Comparative Genomic Analysis of Human Fungal Pathogens Causing Paracoccidioidomycosis

Desjardins, Christopher A.; Champion, Mia D.; Holder, Jason W.; Muszewska, Anna; Goldberg, Jonathan M.; Bailão, Alexandre Melo; Brigido, Marcelo M.; Ferreira, Márcia Eliana da Silva; Garcı́a, Ana Maria; Grynberg, Marcin; Gujja, Sharvari; Heiman, David I.; Henn, Matthew R.; Kodira, Chinnappa D.; León-Narváez, Henry; Longo, Larissa V. G.; Ma, Lijun; Malavazi, Iran; Matsuo, Alisson L.; Morais, Flavia Villaça; Pereira, Maristela; Rodríguez-Brito, Sabrina; Sakthikumar, Sharadha; Salem-Izacc, Sílvia Maria; Sykes, Sean M.; Teixeira, Marcus M.; Vallejo, Milene C.; Walter, Maria Emília M. T.; Yandava, Chandri; Young, Sarah; Zeng, Qiandong; Zucker, Jeremy; Felipe, Maria Sueli Soares; Goldman, Gustavo H.; Haas, Brian J.; McEwen, Juan G.; Niño-Vega, Gustavo; Puccia, Rosana; San-Blas, Gioconda; Soares, Célia Maria de Almeida; Birren, Bruce W.; Cuomo, Christina A.

doi:10.1371/journal.pgen.1002345

Cited by 157 publications

(188 citation statements)

References 110 publications

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“…On the basis of the previously reported roles of Zn-cluster TFs, we hypothesize that the expansion of this gene family contributes to the suppression of filamentous forms throughout the life cycle and under different conditions. In support of this, Zn-binding protein families (including Zn-cluster TFs) have been found to have expanded independently in Paracoccidioides immitis also, another dimorphic fungus 23 with a well-developed yeast phase.…”

Section: Resultsmentioning

confidence: 80%

Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts

et al. 2014

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Convergent evolution is common throughout the tree of life, but the molecular mechanisms causing similar phenotypes to appear repeatedly are obscure. Yeasts have arisen in multiple fungal clades, but the genetic causes and consequences of their evolutionary origins are unknown. Here we show that the potential to develop yeast forms arose early in fungal evolution and became dominant independently in multiple clades, most likely via parallel diversification of Zn-cluster transcription factors, a fungal-specific family involved in regulating yeast-filamentous switches. Our results imply that convergent evolution can happen by the repeated deployment of a conserved genetic toolkit for the same function in distinct clades via regulatory evolution. We suggest that this mechanism might be a common source of evolutionary convergence even at large time scales.

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Section: Resultsmentioning

confidence: 80%

Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts

et al. 2014

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“…Fungi within Onygenales show significant genomic adaptations for using animal substrates [27]. The virulence factors possessed by O. ophiodiicola have not been fully characterized, but Allender et al [11] demonstrated that O. ophiodiicola has gelatinase, b-glucosidase, lipase, esterase, urease and keratinase activities in vitro.…”

Section: Pathogenesismentioning

confidence: 99%

Snake fungal disease: an emerging threat to wild snakes

Lorch

Knowles

Lankton

et al. 2016

Phil. Trans. R. Soc. B

190

241

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Since 2006, there has been a marked increase in the number of reports of severe and often fatal fungal skin infections in wild snakes in the eastern USA. The emerging condition, referred to as snake fungal disease (SFD), was initially documented in rattlesnakes, where the infections were believed to pose a risk to the viability of affected populations. The disease is caused by Ophidiomyces ophiodiicola , a fungus recently split from a complex of fungi long referred to as the Chrysosporium anamorph of Nannizziopsis vriesii (CANV). Here we review the current state of knowledge about O. ophiodiicola and SFD. In addition, we provide original findings which demonstrate that O. ophiodiicola is widely distributed in eastern North America, has a broad host range, is the predominant cause of fungal skin infections in wild snakes and often causes mild infections in snakes emerging from hibernation. This new information, together with what is already available in the scientific literature, advances our knowledge of the cause, pathogenesis and ecology of SFD. However, additional research is necessary to elucidate the factors driving the emergence of this disease and develop strategies to mitigate its impacts. This article is part of the themed issue ‘Tackling emerging fungal threats to animal health, food security and ecosystem resilience’.

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“…When genomes of three Paracoccidioides strains became available, they were added to the analyses, again finding a loss of genes involved in metabolizing carbohydrates in these species (Desjardins et al 2011). These authors also experimented with the growth of U. reesii on 190 carbon substrates, including carbohydrates and proteins.…”

Section: Comparative Genomicsmentioning

confidence: 99%

Evolutionary Perspectives on Human Fungal Pathogens

Taylor

2014

Cold Spring Harb Perspect Med

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Comparative Genomic Analysis of Human Fungal Pathogens Causing Paracoccidioidomycosis

Cited by 157 publications

References 110 publications

Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts

Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts

Snake fungal disease: an emerging threat to wild snakes

Evolutionary Perspectives on Human Fungal Pathogens

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