Filling a gap in the taxonomy of phyllachoroid fungi: Proposition of Neopolystigma, gen. nov., and the new family Neopolystigmataceae.

A Polystigma-like found on an herbaceous to shrubby species of Fabaceae (Andira humilis) in the Brazilian Cerrado was morphologically close to Polystigma pusillum, a leaf parasite on Andira inermis collected in Central America and Brazil. Phylogenetic analyses using a combination of the rDNA 28S, 18S, and internal transcribed spacer (ITS) regions placed both fungi in the Phyllachorales, and not in Polystigamataceae/Xylariales, where Polystigma species belong, and characteristically found on members of the Rosaceae, causing red leaf blotch containing bright-colored fungal stromata spread on the lesions. This disease prevails in orchards in the Northern Hemisphere, infecting Amygdalus, Cerasus, Padus, and Prunus species, but never in the Tropics. Polystigma species infecting other botanical families have been reallocated in different families, orders, and even classes in Ascomycota. In our phylogenetic analyses, the two species on Andira were allocated in Phyllachorales but separated in a well-supported cluster from Phyllachoraceae and Phaeochoraceae. In relation to Telimenaceae, the statistical support is not strong; however, considering that its type genus, Telimena, was never sequenced, we choose to accept Neopolystigma (type N. saraivae) as the type genus of a new family, Neopolystigmataceae. The sister species of N. saraivae, Polystigma pusillum found on A. inermis, was recombined into N. pusillum.

Cryptococcus depauperatus, a close relative of the human-pathogen C. neoformans, associated with coffee leaf rust (Hemileia vastatrix) in Cameroon.

The genus Cryptococcus is well known for its two species -Cryptococcus neoformans and C. gatii- that are etiological agents of cryptococcosis, an important fungal disease of mammals, including humans, and which is particularly common in immunocompromised patients. Nevertheless, Cryptococcus is a large and widely distributed genus of basidiomycetes occupying a broad range of niches, including mycoparasitism. One such mycoparasitic species is Cryptococcus depauperatus, which was firstly mistakenly described as a pathogen of scale insects under the name Aspergillus depauperatus. The "Aspergillus" conidiophores were later shown to be basidia of a Cryptococcus and the new combination C. depauperatus was proposed. Additionally, instead of an entomopathogen, the fungus was found to be a mycoparasite growing on the entomopathogen Akanthomyces (Lecanicillium) lecanii. Recently, during surveys for mycoparasites of coffee leaf rust (Hemileia vastatrix) in the context of a biocontrol project, white colonies covering rust pustules were observed in Cameroon. Upon close examination, instead of a member of the "white colony forming complex" of Ascomycetes, commonly collected growing on H. vastatrix, such colonies were found to represent a basidiomycete fungus with basidia-bearing chains of basidiospores, typical of the genus Cryptococcus. Morphological and molecular evidence was generated supporting the identification of the fungus on rust pustules as C. depauperatus. This is the first record of C. depauperatus from Africa and of its association with coffee leaf rust.

Diversity, prevalence and phylogenetic positioning of Botrytis species in Brazil.

Botrytis is a necrotrophic fungal genus of great economic importance worldwide. Together, the Botrytis species are able to infect over one thousand host plant species, including dicotyledons and monocotyledons. As the identification of Botrytis species in Brazil has mostly been based only on morphological characterization and comparisons of the rDNA ITS region, which is not informative in the genus, its diversity remains unknown. Thus, in this study we determined the diversity and prevalence of Botrytis spp. in Brazil by multilocus phylogeny. Phylogenetic reconstruction of the genus was performed using the nuclear genes glyceraldehyde-3-phosphate dehydrogenase (G3PDH), heat-shock protein 60 (HSP60) and RNA polymerase II second largest subunit (RPB2). From analyses of 56 Botrytis isolates obtained from different hosts and geographical regions in Brazil, we found that Botrytis cinerea is the most prevalent species with considerable intraspecific genetic diversity detected by nuclear genes. Two new hosts to B. cinerea and eight host never previously reported in Brazil were found. We also reported for the first time the occurrence of Botrytispseudocinerea associated with Accasellowiana (Myrtaceae). Due to the new phylogenetic positioning of Botrytispelargonii and Botrytiseucalypti, a taxonomic review of these species was suggested.