Project description:CodY is a conserved regulator in gram-positive organisms described to repress metabolic genes mainly involved in nitrogen metabolism but also to control the expression of virulence genes in pathogens. We constructed codY gene-replacement mutants in three unrelated S. aureus strains (Newman, UAMS-1, RN1HG). codY mutants grew slower in a chemically defined medium compared to the wild type strains. However, only codY mutants were able to grow in medium lacking threonine. Excess of isoleucine resulted in growth inhibition in the wild type but not in the codY mutants indicating a role of isoleucine for CodY dependent repression of metabolic genes. The prototypic CodY-repressed operon ilvDBCleuABCilvA is preceded by a CodY-binding motif and repressed after up-shift with isoleucine and to a lesser extent guanidine. Transcription of the quorum sensing system agr followed a similar expression pattern. The codY dependent repression of agr is in line with the concomitant influence of CodY on typical agr regulated genes such as cap, spa fnbA and coa. However, transcriptional analysis revealed that most of these virulence genes (e.g. cap, fnbA, spa hla) are also regulated by CodY in an agr negative background. Microarray analysis revealed the large majority of codY-repressed genes are involved in amino-acid transport and metabolism, genes showing codY dependent activation were mainly involved in nucleotide transport and metabolism or virulence. In summary, CodY in S. aureus not only acts as repressor for genes involved in nitrogen metabolism but also contributes to virulence gene regulation by supporting as well as substituting agr function.

Project description:Characterization of mycobacterial oligopeptide permease system

Project description:CodY is a conserved regulator in gram-positive organisms described to repress metabolic genes mainly involved in nitrogen metabolism but also to control the expression of virulence genes in pathogens. We constructed codY gene-replacement mutants in three unrelated S. aureus strains (Newman, UAMS-1, RN1HG). codY mutants grew slower in a chemically defined medium compared to the wild type strains. However, only codY mutants were able to grow in medium lacking threonine. Excess of isoleucine resulted in growth inhibition in the wild type but not in the codY mutants indicating a role of isoleucine for CodY dependent repression of metabolic genes. The prototypic CodY-repressed operon ilvDBCleuABCilvA is preceded by a CodY-binding motif and repressed after up-shift with isoleucine and to a lesser extent guanidine. Transcription of the quorum sensing system agr followed a similar expression pattern. The codY dependent repression of agr is in line with the concomitant influence of CodY on typical agr regulated genes such as cap, spa fnbA and coa. However, transcriptional analysis revealed that most of these virulence genes (e.g. cap, fnbA, spa hla) are also regulated by CodY in an agr negative background. Microarray analysis revealed the large majority of codY-repressed genes are involved in amino-acid transport and metabolism, genes showing codY dependent activation were mainly involved in nucleotide transport and metabolism or virulence. In summary, CodY in S. aureus not only acts as repressor for genes involved in nitrogen metabolism but also contributes to virulence gene regulation by supporting as well as substituting agr function. The microarray was manufactured by in situ synthesis of 10'807 long oligonucleotide probes , selected as previously described (Charbonnier, 2005). It covers >98% of all ORFs annotated in strains N315 and Mu50 , MW2, COL , NCTC8325, USA300 , MRSA252 an MSSA476 including their respective plasmids.

Project description:Multiple-condition experiment was desinged to be any number of conditions in an experiment without replicate observations for microarray and used to identify genes differentially expressed between different pairs of conditions (treatments).<br> In this study we used breast cancer stable cell lines for overexpressing and silencing annexin A1 (ANXA1), which belongs to a family of -dependent phospholipid binding proteins and are preferentially located on the cytosolic face of the plasma membrane. Cell lines overexpressing ANXA1 (MDA_MB-453/cDNA) were generated by introducing retroviral vectors containing ANXA1 cDNA (pBabe/ANXA1 cDNA) into breast cancer cell line MDA-MB-453 (a low expressor of ANXA1). Breast cancer cell line BT-474, a high expressor of ANXA1, was infected with ANXA1 siRNA-plasmid viruses to knockdown ANAXAI expressor (BT-474/siRNA) where nucleotides corresponding to siRNA were synthesized and ligated into the pLNCX retroviral vector [35,36]. We also used a pLNCX/U6 empty vector to infect BT-474 and obtained an empty vector expressor. Therefore, 5 breast cancer cell lines (MDA_MB-453, MDA_MB-453/cDNA, BT-474, BT-474/siRNA, and BT-474/U6) are attributed to two genotypes: MDA_MB-453 and BT-474. MCE was performed for microarray analysis with these 5 breast cancer cell lines, that is, only one sample was drawn from each breast cancer cell line.

Project description:To reveal the gene expression profile changes after exposure to BT, one of benzene metabolites, with or without ABAH, a myeloperoxidase (MPO) inhibitor, and to elucidate how MPO is involved in myelotoxicity of BT, we performed microarray analysis. HL-60 cells suspended in RPMI 1640 containing with 10% of heat-inactivated FBS at 4×10^5/ mL were incubated with or without BT (50 μM) at 37℃ for one or 4 hours. For MPO inhibition experiment, HL-60 (4×10^5 cells/ mL) were pretreatment with 100 μM of ABAH in RPMI 1640/10% of heat-inactivated FBS at 37℃ for 24 hours. Media was then replaced with new media containing the regent plus BT (50 μM) and incubate at 37℃ for one or 4 hours. Unexposed HL-60 cells were used as controls. To validate the microarray results, we selected 22 genes and conducted a real-time PCR. Gene expression alteration induced by 50 μM of BT in HL-60 cells, with or without ABAH, was measured at 1 and 4 hours after exposure to it. Three independent experiments were performed at each time (1 or 4 hours).

Project description:We investigate the functional complexity of the Plutella xylostella transcriptome in defending against a Bt toxin using Illumina sequencing technology. Over 2,900 differentially expressed unigenes were obtained in resistant P. xylostella comparison to their susceptible counterpart. All the P. xylostella were maintained on cabbage.The susceptible strain (MM) was cultured without exposure to any Bt toxins.Before the sample collected, Cry1Ac-resistant P. xylostella were treated with 750μg/mL Bt toxin Cry1Ac to eliminate the heterozygous individuals. Then the survivors were collected after 48 hours and designed as the resistant sample (MK and GK). Then fourth-instars larvae midgut tissues of MK,GK and MM were collected, respectively, The RNA was extracted and sequenced using Illunima HiSeq 2000.

Project description:More than 200 direct CodY target genes in Staphylococcus aureus were identified by genome-wide analysis of in vitro DNA binding. This analysis, which was confirmed for some genes by DNase I footprinting assays, revealed that CodY is a direct regulator of numerous transcription units associated with amino acid biosynthesis, transport of macromolecules and virulence. The virulence genes regulated by CodY fell into three groups. One group was dependent on the Agr system for its expression; these genes were indirectly regulated by CodY through its repression of the agr locus. A second group was regulated directly by CodY. The third group, which includes genes for alpha-toxin and capsule synthesis, was regulated by CodY in two ways, i.e., by direct repression and by repression of the agr locus. Since S. aureus CodY was activated in vitro by the branched chain amino acids and GTP, CodY appears to link changes in intracellular metabolite pools with the induction of numerous adaptive responses, including virulence.

Project description:In Firmicutes, the nutrient-sensing regulators (p)ppGpp, the effector molecule of the stringent response, and CodY work in tandem to maintain bacterial fitness during infection. Here, we tested (p)ppGpp and codY mutant strains of Enterococcus faecalis in a catheter-associated urinary tract infections (CAUTI) mouse model and used global transcriptional analysis to investigate the (p)ppGpp and CodY relationship. Absence of (p)ppGpp or single inactivation of codY led to lower bacterial loads in catheterized bladders, and diminished biofilm formation on fibrinogen-coated surfaces under in vitro and in vivo conditions. Single inactivation of the bifunctional (p)ppGpp synthetase/hydrolase rel did not affect virulence supporting previous evidence that association of (p)ppGpp with enterococcal virulence is not dependent on activation of the stringent response. Inactivation of codY in the (p)ppGpp0 strain restored E. faecalis virulence in the CAUTI model as well as the ability to form biofilms in vitro. Transcriptome analysis revealed that inactivation of codY restores, for the most part, the dysregulated metabolism of (p)ppGpp0 cells. While a clear linkage between (p)ppGpp and CodY with expression of virulence factors could not be established, targeted transcriptional analysis indicate that a possible association between (p)ppGpp and c-di-AMP signaling pathways in response to the conditions found in the bladder may plays a role in enterococcal CAUTI. Collectively, this study identifies the (p)ppGpp-CodY network as an important contributor to enterococcal virulence in catheterized mouse bladder and supports that basal (p)ppGpp pools promote virulence through maintenance of a balanced metabolism during adverse conditions.

Project description:This study examines gene expression differences between infected larvae from different maternal infection backgrounds to try to understand the immunological basis of invertebrate immune priming. Female Tribolium castaneum beetles were either jabbed with sterile saline, heat killed Bt, or left naïve. 15 Offspring from the first and second broods were infected with Bt and 24 hours later pooled by treatment and flash frozen Beetles from saline and primed maternal backgrounds are compared to naïve infected Pooled whole larvae, custom array for T. castaneum, 1 replicate per treatment comparison. Same naïve sample used for both arrays

Project description:More than 200 direct CodY target genes in Staphylococcus aureus were identified by genome-wide analysis of in vitro DNA binding. This analysis, which was confirmed for some genes by DNase I footprinting assays, revealed that CodY is a direct regulator of numerous transcription units associated with amino acid biosynthesis, transport of macromolecules and virulence. The virulence genes regulated by CodY fell into three groups. One group was dependent on the Agr system for its expression; these genes were indirectly regulated by CodY through its repression of the agr locus. A second group was regulated directly by CodY. The third group, which includes genes for alpha-toxin and capsule synthesis, was regulated by CodY in two ways, i.e., by direct repression and by repression of the agr locus. Since S. aureus CodY was activated in vitro by the branched chain amino acids and GTP, CodY appears to link changes in intracellular metabolite pools with the induction of numerous adaptive responses, including virulence. Affymetrix GeneChips were used to compare the transcript titers of S. aureus strains UAMS-1 (wild type) and corresponding agr- (strain CM18), codY- (strain MS1), and agr- codY- (strain CM19) isogenic mutant strains during exponential and stationary phase growth. At least two biological replicates were assessed for each strain and each growth phase.