vanbreuseghemii is the teleomorph from strains isolated from huma

vanbreuseghemii is the teleomorph from strains isolated from humans and certain rodents (Takashio, 1979). Both zoophilic species A. benhamiae and A. vanbreuseghemii cause highly inflammatory tinea capitis, tinea corporis and tinea faciei. They are designated T.

mentagrophytes and T. mentagrophytes var. asteroides in many textbooks and publications. Selleck ATM inhibitor The anthropophilic strains of the T. mentagrophytes species complex produce noninflammatory tinea pedis and tinea unguium. Sexual reproduction has not been observed and the fungus is still called by the anamorph name T. interdigitale (or T. mentagrophytes var. interdigitale) (Symoens et al., 2011). Therefore, the formerly widely used species description, T. mentagrophytes, should nowadays only be used for isolates referring to the reference strain designated as a neotype (Gräser learn more et al., 1999). This hint appears to be noteworthy, because many of the genetic studies in dermatophytes were performed using species of the T. mentagrophytes complex, i.e. A. benhamiae and A. vanbreuseghemii. However, in

the case of the latter species, the name T. mentagrophytes was used (e.g. Yamada et al., 2005, 2008, 2009a, b; Alshahni et al., 2011). Broad-scale gene discovery by differential cDNA analysis, expressed sequence tag (EST) sequencing and cDNA-based microarrays allows global insights into cellular adaptation at the level of gene expression. In dermatophytes, such techniques were recently established and revealed the transcriptional response of these fungi under different biologically interesting and also pathogenicity-related conditions. A comprehensive T. rubrum Expression Database was launched

by Wang et al. (2004, 2006), offering a platform for ESTs and cDNA microarray-based Edoxaban transcriptional profiles (http://www.mgc.ac.cn/TrED/). Documented in a number of publications, this approach resulted in the identification of T. rubrum genes, whose expression is linked to distinct developmental growth phases or the presence of selected drugs (Liu et al., 2007; Yang et al., 2007; Yu et al., 2007; Zhang et al., 2007, 2009). Broad transcriptional analyses were also performed in our work on T. rubrum and A. benhamiae, with a focus on genes putatively implicated in extracellular proteolysis. Herein, ESTs from T. rubrum grown on protein as the sole carbon and nitrogen source were analysed and used for the construction of a cDNA microarray containing at least 23 protease genes (Zaugg et al., 2009). Major dermatophyte-secreted keratinases have been known before and were correlated with the degradation of hard compact keratin (for a review, see Monod, 2008). Notably, dermatophytes were shown to secrete multiple serine proteases of the subtilisin family (Sub) as well as metalloproteases of the fungalysin family (Mep) [S8 and M36 family, respectively, in the MEROPS proteolytic enzyme database (http://merops.sanger.ac.uk)]. Microarray analysis during the growth of T. rubrum or A.

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