Project description:Identification of the specific PhoP binding regions on the B. subtilis chromosome during exponential and phosphate starvation growth phases. The data serves to extend the PhoPR regulon in Bacillus subtilis and its role in adaptation to phosphate-limiting conditions and cell wall metabolism, as well as implying a role in several other cellular processes. For each sample analyzed in this study three biological replicates were performed. Three different samples were taken from a strain expressing the PhoP-SPA protein as well as from wild-type (168) without a tagged PhoP. Samples were taken from exponentially growing cells in low phosphate medium (LPDM) as well as from phosphate-limited cells (T2). Each sample compares ChIP DNA vs. Total DNA from the same cells.

Project description:Identification of the specific WalR (YycF) binding regions on the B. subtilis chromosome during exponential and phosphate starvation growth phases. The data serves to extend the WalRK regulon in Bacillus subtilis and its role in cell wall metabolism, as well as implying a role in several other cellular processes. For each sample analyzed in this study three biological replicates were performed. Three different samples were taken from a strain expressing the WalR-SPA protein as well as from wild-type (168) without a tagged WalR. Samples were taken from exponentially growing cells in low phosphate medium (LPDM) as well as from phosphate-limited cells (T2). Each sample compares ChIP DNA vs. Total DNA from the same cells.

Project description:The goal of this project was to identify the target of the human covalent kinase inhibitor drug neratinib in Arabidopsis samples. To this end we applied activity-based protein profilling using the neratinib alkyne derivative.

Project description:Mass spectrometry-based proteomics studies have enabled identification and quantification of thousands of proteins from biological samples. High molecular weight abundant proteins are readily sampled in global proteomics studies compared to low molecular weight less abundant proteins. Although extensive fractionation can facilitate identification of low molecular weight less abundant proteins, it requires additional infrastructure, mass spectrometry time and labour. There is a need for a simple method that can deplete high molecular weight proteins and enrich for low molecular weight proteins to improve their coverage in proteomics studies. We developed a simple method that depletes high molecular weight proteins from various biological samples including cell lines, tissues, and serum. Using this strategy, we demonstrate identification of proteins that are often underrepresented in proteomics datasets. This approach also enabled identification of low abundant serum proteins that are often not detected using immunodepletion strategy. We also identified several novel proteins encoded by annotated non-coding regions in the human genome including lncRNAs and UTRs. Our approach can complement existing proteomics workflows to increase detection and coverage of low molecular weight less abundant proteins.

Project description:Staphylococcus aureus causes disease in humans and a wide array of animals. Of note, S. aureus mastitis of ruminants, including cows, sheep and goats, results in major economic losses worldwide. Extensive variation in genome content exists among S. aureus pathogenic clones. However, the genomic variation among S. aureus strains infecting different animal species has not been well examined. To investigate variation in the genome content of human and ruminant S. aureus we carried out whole genome PCR scanning (WGPS), comparative genomic hybridizations (CGH), and directed DNA sequence analysis of strains of human, bovine, ovine, and caprine origin. Extensive variation in genome content was discovered including host- and ruminant-specific genetic loci. Ovine and caprine strains were genetically allied whereas bovine strains were heterogenous in gene content. As expected, mobile genetic elements such as pathogenicity islands and bacteriophages contributed to the variation in genome content between strains. However, remarkably, most host-specific differences were restricted to regions of the conserved core genome, which contained allelic variation in genes encoding proteins of known and unknown function. Many of these proteins are predicted to be exported and could play a role in host-pathogen interactions. These data suggest that diversification of the core genome may be more important than acquisition of novel genes for S. aureus host-adaptation. The host-specific determinants identified by the whole-genome approaches adopted in the current study represent excellent targets for studies of the evolution and molecular basis of S. aureus host specificity. Keywords: Strain vs strain eleven strains of Sa were compared at the DNA level in triplicate.

Project description:We investigated the genome-wide binding sites for sigma54 and RNA polymerase in wild-type Escherichia coli MG1655.

Project description:The gene expression profile of E. coli K-12 MG1655 grown in minimal medium treated with 0.12 mg/L of the biocide triclosan has been analysed using whole genome oligonucleotide microarrays. "Control" RNA was isolated from three independently grown 50ml MOPS minimal media cultures of E. coli K-12 MG1655. “Test” RNA was isolated from three independently grown 50ml MOPS minimal cultures of E. coli K-12 MG1655, to which was added 0.12 mg/L of triclosan after reaching mid-logarithmic growth phase (OD600 ~ 0.7 +/- 0.02). Keywords: dose response Cy5-labelled cDNA probes were synthesised from three independent biological extractions of RNA from E. coli MG1655 unexposed to triclosan. Cy3-labelled cDNA probes were synthesised from three independent biological extractions of RNA from E. coli MG1655 exposed to 0.12 mg/L of triclosan. A dye-swap control was also included, whereupon the control cDNA probes were labelled with Cy3 and the test cDNA probes labelled with Cy5. Probes were mixed to allow comparison of the control and test expression profiles and hybridised onto an E. coli spotted oligonucleotide array.

Project description:We used ChIP-seq to map the binding of of C-terminally FLAG3-tagged PhoB to the Escherichia coli K-12 genome during growth in MOPS minimal media with low phosphate or high phosphate (0.2 mM or 1.32 mM, respectively). As a control, we performed ChIP-seq in an untagged strain. We also used ChIP-seq to map Sigma 70 (associates with initiating RNA polymerase) binding across the E. coli K-12 genome in wild-type, ΔphoB, Δhns, and Δhns ΔphoB strains grown in low phosphate medium to determine whether PhoB modulates recruitment of RNA polymerase to promoters and whether this is modulated by H-NS.

Project description:To validate Actichip, we compared this microarray with two other well-established oligonucleotide-based platforms. We used 25-mer oligonucleotide commercial chips (Affymetrix, human genome U133A 2.0) and academic arrays prepared with a 70-mer oligonucleotide set (Operon, human whole genome version 2.0). The same series of high quality RNA samples purified from human breast adenocarcinoma MCF-7 cells and from human skeletal muscle was used in our experiments.

Project description:ChIP-chip assays to measure the occupancy of histone H3 K36me3 over the yeast genome in wildtype, isw1 and chd1 yeast strains. ChIPs were done with K36me3 antibody (Ab 9050) in G1 arrested yeast cells. Two color experiment. Biological replicates=3 per IP per cell type.