Project description:Transcriptome analysis of Aspergillus section Fumigati

Project description:Genome sequencing and assembly of strains of Aspergillus species in section Fumigati

Project description:Draft genome sequences of the strains in Aspergillus section Fumigati

Project description:Decoding Azole Resistance Mechanisms and Pathogenicity in Aspergillus Section Fumigati

Project description:Interspecies hybridization and species delimitation in Aspergillus viridinutans complex (section Fumigati) encompassing opportunistic mammalian pathogens

Project description:A new species in Aspergillus section Usti

Project description:Aspergillus fumigatus is the most important pulmonary fungal pathogen. Virulence has evolved several times in the section Aspergillii. However, there are species in this section, such as A. fischerii and A. oerlinghausensis, that are very closely related to A. fumigatus but are not reported as pathogens. By using trypsin shaving, we have identified the proteins on the conidial surface of conidia and swollen conidia of A. fumigatus, A. fischeri, A. oerlinghausensis, and A. lentulus. We have identified about 900 proteins in all four species and shown 52 that are unique in A. fumigatus. Both A. fischerii and A. oerlinghausensis have homologues for most of these proteins. However, they are not expressed in the conidia and and could reflect specific A. fumigatus traits important for infection and/or immune evasion.

Project description:The full genome sequencing of the filamentous fungi Aspergillus nidulans, Aspergillus niger and Aspergillus oryzae has opened the possibilities for studying the cellular physiology of these fungi on a systemic level. As a tool to explore this, we are presenting an Affymetrix GeneChip developed for transcriptome analysis of any of the three above-mentioned aspergilli. Transcriptome analysis of triplicate batch cultivations of all three aspergilli on glucose-and xylose media has been performed, and used to validate the performance of the micro array. By doing gene comparisons of all three species, and cross-analysing this with the expression data, 23 genes, including the xylose transcriptional activator XlnR, have been identified to be a conserved response across the Aspergillus sp. Promoter analysis of the upregulated genes in all three species suggest the XlnR-binding site to be 5’-GGNTAAA-3’. We are thus presenting a validated tool for transcription analysis of three Aspergillus species and a methodology for comparative transcriptomics. Keywords: Physiological response

Project description:The full genome sequencing of the filamentous fungi Aspergillus nidulans, Aspergillus niger and Aspergillus oryzae has opened the possibilities for studying the cellular physiology of these fungi on a systemic level. As a tool to explore this, we are presenting an Affymetrix GeneChip developed for transcriptome analysis of any of the three above-mentioned aspergilli. Transcriptome analysis of triplicate batch cultivations of all three aspergilli on glucose-and xylose media has been performed, and used to validate the performance of the micro array. By doing gene comparisons of all three species, and cross-analysing this with the expression data, 23 genes, including the xylose transcriptional activator XlnR, have been identified to be a conserved response across the Aspergillus sp. Promoter analysis of the upregulated genes in all three species suggest the XlnR-binding site to be 5’-GGNTAAA-3’. We are thus presenting a validated tool for transcription analysis of three Aspergillus species and a methodology for comparative transcriptomics. Keywords: Physiological response

Project description:The full genome sequencing of the filamentous fungi Aspergillus nidulans, Aspergillus niger and Aspergillus oryzae has opened the possibilities for studying the cellular physiology of these fungi on a systemic level. As a tool to explore this, we are presenting an Affymetrix GeneChip developed for transcriptome analysis of any of the three above-mentioned aspergilli. Transcriptome analysis of triplicate batch cultivations of all three aspergilli on glucose-and xylose media has been performed, and used to validate the performance of the micro array. By doing gene comparisons of all three species, and cross-analysing this with the expression data, 23 genes, including the xylose transcriptional activator XlnR, have been identified to be a conserved response across the Aspergillus sp. Promoter analysis of the upregulated genes in all three species suggest the XlnR-binding site to be 5’-GGNTAAA-3’. We are thus presenting a validated tool for transcription analysis of three Aspergillus species and a methodology for comparative transcriptomics. Keywords: Physiological response