Project description:LC-MSMS of polar lipids from S. aureus ATCC 29213. Qualitative data

Project description:Negative TofMS-IDA data for E. coli W3110 at logarithmic and stationary phase. Includes intra- and extra-cellular metabolome, and intracellular polar lipids fraction

Project description:Transcription analysis of ΔpknK mutant (LIX11) versus wild type H37Rv during logarithmic and stationary phase growth. This will elucidate the genes regulated by PknK during transition from logarithmic growth to stationary phase growth.

Project description:Comparison of gene expression between L. reuteri ATCC 55730 in LDMIII between early log phase (T8), late log phase (T12) or early stationary phase phase (T16) or late stationary phase (T24)

Project description:Comparison of gene expression between L. reuteri ATCC PTA 6475 in LDMIII between early log phase (T8), late log phase (T12) or early stationary phase phase (T16) or late stationary phase (T24)

Project description:Xbp1 binding during log phase and stationary phase.

Project description:Objective of the study is to find out the differentially regulated genes of Mycobacterium BCG strain in extended stationary phase comparison to log phase growth and resuscitation phase. Mycobacterium BCG culture was grown in Sauton medium at 37o C without shaking. Cells at A600 0.6-0.8 were harvested as log phase culture. The cells harvested after 5 months incubation at 37oC without shaking became non culturable and were harvested as extended stationary phase cells. The extended stationary phase cells were treated with resuscitation promoting factor (Rpf) from Micrococcus luteus and harvested after 8 days. Cells of this stage were treated as resuscitation phase cells. Gene expression profiling was carried out using Agilent microarray platform. Keywords: Extended stationary phase, Log phase growth and Resuscitation phase.

Project description:Global transcriptome analyses at different stages of growth were applied to monitor growth phase-dependent gene expression in the alpha-proteobacterium Rhodobacter sphaeroides. Low aerated cultures with strong changes in levels of dissolved oxygen during growth, were compared to aerated cultures showing little variation in oxygen levels. Cells were in stationary phase for 12 h or for 57 h before dilution into fresh medium. The majority of genes (78-86%) were not differentially expressed across growth phases. Gene expression in outgrowth phase was strongly influenced by the length of the preceding stationary phase. After 57 h in stationary phase a much larger number of genes was induced after dilution, 39% of which are known to be controlled by the alternative sigma factors RpoHI and/or RpoHII. Growth experiments with mutant strains assign an important function in stationary phase and especially in outgrowth to these sigma factors and genes for both sigma factors showed growth phase-dependent expression. Besides the known consensus sequences for the RpoH sigma factors, some new consensus sequences were identified in subsets of growth phase-dependent genes. Genes for several predicted regulatory proteins exhibited growth phase-specific expression implying a role in growth phase adaptation in alpha-proteobacteria, which needs verification in the future.

Project description:Global transcriptome analyses at different stages of growth were applied to monitor growth phase-dependent gene expression in the alpha-proteobacterium Rhodobacter sphaeroides. Cultures with low aeration, which underwent strong changes in levels of dissolved oxygen during growth, were compared to aerated cultures, which showed little variation in levels of dissolved oxygen. Cells were in stationary phase for 12 h or for 57 h before dilution into fresh medium. While the majority of genes (80-85%) are not differentially expressed across growth phases, other genes exhibited growth phase-dependent expression patterns. Gene expression in outgrowth phase was strongly influenced by the length of the preceding stationary phase. After 57 h in stationary phase a much larger number of genes was induced after dilution, 35% of which are known to be controlled by the alternative sigma factors RpoHI and/or RpoHII. Growth experiments with mutant strains assign an important function in stationary phase and especially in outgrowth to these sigma factors and genes for both sigma factors showed growth phase-dependent expression. Besides the known consensus sequences for the RpoH sigma factors, some new consensus sequences were identified in subsets of growth phase-dependent genes suggesting regulation by common transcription factors.

Project description:Transcriptional profiling of Salmonella Typhimurium SL1344 parental starin and isogenic ∆relA, ∆spoT ppGpp null strain grown in LB medium with RNA samples talken at AD600=1.0 (mid log, ML), 2.3 (early stationary phase, ESP), 3.0 (mid stationary phase MSP) and 3.6 (Late stationary phase (LSP)