Malária experimental: contaminação de cepas e animais de biotério por eperythrozoon coccoides

Neste artigo descrevemos a contaminação acidental de uma cepa de malária de roedor (Plasmodium berghei) por um hemoparasita (Eperythrozoon coccoides), levando a alterações importantes no comportamento da malária experimental. A demonstração do parasita foi feita por microscopia óptica e eletrônica e a fonte de contaminação foi detectada em roedores normalmente utilizados na manutenção da cepa, obtidos do mesmo biotério. As medidas disponíveis para o controle deste tipo de infecção são discutidas propondo se a utilização de tetra-ciclina em matrizes e posterior utilização de animais Fl não tratados. Comenta-se a importância deste tipo de contaminação experimental

Phylogeny, historical biogeography and characters evolution of the drought resistant fern Pyrrosia Mirbel (Polypodiaceae) inferred from plastid and nuclear markers

Abstract Pyrrosia s.l. comprises ca. 60 species with a disjunct Africa/Asia and Australia distribution. The infrageneric classification of Pyrrosia s.l. is controversial based on the phylogenetic analyses of chloroplast markers and morphology. Based on the expanded taxon sampling of Pyrrosia s.l. (51 species), we investigated its phylogeny, biogeography, character evolution and environmental adaptation by employing five chloroplastid markers (rbcL, matK, psbA-trnH, and rps4 + rps4-trnS) and one single (low)-copy nuclear gene, LEAFY. Pyrrosia s.l. was divided into six major clades and eight subclades. Reticulate evolution was revealed both among clades and among species in Pyrrosia s.l. Ancestral character state optimization revealed high levels of homoplastic evolution of the diagnostic characters in Pyrrosia s.l., while the crassulacean acid metabolism pathway seems to have an independent origin. Molecular dating and biogeographic diversification analyses suggested that Pyrrosia s.l. originated no later than the Oligocene and the main clades diversified during the Oligocene and Miocene, with southern Asia, the Indo-China Peninsula and southwestern and southern China as the most likely ancestral areas. Transoceanic long-distance dispersal, rather than vicariance, contributed to the intercontinental disjunction. Diversification scenarios of Pyrrosia s.l. under geological movements and climate fluctuation are also discussed