Project description:This SuperSeries is composed of the following subset Series: GSE31815: ccpA mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + Glucose at MID-log growth phase GSE31816: ccpA mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + GLucose at transition-phase of growth (TS) GSE31817: ccpA mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + Galactose at MID-log growth phase GSE31818: ccpA mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + galactose at transition-phase of growth (TS) Refer to individual Series

Project description:DNA microarrays were conducted on E. coli K12 cells stressed with 10 μM in N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN). Overall, 260 genes varied in expression, 114 up-regulated and 146 down-regulated by Zn deprivation Keywords: TPEN stress Array hybridizations were carried out for three RNA samples prepared from three independent cultures (control or TPEN-treated).

Project description:Cytochrome oxydases and quinol monooxygenase were removed from the E. coli genome resulting in oxygen-independent physiology We used microarray profiling to identify perturbed metabolic or regulatory functionality resulting in the inability to undergo aerobic-anaerobic shift. Affimetrics E. coli Arrays 2.0, Experiment (ECOM4) under both conditions (+O2/-O2) were analyzed in triplicates and compared to control (MG1655) under same conditions in triplicates

Project description:We sequenced mRNA of three dual perturbation experiments of E. coli K12 MG1655 changing both genetic and environmental conditions. Each dual perturbation experiment consists of four RNA-seq samples (WT, WT+nutrient supplementation, transcription factor KO, transcription factor KO+nutrient supplementation). The three conditions are: 1) adenine supplementation/nac KO, 2) L-tryptophan supplementation/cra KO, 3) anaerobic/mntR KO. Determination of whether a transcription factor plays a regulatory role in a particular environmental shift by examining differential expression of mRNA levels.

Project description:We have analyzed the genome-wide redistribution of RNA polymerase in E.coli upon methylglyoxal stress. Herefore, we have used ChIP-chip against the beta subunit of RNA polymerase and we have assessed changes in RNA polymerase distribution upon sub-lethal and lethal concentrations of methylglyoxal.

Project description:An eight chip study using total RNA recovered from separate wild-type cultures of Thermotoga maritima at mid-log with 3 different minimal sugar media. A eight-chip study using total RNA recovered from separate wild-type cultures of Thermotoga maritima at mid-log with 3 different minimal sugar media. 4 biological replicates maltose, 2 biological replicates L-arabinose, 2 biological replicates cellobiose.

Project description:Hemicellulose, the second most abundant plant biomass fraction after cellulose, is widely viewed as a potential feedstock for the production of liquid fuels and other value-added materials. Degradation of hemicellulose by filamentous fungi requires production of many different enzymes, which are induced by biopolymers or its derivatives and regulated mainly at the transcriptional level through transcription factors (TFs). Neurospora crassa has been shown to express and secrete plant cell wall associated enzymes. To better understand genes specifically associated with degradation of hemicellulose, we identified 353 genes by transcriptome analysis of N. crassa wild type strain grown on beechwood xylan. Exposure to xylan induces 9 of the 19 predicted hemicellulase genes. The xylanolytic phenotype of strains with deletions in genes identified from the secretome and transcriptome analysis of wild type showed that none were essential for growth on beechwood xylan. The transcription factor XlnR/Xyr1 in Aspergillus and Trichoderma species is considered to be the major transcriptional regulator of genes encoding both cellulases and hemicellulases. We identified a xlnR/xyr1 homolog in N. crassa, NCU06971, termed xlr-1 (xylanase regulator 1). Deletion of xlr-1 in N. crassa abolishes the growth on xylan and xylose, but growth on cellulose was indistinguishable from wild type. To determine regulatory mechanisms associated with hemicellulose degradation, we explored the transcriptional regulon of XLR-1 under xylose and xylanolytic versus cellulolytic conditions. XLR-1 regulated only some predicted hemicellulase genes in N. crassa and was required for a full induction of several cellulase genes. Hemicellulase gene expression was induced by a combination of release from carbon catabolite repression (CCR) and induction. However, in N. crassa, xlr-1 is subject to non-CRE-1 mediated CCR. This systematic analysis provides the similarities and differences of hemicellulose degradation and regulation mechanisms used by N. crassa in comparison to other filamentous fungi. Four-condition experiments (minimal medium, xylan medium,xylose and Avicel medium) of mutant strain(xlr-1) compared to wild type strain; Cy3 and Cy5 dye swap

Project description:Among the three major genetic lineages of L. monocytogenes (i.e. LI, LII, and LIII), LI and LII are predominantly associated with foodborne listeriosis outbreaks, whereas LIII is rarely implicated in human infections. In a previous study, we identified a Crp/Fnr family transcription factor lmo0753 that was highly specific to outbreak-associated LI and LII but absent from LIII. Lmo0753 shares two conserved functional domains including a DNA-binding domain with the well-characterized master virulence regulator PrfA in L. monocytogenes. In this study, we constructed a lmo0753 deletion and complementation mutants of the fully sequenced L. monocytogenes LII strain EGDe. We found that deletion of lmo0753 led to the loss of L-rhamnose utilization in EGDe. Transcriptomic comparison of the EGDe lmo0753 deletion mutant and the wild type incubated in phenol-red medium containing L-rhamnose as the sole carbon source revealed 126 (4.5%) and 546 (19.5%) out of 2,798 genes in the EGDe genome that were up- and down-regulated for more than 2-fold, respectively. Genes involved in biotin biosynthesis, general stress response and rhamnose metabolism were shown to be differentially regulated by Lmo0753. Findings from this study may partially explain why LIII of L. monocytogenes is underrepresented in the environment and rarely associated with human listeriosis outbreaks due to the inability of rhamnose utilization. We report the transcriptomic profile of L. monocytogenes M-NM-^Tlmo0753 LII strain (EGDe) in broth media with L-rhamnose as the sole carbon source. Examination of deletion of Lmo0753 on L-rhamnose utilization in L. monocytogenes. Two biological replicates per WT and M-NM-^Tlmo0753.

Project description:The four-carbon sugar erythritol is an important component of B. melitensis pathogenesis. To determine the transcriptional response to erythritol, B. melitensis strain 16M was grown in the presence of either glucose or erythritol as a sole carbon source. Two control samples (glucose) and two experimental samples (erythritol) were analyzed on Nimblegen B. melitensis microarray chips.

Project description:Mutations that made the cells insensitive to the QS inhibition by C-30 were identified in mexR, a multi-drug resistance operon repressor. Gene expression of mexR mutant relative to wild-type at the presence of C-30 was examined. Strains: PA14_mexR and wildtype. Medium: OS minimal medium + 0.1% Adenosine as carbon source. Compounds: 50 µM C-30 added at OD600=0.25. Time: 2 hr. Temp: 37 ºC. Cell type: Planktonic Cells.