this article we formally describe and introduce Blastrobotrys nigripullensis (CBS 17879 T) based on its morphology, physiology and phylogenetic placement.

Da Vinci's yeast: Blastobotrys davincii f.a., sp. nov

A new species of the yeast genus Blastobotrys was discovered during a worldwide survey of culturable xerophilic fungi in house dust. Several culture-dependent and independent studies from around the world detected the same species from a wide range of substrates including indoor air, cave wall paintings, bats, mummies, and the iconic self-portrait of Leonardo da Vinci from ca 1512. However, none of these studies identified their strains, clones, or OTUs as Blastobotrys. We introduce the new species as Blastobotrys davincii f.a., sp. nov. (holotype CBS H-24879) and delineate it from other species using morphological, phylogenetic, and physiological characters. The new species of asexually (anamorphic) budding yeast is classified in Trichomonascaceae and forms a clade along with its associated sexual state genus Trichomonascus. Despite the decade-old requirement to use a single generic name for fungi, both names are still used. Selection of the preferred name awaits a formal nomenclatural proposal. We present arguments for adopting Blastobotrys over Trichomonascus and introduce four new combinations as Blastobotrys allociferrii (≡ Candida allociferrii), B. fungorum (≡ Sporothrix fungorum), B. mucifer (≡ Candida mucifera), and Blastobotrys vanleenenianus (≡ Trichomonascus vanleenenianus). We provide a nomenclatural review and an accepted species list for the 37 accepted species in the Blastobotrys/Trichomonascus clade. Finally, we discuss the identity of the DNA clones detected on the da Vinci portrait, and the importance of using appropriate media to isolate xerophilic or halophilic fungi.

Characterization of a new Blastobotrys navarrensis strain indicates that it is not a later synonym of Blastobotrys proliferans

The species Blastobotrys navarrensis Sesma and Ramirez was delineated based on the description of the single strain CBS 139.77T. Based on its phenotypic similarities to Blastobotrys proliferans, B. navarrensis CBS 139.77T was later considered a synonym of B. proliferans. In the present study, we isolated the yeast strain IST 508 (=PYCC 8784=CBS 16671) from the soil surrounding an olive tree in Ferreira do Alentejo, Portugal. The phylogenetic analysis of D1/D2 domain and ITS sequences from strain IST 508 indicates that is closely related to B. navarrensis and B. proliferans. Although strain IST 508 differs from B. navarrensis CBS 139.77T by 14 substitutions and 20 indels (6.6 % divergence) in the ITS sequence, no divergence was detected at the level of D1/D2 domain, mitochondrial small subunit rDNA, and cytochrome oxidase II sequences. On the other hand, strains IST 508 and CBS 139.77 differ from B. proliferans NRRL Y-17577T by eight substitutions (1.4 % divergence) in the D1/D2 domain sequence, by 16 substitutions (2.7 % divergence) in the cytochrome oxidase II sequence, and by 16 substitutions (3.7 % divergence) in the mitochondrial small subunit rDNA sequence. Due to the high number of variable phenotypic tests in B. proliferans and B. navarrensis, strains from the two species are difficult to distinguish. Contrasting with what is described for other Blastobotrys species, no differences were detected at the level of micromorphology between the two species. Nevertheless, based on the molecular differences between the two strains, CBS 139.77 and IST 508, and B. proliferans NRRL Y-17577T and their phylogenetic analysis, strains CBS 139.77 and IST 508 are from B. navarrensis and this species should be considered as an independent species and not a later synonym of B. proliferans. We propose an emended description of B. navarrensis.

Description of Crinitomyces reliqui gen. nov., sp. nov. and Reassignment of Trichosporiella flavificans and Candida ghanaensis to the Genus Crinitomyces

The systematic position of 16 yeast strains isolated from Thailand, Hungary, The Netherlands, and the Republic of Poland were evaluated using morphological, physiological, and phylogenetic analyses. Based on the similarity of the D1/D2 domain of the LSU rRNA gene, the strains were assigned to two distinct species, Trichosporiella flavificans and representatives of a new yeast species. Phylogenetic analyses revealed that Candida ghanaensis CBS 8798T showed a strong relationship with the aforementioned two species. The more fascinating issue is that Candida and Trichosporiella genera have been placed in different subphyla, Saccharomycotina and Pezizomycotina, respectively. The close relationship between Trichosporiella flavificans, Candida ghanaensis and the undescribed species was unexpected and needed to be clarified. As for morphological and physiological characteristics, the three yeast species shared a hairy colony appearance and an ability to assimilate 18 carbon sources. Based on phylogenetic analyses carried out in the present study, Crinitomyces gen. nov. was proposed to accommodate the new yeast species, Crinitomyces reliqui sp. nov. (Holotype: TBRC 15054, Isotypes: DMKU-FW23-23 and PYCC 9001). In addition, the two species Trichosporiella flavificans and Candida ghanaensis were reassigned to the genus Crinitomyces as, Crinitomyces flavificans (Type: CBS 760.79) comb. nov. and Crinitomyces ghanaensis (Type: CBS 8798) comb. nov., respectively.

Six new species of Sporothrix from hardwood trees in Poland

Sporothrix (Sordariales, Ascomycota) is a well-supported monophyletic lineage within the Ophiostomatales, species of which occur in a diverse range of habitats including on forest trees, in the soil, associated with bark beetles and mites as well as on the fruiting bodies of some Basidiomycota. Several species have also been reported as important human and animal pathogens. During surveys of insect- and wound-associated Ophiostomatales from hardwood trees in Poland, many isolates with affinity to Sporothrix were recovered. In the present study, six undescribed Sporothrix spp. collected during these surveys are characterized based on their morphological characteristics and multi-locus phylogenenetic inference. They are described as Sporothrixcavum, Sporothrixcracoviensis, S.cryptarchum, S.fraxini, S.resoviensis, and S.undulata. Two of the Sporothrix spp. reside in the S.gossypina-complex, while one forms part of the S.stenoceras-complex. One Sporothrix sp. is a member of lineage F, and two other species grouped outside any of the currently defined species complexes. All the newly described species were recovered from hardwood habitats in association with sub-cortical insects, wounds or woodpecker cavities. These species were morphologically similar, with predominantly asexual states having hyaline or lightly pigmented conidia, which produce holoblastically on denticulate conidiogenous cells. Five of the new taxa produce ascomata with necks terminating in long ostiolar hyphae and allantoid ascospores without sheaths. The results suggest that Sporothrix species are common members of the Ophiostomatales in hardwood ecosystems of Poland.

The divorce of Sporothrix and Ophiostoma: solution to a problematic relationship

One of the causal agents of human sporotrichosis, Sporothrix schenckii, is the type species of the genus Sporothrix. During the course of the last century the asexual morphs of many Ophiostoma spp. have also been treated in Sporothrix. More recently several DNA-based studies have suggested that species of Sporothrix and Ophiostoma converge in what has become known as Ophiostoma s. lat. Were the one fungus one name principles adopted in the Melbourne Code to be applied to Ophiostoma s. lat., Sporothrix would have priority over Ophiostoma, resulting in more than 100 new combinations. The consequence would be name changes for several economically important tree pathogens including O. novo-ulmi. Alternatively, Ophiostoma could be conserved against Sporothrix, but this would necessitate changing the names of the important human pathogens in the group. In this study, we sought to resolve the phylogenetic relationship between Ophiostoma and Sporothrix. DNA sequences were determined for the ribosomal large subunit and internal transcribed spacer regions, as well as the beta-tubulin and calmodulin genes in 65 isolates. The results revealed Sporothrix as a well-supported monophyletic lineage including 51 taxa, distinct from Ophiostoma s. str. To facilitate future studies exploring species level resolution within Sporothrix, we defined six species complexes in the genus. These include the Pathogenic Clade containing the four human pathogens, together with the S. pallida-, S. candida-, S. inflata-, S. gossypina- and S. stenoceras complexes, which include environmental species mostly from soil, hardwoods and Protea infructescences. The description of Sporothrix is emended to include sexual morphs, and 26 new combinations. Two new names are also provided for species previously treated as Ophiostoma.

Metabolism of vanillic acid by Micromycetes

The ability of 953 strains of Micromycetes to grow with vanillic acid (0.5 g/l) was investigated. Toxicity assays were performed on malt extract/agar medium, while consumption was estimated by growing fungi on solid synthetic medium with vanillic acid as sole carbon source. More than half of the tested strains grew in both conditions. After cultivation on solid media, 296 strains were selected and cultivated in liquid synthetic medium. These experiments allowed division of the Micromycetes into different groups according to their consumption of the phenolic compound and the appearance of new metabolites. Results were related to the taxonomic position of the strains.

Peritonitis due to Blastobotrys proliferans in a patient undergoing continuous ambulatory peritoneal dialysis

Blastobotrys proliferans is an ascomycetous yeast never previously reported as a human pathogen. Here we report a case of peritonitis due to Blastobotrys proliferans in a 46-year-old man undergoing peritoneal dialysis.

Symptomology and etiology of a new disease, yellow stunt, and root rot of standing milkvetch caused by Embellisia sp. in Northern China

An Embellisia sp. has been established as the cause of a new disease of the herbaceous perennial forage legume, 'standing milkvetch' (Astragalus adsurgens Pall.) in Northern China, which severely reduces plant density and degrades A. adsurgens stands. The disease was common at an experimental location in Gansu Province where it was recognized by the occurrence of stunted plants with reddish-brown stems and yellow and necrotic leaf blades. An Embellisia sp. was isolated from symptomatic stem, leaf blade, petiole, and root tissues at varying frequencies of up to 90%. Single-spore isolates grew very slowly on PCA, PDA, V-8 and, wheat hay decoction agar. Pathogenicity was confirmed by inoculation of seeds, dipping 2-day-old pre-germinated seedlings in inoculum and spraying inoculum on 6-month-old plants. Symptoms on test plants included yellow leaf lesions, brown lesions on stems and petioles, stunted side-shoots with yellow, small, distorted and necrotic leaves, shoot blight, bud death, crown rot, root rot, and plant death. The disease is named as 'yellow stunt and root rot' of A. adsurgens to distinguish it from diseases caused by other known pathogens. Embellisia sp. is also pathogenic to A. sinicus but not to 11 other tested plant species.

Molecular relationships among hyphal ascomycetous yeasts and yeastlike taxa

The circumscription of mycelial genera among the ascomycetous yeasts has been controversial because of widely different interpretations of the taxonomic significance of their phenotypic characters. Relationships among species assigned to mycelial genera were determined from extent of divergence in a ca. 600-nucleotide region near the 5′ end of the large subunit (26S) ribosomal DNA gene. Phylogenetic analyses showed that Stephanoascus is distinct from Zygoascus and that Blastobotrys, Sympodiomyces, and Arxula represent anamorphs of the Stephanoascus clade. The analyses demonstrated the following teleomorphic taxa to be congeneric: Ambrosiozyma/Hormoascus, Saccharomycopsis/Guilliermondella/Botryoascus/Arthroascus, Dipodascus/Galactomyces, and Eremothecium/Ashbya/Nematospora/Holleya. Species assigned to Dipodascus comprise two separate clades. New taxonomic combinations are proposed that reflect the phylogenetic relationships determined. Key words: mycelial yeasts, ribosomal rRNA/rDNA, molecular systematics.

Podospora Lautarea sp. nov. from Southern Alps (France): description and physiological properties

A taxonomic description of Podospora Lautarea sp. nov. is provided. This species is characterized by a reddish brown peridium, and by its large, asymmetric ascospores, small, hyaline, unique primary appendage, absence of secondary appendage and cylindrical asci. Due to the size of its appendage, this species may be related to Podospora minicaudaFaureal et Locquin-Linard. Asci and ascospores are close to those of P. fimbriata (Bayer) Cain, but the dimensions and ornamentation of perithecia are quite different. To summarize, this species belongs to the small group of Podospora exhibiting only one appendage (such as P. minicauda, P. carpinicola Mouchacca or P. horridula (Sacc.) Francis and Sparrow) but can not be assimilated to one of the described species in this group. The main cultural characteristics and physiological properties of this species are described.

Production of patulin by Micromycetes

In the context of the screening for antifungal and antibacterial molecules among the Micromycetes, we investigated the ability of 850 strains grown in liquid medium to produce patulin. The compound was produced by 58 fungi, most of which had not been mentioned in the literature, especially Mucorales and Fungi Imperfecti. Biological tests showed that dermatophytes are the most sensitive to this molecule. It also appears that the origin of the producing strains influences their toxin producing activity.

Ultrastructure in septa in Blastobotrys and Sporothrix

Transmission electron micrographs of septa in Blastobotrys species invariably showed central micropores. Septa of species of Sporothrix, however, exhibited three types of pores: micropores which were central if single, or scattered; central simple pores with Woronin bodies; dolipores. The results confirm the heterogeneity of the genus Sporothrix.

Carbohydrate patterns and taxonomy of Sporothrix and Blastobotrys

Within the hyphomycete genus Sporothrix Hektoen & Perkins three distinct groups are recognized on the basis of carbohydrate patterns. In the first group, and in Blastobotrys Klopotek, mannose is predominant while xylose and rhamnose are absent; this suggests a relationship with the Ascoideaceae. A second group, comprising anamorphs of Ophiostomataceae, is characterized by the presence of rhamnose. A third group is characterized by the presence of xylose, indicating a basidiomycete affinity. Three sections are erected to accommodate these groups.

Morphological taxonomy of little-differentiated Hyphomycetes

Morphological taxonomy of simple Hyphomycetes is complicated by the frequent occurrence of pleoanamorphism. In some groups of yeast-like fungi, uncommon synanamorphs are diagnostic. Differences in conidiogenesis do not always delimit natural groups. Some nomenclatural problems are mentioned, with an emphasis on the need of neotypification. Prospects are sketched for future taxonomic research.