Project description:To study the regulatory outcome of Hfq-mediated sRNA-target interactions, we measured the change in gene expression following overexpression of each of five well-established sRNAs: GcvB, MicA, ArcZ, RyhB and CyaR. For each of the studied sRNAs we applied RNA-seq to two E. coli K-12 MG1655 strains: (1) a WT strain or a strain deleted of the sRNA gene; (2) a strain overexpressing the sRNA, either artificially from a plasmid or from the endogenous sRNA gene by changing the growth condition. For GcvB induction, the E. coli K-12 MG1655 Z1 gcvB::Cm, pZA12-gcvB and the E. coli K-12 MG1655 Z1 gcvB::Cm, pTP-011 strains were used. For MicA overexpression the E. coli K-12 MG1655lacIq pBRplac, pEF21-Hfq and the E. coli K-12 MG1655lacIq pMicA, pEF21-Hfq strains were used. For ArcZ induction the E. coli K-12 MG1655 Z1 arcZ::Cm, pZE12-ArcZ and the E. coli K-12 MG1655 Z1 arcZ::Cm, pJV300 strains were used. For RyhB overexpression the E. coli K-12 MG1655 ryhB::Cm and the E. coli K-12 MG1655 were used. For CyaR induction the E. coli K-12 MG1655 Z1 cyaR::Cm, pZE12-CyaR and the E. coli K-12 MG1655 Z1 cyaR::Cm, pJV300 strains were used. All E. coli strains used in this study were grown overnight in Luria Bertani (LB) medium at 37 °C with shaking (200 r.p.m.), diluted 100-fold in fresh LB medium, and re-grown with shaking at 37 °C to exponential phase, for GcvB (OD600 = 0.3) and for RyhB (OD600 = 0.5), or to stationary phase, for ArcZ WT, ArcZ M1, ArcZ M2 and CyaR (OD600 = 1.0) and for MicA (grown for 6 hr). For induction of ArcZ and GcvB, IPTG was added (1mM, 20 min). MicA was constitutively expressed and further induced at the end of growth with IPTG (1mM, 20 min). For induction of RyhB, the iron chelator 2,2'-Dipyridyl was added (200 μM, 30 min).

Project description:A long-term-survival (LTS) phase in Listeria monocytogenes was recently discovered. Cells in this phase are coccoid in shape, survive for at least 30 d without any decrease in viable cell numbers, and are very resistant to heat and high pressure. However, how cells of L. monocytogenes transition to this long-term-survival phase is little understood. Therefore, a whole-genome expression analysis was conducted to study the transcription profile of L. monocytogenes as it enters the LTS phase. Transcription profiles at log, stationary and death phases were analyzed since differential gene expressions at these phases may contribute to the eventual transition to the LTS phase. Specifically, cells of L. monocytogenes F2365 at log, stationary, death and LTS phases were obtained by incubating cultures in TSBYE at 35°C for 13 h, 17 h, 24 h and 168-336 h, respectively. Also, to study cells transitioning from the LTS phase back to the log phase, 1 ml of the LTS-phase culture at 336 h was reinoculated into 100 ml of fresh TSBYE with incubation at 35°C for 8 h. Total RNAs of all samples were extracted, reverse transcribed into cDNAs and then hybridized to the L. monocytogenes expression microarray (Roche NimbleGen). During the transition from log phase to stationary phase, differential changes in gene expression involved genes associated with cell envelope, cell division, stress response, energy metabolism, protein synthesis and material transport. During the transition from stationary to death phase, differential changes were observed in genes related to cell envelope, detoxification, pathogenesis, energy metabolism, protein synthesis and material transport. When cultures transitioned from death phase to 168-h LTS phase, significant downregulation of genes associated with amino acid and protein biosynthesis, as well as stress responses, were observed (P < 0.05), while multiple genes related to cell envelope, energy production and material transportation were significantly upregulated (P < 0.05). High similarity of transcription profiles (r = 0.93) within LTS phase was observed when comparing transcriptomes at 168 h and 336 h. RNA quality measurement revealed a high level of degradation of ribosomal RNA during the LTS phase. The transcription profile at 8-h (log-phase) after re-inoculation of LTS cells also resembled that at 13 h (r = 0.94). We hypothesize that the upregulation of some compatible solute transporters during the LTS phase may result in accumulation of these solutes, which may lower intracellular water activity and thus enhance resistance of L. monocytogenes to heat and high pressure. Dormancy may be induced at the LTS phase which is suggested by the downregulation of genes associated with transcription and translation. Once fresh nutrients are provided, LTS cells may quickly exit dormancy and become metabolically active as they transition to the log phase. Based on the annotated genome of L. monocytogenes F2365 (GenBank accession# NC_002973) (Donaldson et al., 2009), a gene expression microarray was designed to target 2821 protein-coding genes (including putative protein-coding genes). Each of the 2821 genes was targeted by 12 unique 60-mer oligonucleotide probes. Each unique probe was printed in duplicates on the microarray. The microarrays were in a format of 4 × 72 k (4 microarrays per slide, with each microarray containing 72,000 probes) and provided by Roche NimbleGen (Roche NimbleGen, WI).

Project description:Salmonella Typhimurium was exposed to NaCl, KCl and glycerol (equilibrated to the same water activity) for 1, 6 and 24 h after which the expression profiles were examined using microarray. An non-exposed early stationary phase culture grown in LB medium was used as the control. Carried out using 3 biological replicates for each sample; each sample hybridised in a two-channel hybridization against Salmonella genomic DNA as the comparator/reference

Project description:Mutant GATA6 hPSCs were obtained by TALEN genome editing or re-programmed from patient fibroblasts. Along with wild-type H9 cells, these GATA6 mutant cell lines were differentiated into SOX17+/CXCR4+ endodermal cells (day 3). The purpose of this work was to study the role of GATA6 in the development of the human pancreas at a molecular level.

Project description:Oxidative Stress Protection and the Repair Response To Hydrogen Peroxide in the Hyperthermophilic Archaeon Pyrococcus furiosus Pyrococcus furiosus is a shallow marine, anaerobic archaeon that grows optimally at 100°C. Addition of H2O2 (0.5 mM) to a growing culture resulted in cessation of growth with a 2 hour lag before normal growth resumed. Whole genome transcriptional profiling revealed that the main response occurs within 30 min of peroxide addition, with the up-regulation of 62 open reading frames (ORFs), 36 of which are part of 10 potential operons. More than half of the up-regulated ORFs are of unknown function while some others encode proteins that are involved potentially in sequestering iron and sulfide, in DNA repair and in generating NADPH. This response is thought to involve primarily damage repair rather than protection, since cultures exposed to sub-toxic levels of H2O2 were not more resistant to the subsequent addition of H2O2 (0.5 – 5.0 mM). Consequently, there is little if any induced protective response to peroxide, rather, the organism maintains a constitutive protective mechanism involving high levels of oxidoreductase-type enzymes such as superoxide reductase, rubrerythrin and alkyl hydroperoxide reductase I. The related hyperthermophiles P. woesei and Thermococcus kodakaraensis were more sensitive to peroxide than P. furiosus, apparently due to the lack of several of its peroxide-responsive ORFs. Pyrococcus furiosus (DSM 3638) was grown at 95°C in a 20-liter fermentor using maltose as the carbon and energy source. An exponential-phase culture of P. furiosus that had undergone three successive transfers in the experimental medium was used to inoculate the 20-liter fermentor. The culture was shocked with 0.5 mM of hydrogen peroxide (H2O2) when cell density was in mid-exponential phase (~ 5.0 ´ 107 cells/ml, as determined by direct microscopic cell count). To obtain RNA for microarray and for quantitative PCR (QPCR) analyses, samples (2 liter) were rapidly removed from the fermentor and cooled to 4°C. Total RNA was extracted using acid-phenol and stored at -80°C until needed. A total of 3 biological replicates in triplicate (3 copies on the same slide) was used in the data set.

Project description:This experiment consists of two studies. The first where two independent biological replicates of MG1655, MG1655 thyA suhB::thyA and MG1655 thyA nusB::thyA were each grown in LB to mid-exponential phase. RNA-seq and associated data analysis were performed as described previously (Stringer et al., 2014. PMID 24272778). The second where five cultures of MG1655 thyA suhB::thyA were grown overnight from single colonies at 37 C in LB. 5 L of each overnight culture was spread on LB agar and incubated at 30 C, the non-permissive temperature for suhB mutants. One suppressor mutant colony was selected from each plate. rnc was PCR amplified from colonies using oligonucleotides JW836-JW837, and the PCR products were sequenced to identify the presence, if any, of suppressor mutations. Genomic DNA from a strain with wild-type rnc was prepared using a DNeasy Blood and Tissue Kit (Qiagen). A DNA library was prepared using a Nextera kit (Illumina). The library was sequenced (paired-end reads) using an Illumina MiSeq instrument.

Project description:HupB is a 28 kDa in Mycobacterium tuberculosis that is co-expressed with the siderophores mycobactin and carboxymycobactin upon iron limitation. High levels of all the three components are seen in low iron (LI; 0.02 M-BM-5g Fe / mL) organisms, with negligible expression in high iron organisms (HI; 8 M-BM-5g Fe / mL). We generated a hupB knock out mutant of M. tuberculosis (H37Rv M-bM-^HM-^F hupB) and studied the differential expression of genes upon iron limitation in the WT H37Rv and the mutant. The RNA transcripts of the WT H37Rv, grown under high and low iron conditions of growth were isolated and subjected to microarray analysis to identify the iron-regulated genes and second, the differential expression of genes in iron-limited H37Rv M-bM-^HM-^F hupB vs iron-limited WT H37Rv was analysed. Microarray analysis was done commercially by Genotypic Technology (Bangalore, India), an authorised service provider for Agilent Technologies. The study revealed the up-regulation of all the mbt genes of the mycobactin biosynthetic machinery in LI - H37Rv and several other reported iron-regulated genes. The salient feature of this study is the failure of LI - H37Rv M-bM-^HM-^F hupB to show any up-regulation of the mbt genes as compared to LI - H37Rv. Among several other genes influenced by HupB, the mutant strain showed low levels of mmpL5 and mmpS5 transcripts, whose expressed products are reported to be associated with siderophore transport and biosynthesis. One-color experiment,Organism: Mycobacterium tuberculosis ,Custom Mycobacterium tuberculosis 8x15k Array designed byGenotypic Technology Private Limited (AMADID: 20181), Labeling kit: Agilent Quick-Amp labeling Kit (p/n5190-0442)

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:B. cenocepacia J2315 was grown on LB medium to mid-stationary phase at O.D. 0.5 at 150 rpm in a shaking incubator at two different temperatures: 37 degrees and 20 degrees centigrade.

Project description:Methyloversatilis universalis FAM5 utilizes single carbon compounds such as methanol or methylated amines as a sole source of carbon and energy. Expression profiling reveals distinct sets of genes altered during growth on methanol vs methylamine. Growth on methanol results in activation of mdh2 and a number of known accessory proteins. As expected, all genes for N-methylglutamate pathway were induced during growth on methylated amine. Among other functions, responding to a switch from methanol to methylated amines, are a heme-containing amine dehydrogenase (QHNDH), a PQQ-dependent methanol dehydrogenase homologue, a distant homologue of formaldehyde activating enzyme (fae3), molybdenum containing formate dehydrogenase, a set of transporters homologues to urea/ammonium transporters and amino-acid permeases. Genes encoding the PQQ-dependent methanol dehydrogenase and associated cytochrome, the enzymes from the assimilatory H4F-dependent pathway, and the tungsten-containing aldehyde oxidoreductase were down-regulated during growth on methylamine. Genes essential for carbon assimilation (serine cycle) and H4MTP-pathway for formaldehyde oxidation show similar level of expression on both C1-carbon sources. Phenotypic analysis of mutants lacking functional QHNDH had no growth defect on C1-compounds. M. universalis FAM5 strain with the methylene-tetrahydrofolate dehydrogenase lesion, a key enzyme of the H4-folate pathway, were not able to use any C1-compound, methanol or methylated amines. Methyloversatilis universalis FAM5 possesses three homologs of the formaldehyde activating enzymes. The relative expression of two of the formaldehyde activating enzyme (fae1) and fae2 did not change after the shift from methanol to methylamine growth. The relative expression of the third homologs, fae3, was significantly upregulated by methylamine. Single and double fae 2 and fae 3 mutants display similar to wild type growth M-BM- on methanol or methylamine. Strains lacking fae1 lost the ability to grow on both C1-compounds. However upon incubation on methylated amines the fae1-mutant produce revertants (fae1R ). The revertant strains displayed an impaired growth on methylamine but were not able to use methanol. Double mutations in fae1RM-BM- / fae3 or fae1R/fae2 and triple mutant fae1R/fae2/fae3 showed similar to fae1R phenotype. The metabolic pathways for utilization methanol and methylamine in Methyloversatilis universalis FAM5 are reconstructed. Methyloversatilis universalis FAM5 grown on methanol and methylamine with two biologial replicates for each condition. RNA-Seq was used for transcriptomics.