Project description:We used Affymetrix microarrays to determine the cisplatin-induced gene expression changes in E. coli deficient in dam and mismatch repair (dam, dam mutS, and mutS mutant strains). E. coli deficient in dam are hypersensitive to cisplatin. However introducing an additional mutation in mismatch repair (i.e., a mutation in mutS or mutL) abrogates this sensitivity and essentially restores wildtype levels of resistance. Experiment Overall Design: Overnight cultures were diluted 1000-fold and grown in Luria-Bertani (LB) medium until the cells reached exponential growth as determined by OD600. The exponentially growing cells were resuspended in M9 minimal medium at a cell density of 2 X 108 cells/ml in a volume of 15 ml and treated with 150 uM cisplatin for 2 hours at 37°C. Following treatment cultures were resuspended in 15 ml LB and allowed to recover for 90 minutes at 37°C. OD600 readings were taken after the recovery period, when RNA isolation began. Total RNA was isolated from cells by extraction using the MasterPure RNA Purification Kit (Epicentre Technologies) according to the manufacture’s protocol. The isolated total RNA was quantitated by absorption at 260 nm (typical yield from a 15 ml culture was 250-500 µg of total RNA), and the purity was determined by the ratio of absorption values at 260/280nm. RNA quality was determined by formaldehyde agarose gel electrophoresis (1.2% agarose in FA Buffer pH 7.0 (20mM 3-[N-morpholino]propanesulfonic acid, 5mM sodium acetate, 1mM ethylenadiaminetetraacetic acide (EDTA)) or by analysis on an Agilent 2100 Bioanalyzer. All samples visualized by gel electrophoresis or by the bioanalyzer electropherogram showed clear distinct bands correlating to 16S and 23S ribosomal RNA, indicating that no detectable RNA degradation occurred and that RNA integrity was maintained throughout the RNA isolation procedure.

Project description:We determined the global gene expression profiles of wildtype, dam, dam mutS, and mutS mutant E. coli strains. Keywords: Basal gene expression comparison

Project description:We used Affymetrix microarrays to determine the cisplatin-induced gene expression changes in E. coli deficient in dam and mismatch repair (dam, dam mutS, and mutS mutant strains). E. coli deficient in dam are hypersensitive to cisplatin. However introducing an additional mutation in mismatch repair (i.e., a mutation in mutS or mutL) abrogates this sensitivity and essentially restores wildtype levels of resistance. Keywords: Drug-induced expression

Project description:Basal gene expression in dam, dam mutS, and mutS mutant E. coli strains

Project description:A. niger undergoes dramatic changes during asexual development. We tried to identify the differences in RNA expression levels that are important for this development. We used micro-arrays to determine which genes were up- or down-regulated in the aerial structures, the part of the colony that is formed during asexual development. A. niger was grown as a sandwiched culture (Wösten et al., 1991,Journal of General Microbiology 137: 2017–2023) in a 0.25 mm layer of 0.6 % agarose between two porous polycarbonate membranes (diameter 76 mm, pore size 0.1 µm; Profiltra; www.profiltra.nl). After six days of growth, the top membrane of the sandwich was replaced by a membrane with pores of 10 µm (Profiltra), allowing formation of aerial hyphae and conidiophores for 24 h. Vegetative mycelium and aerial structures of 7-day-old maltose-grown cultures of A. niger were harvested from 3 and 5 sandwiched colonies, respectively. The aerial structures were scraped from the top membrane of the sandwiched culture with a razor blade. From other colonies, vegetative mycelium was harvested by flipping over the top membrane and scraping it off with a razor blade.

Project description:In this work expression of two rhsA elements, ext-a1 and daORF-a1, was differentially induced using IPTG. RhsA is a member of multigene rhs family and can code for five different open reading frames (ORFs), referred to as genetic elements. The functions of rhsA and the different ORFs it codes are not well understood. We used microarrays to study the effect of over-expression of two rhsA elements, ext-a1 and daORF-a1, on E. coli cells. Keywords: time course E. coli cells were harvested from biological replicate cultures at 0 hrs (0 mM IPTG) and at 1.5 and 3.5 hrs (0, 0.1, and 1 mM IPTG) after IPTG induction for RNA extraction and hybridization on Affymetrix arrays. A total of seven different conditions were analysed. Two biological replicates and two technical replicates were performed for each condition (a total of 28 microarray hybridizations).

Project description:Freshly harvested Arabidopsis seeds (ecotype Col0 obtained under 10 mM nitrate nutrition, referred to as C10) are dormant and do not germinate when sown on an agarose-based medium. This experiment was performed to analyze the genes that are differentially expressed in freshly harvested C10 seeds sown on agarose (dormant) versus freshly harvested C10 dry seeds (dormant) to analyze differential expression of genes during the first 6 hrs of imbibition of dormant seeds. Reference: Alboresi et al. Plant Cell Environ (2005) 28 : 500-512 - 16 DAP siliques were harvested from Col 0 plants grown on 10 or 50 mM nitrate or from G4 3 mutant grown on 10 mM nitrate in growth chambers. Keywords: treated vs untreated comparison

Project description:Dark-grown maize seedlings with primary roots 12-20 mm in length were transplanted to high (-0.03 MPa) water potential vermiculite. About 1,000 roots were collected. Each root was divided into 4 segments (distances are from the junction of the root apex and root cap): segment 1, 0-3 mm plus the root cap; segment 2, 3-7 mm; segment 3, 7-12 mm; segment 4, 12-20 mm. Details of the conditions and nutrient modifications have been described before (Sharp et al., 1988; Spollen et al, 2000). From each segment, 250 mg of material was used and RNA was isolated form the combined sample containing all four segments. RNA was isolated using the RNeasy Maxi Kit (Qiagen). RNA integrity was verified by denaturing agarose gel electorphoresis and spectrophotometry.

Project description:ISOLATION OF AGAROSE DIGESTERS FROM AGAROSE ENRICHED EARTHWORM GUT

Project description:Dam-specific RNA-seq