Project description:Identification of unannotated small genes in Salmonella

Project description:The type of bacterial culture medium is an important consideration during design of any experimental protocol. The aim of this study was to understand the impact of medium choice on bacterial gene expression and physiology by comparing the transcriptome of Salmonella enterica SL1344 after growth in the widely used LB broth or the rationally designed MOPS minimal medium. Transcriptomics showed that after growth in MOPS minimal media, compared to LB, there was increased expression of 42 genes involved in amino acid synthesis and 23 genes coding for ABC transporters. Seven flagellar genes had decreased expression after growth in MOPS minimal medium and this correlated with a decreased motility. In both MOPS minimal medium and MEM expression of genes from SPI-2 was increased and the adhesion of S. Typhimurium to intestinal epithelial cells was higher compared to the levels after growth in LB. However, SL1344 invasion was not significantly altered by growth in either MOPs minimal media or MEM. Expression of SPI-2 was also measured using chromosomal GFP reporter fusions followed by flow cytometry which showed, for the first time, that the reduction in SPI-2 transcript after growth in different media related to a reduction in the proportion of the bacterial population expressing SPI-2. These data highlight the profound differences in the global transcriptome after in vitro growth in different media and show that choice of medium should be considered carefully during experimental design, particularly when virulence related phenotypes are being measured.

Project description:Summary: Salmonella enterica serovar Typhimurium strain 14028s transcriptome response to tomato medium (TM) and tomato root exudates (TX) compared to minimal medium (MM). Purpose: Salmonella mRNA profile, when grown in different media was compared to minimal medium to reveal environment specific transcriptional changes. Methods: mRNA profiles were generated using Illumina HiSeq in triplicates. The sequences were analysed using Bowtie2 followed by Cufflinks.

Project description:Summary: Salmonella enterica serovar Typhimurium strain 14028s transcriptome response to lettuce medium (LM) and lettuce root exudates (LX) to minimal medium (MM). Purpose: Salmonella mRNA profile, when grown in different media was compared to minimal medium to reveal environment specific transcriptional changes. Methods: mRNA profiles were generated using Illumina HiSeq in triplicates. The sequences were analysed using Bowtie2 followed by Cufflinks.

Project description:Summary: Salmonella enterica serovar Typhimurium strain 14028s transcriptome response to DS soil suspension (DS) and suspension of autoclaved DS soil (DA) compared to minimal medium (MM). Purpose: Salmonella mRNA profile, when grown in different media was compared to minimal medium to reveal environment specific transcriptional changes. Methods: mRNA profiles were generated using Illumina HiSeq in triplicates. The sequences were analysed using Bowtie2 followed by Cufflinks.

Project description:In response to low levels of magnesium (Mg2+), the PhoQP two component system induces the transcription of two convergent genes, one encoding a 31-amino acid protein denoted MgtS and the second encoding a small, regulatory RNA (sRNA) denoted MgrR. Previous studies showed that the MgtS protein interacts with and stabilizes the MgtA Mg2+ importer to increase intracellular Mg2+ levels, while the MgrR sRNA base pairs with the eptB mRNA thus affecting lipopolysaccharide modification. Surprisingly, we found overexpression of the MgtS protein also leads to induction of the PhoRB regulon. Studies to understand this activation showed that MgtS forms a complex with a second protein, PitA, a cation-phosphate symporter. Given that the additive effect of ∆mgtA and ∆mgtS mutations on intracellular Mg2+ concentrations seen previously is lost in the ∆pitA mutant, we suggest that MgtS binds to and blocks Mg2+ leakage through PitA under Mg2+-limiting conditions. Consistent with a detrimental role of PitA in low Mg2+, we also observe MgrR sRNA repression of PitA synthesis. Thus, PhoQP induces the expression of two convergent small genes in response to Mg2+ limitation whose products both repress PitA activity and levels to increase intracellular Mg2+ levels. Funded by NIH Intramural Program ZIA HD008855-11.

Project description:The iron-binding glycoprotein lactoferrin exhibits anti-bacterial activity. To investigate the overall response of Bacillus cereus to lactoferrin, total transcriptome analyses were performed. Growth conditions were mMOD minimal medium, minimal medium plus 10 mg/ml lactoferrin, as well as minimal medium without iron source for comparison. Differential regulation of genes involved in iron acquisition as well as genes encoding enterotoxins and further virulence factors was of special interest.

Project description:By chance, we discovered a window of extracellular magnesium (Mg2+) availability that modulates Bacillus subtilis division frequency without affecting growth rate. In this window, cells grown with excess Mg2+ produce shorter cells than those grown in unsupplemented medium. The Mg2+-responsive adjustment in cell length occurs in both rich and minimal media and in domesticated and undomesticated strains. Of other divalent cations tested, manganese (Mn2+) and zinc (Zn2+) also resulted in cell shortening, but only at concentrations that affected growth. Cell length decreased proportionally with increasing Mg2+ from 0.2 mM to 4.0 mM, with little or no detectable change in labile, intracellular Mg2+ based on a riboswitch reporter. Cells grown in excess Mg2+ had fewer nucleoids and possessed more FtsZ-rings per unit cell length, consistent with increased division frequency. Remarkably, when shifting cells from unsupplemented to supplemented medium, more than half of the cell length decrease occurred in the first 10 min, consistent with rapid division onset. Relative to unsupplemented cells, cells growing at steady-state with excess Mg2+ showed enhanced expression of a large number of SigB-regulated genes and activation of the Fur, MntR, and Zur regulons. Thus, by manipulating the availability of one nutrient, we were able to uncouple growth rate from division frequency and identify transcriptional changes suggesting cell division is accompanied by the general stress response and an enhanced demand to sequester and/or increase uptake of iron, Mn2+, and Zn2+.

Project description:Gene regulation is one of the most ubiquitous processes in biology. And yet, while the catalogue of 15 bacterial genomes continues to expand rapidly, we remain ignorant about how almost all of the genes in 16 these genomes are regulated. Characterizing the molecular mechanisms by which regulatory sequences 17 operate still requires focused efforts using low-throughput methods. Here we show how a combination of 18 massively parallel reporter assays, mass spectrometry, and information-theoretic modeling can be used 19 to dissect bacterial promoters in a systematic and scalable way. We demonstrate this method on both 20 well-studied and previously uncharacterized promoters in the enteric bacterium Escherichia coli. In all 21 cases we recover nucleotide-resolution models of promoter mechanism. For some promoters, including 22 previously unannotated ones, we can further extract quantitative biophysical models describing 23 input-output relationships. This method opens up the possibility of exhaustively dissecting the 24 mechanisms of promoter function in E. coli and a wide range of other bacteria.

Project description:Transcriptional profiles of wt and dksA minus Salmonella enterica sv Typhimurium 14028S in E salts minimal medium in response to 5 mM DETANONOate for 30 min