CandidaDB: A genome database for Candida albicans pathogenomics

CandidaDB is a database dedicated to the genome of the most prevalent systemic fungal pathogen of humans, Candida albicans. CandidaDB is based on an annotation of the Stanford Genome Technology Center C.albicans genome sequence data by the European Galar Fungail Consortium. CandidaDB Release 2.0 (June 2004) contains information pertaining to Assembly 19 of the genome of C.albicans strain SC5314. The current release contains 6244 annotated entries corresponding to 130 tRNA genes and 5917 protein-coding genes. For these, it provides tentative functional assignments along with numerous pre-run analyses that can assist the researcher in the evaluation of gene function for the purpose of specific or large-scale analysis. CandidaDB is based on GenoList, a generic relational data schema and a World Wide Web interface that has been adapted to the handling of eukaryotic genomes. The interface allows users to browse easily through genome data and retrieve information. CandidaDB also provides more elaborate tools, such as pattern searching, that are tightly connected to the overall browsing system. As the C.albicans genome is diploid and still incompletely assembled, CandidaDB provides tools to browse the genome by individual supercontigs and to examine information about allelic sequences obtained from complementary contigs. CandidaDB is accessible at http://genolist.pasteur.fr/CandidaDB.Sequence data from C.albicans were obtained from the Stanford Genome Technology Center (http://www.sequence. stanford.edu/group/candida). Sequencing of C.albicans was accomplished with the support of the NIDR and the Burroughs Wellcome Fund. This work was supported by grants from the European Commission (QLK2-2000-00795; MCRTN-CT-2003-504148; ‘Galar Fungail Consortium’) to A.J.P.B., C.E., A.D., J.E., C.G., B.H., F.M.K., J.P.M. and R.S. and the Ministere de la Recherche et de la Technologie (PRFMMIP ‘Re´seau Infections Fongiques’) to C.E. and C.G. F.T. was supported by the Institut Pasteur Strategic Horizontal Program on Anopheles gambiae. N.M. was supported by a fellowship of the Junta de Castilla y Leon and by grants DGCYT (PM-98-0317 and BIO 2002-02124) to A.D. R.S. was supported in part by grants from the Spanish Ministerio de Ciencia y Tecnologia (BMC2003- 01023) and Agencia Valenciana de Ciencia i Tecnologia de la Generalitat Valenciana (Grupos 03/187)

Gymnemic acids inhibit hyphal growth and virulence in Candida albicans

Candida albicans is an opportunistic and polymorphic fungal pathogen that causes mucosal, disseminated and invasive infections in humans. Transition from the yeast form to the hyphal form is one of the key virulence factors in C. albicans contributing to macrophage evasion, tissue invasion and biofilm formation. Nontoxic small molecules that inhibit C. albicans yeast-to-hypha conversion and hyphal growth could represent a valuable source for understanding pathogenic fungal morphogenesis, identifying drug targets and serving as templates for the development of novel antifungal agents. Here, we have identified the triterpenoid saponin family of gymnemic acids (GAs) as inhibitor of C. albicans morphogenesis. GAs were isolated and purified from Gymnema sylvestre leaves, the Ayurvedic traditional medicinal plant used to treat diabetes. Purified GAs had no effect on the growth and viability of C. albicans yeast cells but inhibited its yeast-to-hypha conversion under several hypha-inducing conditions, including the presence of serum. Moreover, GAs promoted the conversion of C. albicans hyphae into yeast cells under hypha inducing conditions. They also inhibited conidial germination and hyphal growth of Aspergillus sp. Finally, GAs inhibited the formation of invasive hyphae from C. albicans-infected Caenorhabditis elegans worms and rescued them from killing by C. albicans. Hence, GAs could be useful for various antifungal applications due to their traditional use in herbal medicine

Mechanisms of redundancy and specificity of the Aspergillus fumigatus Crh transglycosylases

Transglycosylases strengthen the fungal cell wall by forming a rigid network of crosslinks. Here, Fang et al. show that the five Crh transglycosylases of Aspergillus fumigatus are dispensable for cell wall integrity in vitro, and solve the crystal structure of Crh5 in complex with chitooligosaccharides

Dynamique, déterminants de la colonisation et évolution génomique de Candida albicans en situation de commensalisme : une étude dans une population amérindienne vivant isolée en Guyane française

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