Project description:Transcriptome of A. nidulans TNO2a3 and ∆ptpB strains when grown on minimal media plus casaminoacids and transferred to minimal media plus glucose as a sole carbon source for 4 hours

Project description:Aspergillus nidulans ∆pkaA strain grown on avicel as sole carbon source

Project description:Transcriptome of A. nidulans ∆pkaA strain when grown on complete media (CM) and transferred to minimal media plus avicel as a sole carbon source for 8 and 24 hours

Project description:Transcriptome of A. nidulans TNO2a3, ∆snfA and ∆schA strains when grown on complete media (CM) and transferred to minimal media plus avicel as a sole carbon source for 8 and 24 hours.

Project description:Aspergillus nidulans strains TNO2a3, ∆snfA and ∆schA grown on avicel as sole carbon source

Project description:Transcriptome of A. nidulans TNO2A3, ∆msbA and ∆MHD strains when grown on complete media (YUU) and transferred to minimal media plus avicel as a sole carbon source for 24 hours

Project description:Transcriptional profiling of Aspergillus nidulans comparing control (growing on glucose) and carbon starving cultures.

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: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:Transcriptome of A. nidulans TNO2a3 and M-bM-^HM-^FptpB strains when grown on minimal media plus casaminoacids and transferred to minimal media plus glucose as a sole carbon source for 4 hours Three conditions minimal media plus casaminoacids during 24 hours (reference) and minimal media plus glucose for 4 hours. Three strains TNO2a3 and M-bM-^HM-^FptpB. Three biological repetitions of each timepoint of TNO2a3 / M-bM-^HM-^FptpB