Project description:In Aspergillus nidulans, nitrogen and carbon metabolism are under the control of wide-domain regulatory systems, including nitrogen metabolite repression, carbon catabolite repression. Transcriptomic analysis of the wild type strain grown under different combinations of carbon and nitrogen regimes was performed, to identify differentially regulated genes. Carbon metabolism predominates as the most important regulatory signal but for many genes, both carbon and nitrogen metabolisms coordinate regulation.
Project description:Aspergillus nidulans is a model organism for aspergilli, an important group of filamentous fungi that encompasses human and plant pathogens, as well as industrial cell factories. Aspergilli have a highly diversified metabolism and both in connection with their biotechnological application as well as their interaction with other cells (humans or plants), it is valuable to understand how their metabolism is regulated. We therefore performed genome-wide transcription analysis of A. nidulans grown on three different carbon sources (glucose, glycerol, and ethanol) with the objective to identify global regulatory structures. We furthermore reconstructed the complete metabolic network of this organism, and this resulted in linking of 666 genes with metabolic functions, as well as assigning metabolic roles to 472 genes that had not been annotated earlier. Through combinations of the reconstructed metabolic network and the transcription data, we identified subnetwork structures that pointed to coordinated regulation of genes involved in many different parts of the metabolism. Keywords: carbon sources, metabolism, comparative genomics
Project description:Investigation of whole genome gene expression level changes in Aspergillus nidulans OE::rsmA compared to wild-type RDIT9.32 (veA). A twelve array study using total RNA recovered from six separate cultures of Aspergillus nidulans wild-type RDIT9.32 (veA) and six separate cultures of Aspergillus nidulans overexpressing rsmA (restorer of secondary metabolism A), using custom-designed, four-plex arrays. The experiment was divided into two runs. In the first run, three biological replicates each of Aspergillus nidulans wild-type RDIT9.32 (veA) and Aspergillus nidulans carrying a plasmid overexpressing rsmA under the control of the gpdA promoter were assayed. In the second run, three biological replicates each of Aspergillus nidulans wild-type RDIT9.32 (veA) and Aspergillus nidulans overexpressing rsmA at the native locus under the control of the gpdA promoter were assayed.
Project description:A transcriptomic assessment of a kinase deletion mutant (ΔpkaA) and a control strain revealed many cellular activities this kinase is impacting. Studies were conducted in the model filamentous fungi, Aspergillus nidulans¸ under rich growth conditions. PkaA is a known kinase that mediates a wide range of processes including: nutrient sensing, stress responses, regulation of metabolism, as well as development and pathogenicity. Here, fungi were grown in rich media containing glucose. The comparison between the control strain and the deletion mutant transcript levels revealed previously unknown targets, such as the transcription factor CreA, the main repressor responsible for carbon catabolite repression (CCR).
Project description:We have a cDNA microarray to investigate changes in gene expression following transfer of fungal cultures from growth on glucose to growth on pectin or no carbon source. Our goal was to asses the roles of release from carbon catabolite repression and specific induction on proteins needed for metabolism (or utilization) of a single class of complex polysaccharide. Keywords = Aspergillus Keywords = Pectin Keywords = central metabolism Keywords = pectin Keywords = carbon catabolite repression Keywords = polysaccharide Keywords = exopolygalacturonase Keywords: time-course
Project description:The study aims essentially in the analysis of the transcriptomic and metabolomic profiles induced by the presence of the tested ionic liquids in the metabolism of Aspergillus nidulans. Focusing specially on the secondary metabolism, which genes are clustered.
Project description:Microarray analysis of Aspergillus niger under conditions with differing combinations of carbon source, nitrogen source, nitrogen concentration, and culture pH Fermentor cultures were grown in minimal medium (MM) at a constant temperature of 30 ± 0.5 ºC and with differing combinations of carbon source (either 277.5 mM glucose or 333.0 mM xylose), nitrogen source (NH4Cl or NaNO3) and nitrogen concentration (4x: 282.4 mM; 8x: 564.8 mM), and pH (pH4 or pH5) of the medium (M. Braaksma, A.K. Smilde, M.J. van der Werf, P.J. Punt, submitted for publication). At different time points samples were collected, quenched immediately in methanol at -45 ºC and centrifuged at -20 ºC to remove supernatant. Part of the biomass was frozen into liquid nitrogen and stored at -80 ºC for microarray analysis. For each of the 16 culture conditions one sample was selected for microarray analysis; samples were collected either around the time point carbon source depleted or a considerable time (~24 h) after carbon souce depletion. In addition some technical duplicates were included.
Project description:We have a cDNA microarray to investigate changes in gene expression following transfer of fungal cultures from growth on glucose to growth on pectin or no carbon source. Our goal was to asses the roles of release from carbon catabolite repression and specific induction on proteins needed for metabolism (or utilization) of a single class of complex polysaccharide. Keywords = Aspergillus Keywords = Pectin Keywords = central metabolism Keywords = pectin Keywords = carbon catabolite repression Keywords = polysaccharide Keywords = exopolygalacturonase