Project description: Not available

Project description: Not available

Project description: Not available

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: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:Metformin is one of the most prescribed antidiabetic agents worldwide, and also considered for other therapeutic applications including cancer and endocrine disorders. Metformin is largely unmetabolised by human enzymes, and its mechanisms of action, likely also involving the microbiome, are not yet well characterised. Increasing presence of metformin in the environment has raised concerns, with reported toxic effects on aquatic life and potentially also on humans. We report on the isolation and characterisation of strain MD1, an aerobic methylotrophic bacterium growing with metformin as its sole carbon, nitrogen and energy source. Sequence analysis of its fully assembled genome allows its affiliation to Aminobacter niigataensis. Strain MD1 degrades metformin into dimethylamine used for growth, leaving guanylurea as a side-product. Differential proteomics and transcriptomics, as well as minitransposon mutagenesis of the strain, point to genes and proteins potentially associated with hydrolytic C-N cleavage of metformin, transport of metformin and guanylurea, and associated regulatory processes. Our results will inform future research on the fate of metformin and its degradation products in the human gut and the environment, and to identify microbial players and enzymes involved in the transformation of pharmaceuticals.

Project description:Comparative transcriptomic analysis of three Alishewanella species utilizing pectin as a sole carbon source

Project description: Not available

Project description: Not available

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. 20 samples were analyzed from 16 different fermentation conditions. The fermentation conditions were varied according to a full factorial design of four factors tested at two levels. From one fermentation two different time samples were analyzed, from another fermentation four samples, two technical replicates of two different time samples, were analyzed. Samples were collected either around the time point carbon source depleted or a considerable time (~24 h) after carbon souce depletion.