Project description:Bacterial nucleoid-associated proteins play important roles in chromosome organization and global gene regulation. We find that Lsr2 of Mycobacterium tuberculosis is a novel nucleoid-associated protein that specifically binds AT-rich regions of the genome, including regions encoding major virulence factors, such as the ESX secretion systems, the lipid virulence factors PDIM/PGL, and the PE/PPE families of antigenic proteins. Comparison of genome-wide binding data with expression data indicates that Lsr2 binding results in transcriptional repression. Domain swamping experiments demonstrate that Lsr2 has an N-terminal dimerization domain and a C-terminal DNA binding domain. NMR analysis of the DNA binding domain of Lsr2 and its interaction with DNA reveals a novel structure and a unique mechanism that enables Lsr2 to discriminately target AT-rich sequences through interactions with the minor groove of DNA. Taken together, we provide evidence that mycobacteria have employed a structurally distinct molecule with an apparently different DNA recognition mechanism to achieve an equivalent function as the Enterobacteriaceae H-NS, coordinating global gene regulation and virulence in this group of medically important bacteria.

Project description:The principal virulence determinant of Mycobacterium tuberculosis (Mtb), the ESX-1 protein secretion system, is positively controlled at the transcriptional level by EspR. Depletion of EspR reportedly affects a small number of genes, both positively or negatively, including a key ESX-1 component, the espACD operon. EspR is also thought to be an ESX-1 substrate. Using EspR-specific antibodies in ChIP-Seq experiments (chromatin immunoprecipitation followed by ultra-high throughput DNA sequencing) we show that EspR binds to at least 165 loci on the Mtb genome. Included in the EspR regulon are genes encoding not only EspA, but also EspR itself, the ESX-2 and ESX-5 systems, a host of diverse cell wall functions, such as production of the complex lipid PDIM (phenolthiocerol dimycocerosate) and the PE/PPE cell-surface proteins. EspR binding sites are not restricted to promoter regions and can be clustered. This suggests that rather than functioning as a classical regulatory protein EspR acts globally as a nucleoid-associated protein capable of long-range interactions consistent with a recently established structural model. EspR expression was shown to be growth phase-dependent, peaking in the stationary phase. Overexpression in Mtb strain H37Rv revealed that EspR influences target gene expression both positively or negatively leading to growth arrest. At no stage was EspR secreted into the culture filtrate. Thus, rather than serving as a specific activator of a virulence locus, EspR is a novel nucleoid-associated protein, with both architectural and regulatory roles, that impacts cell wall functions and pathogenesis through multiple genes. ChIP-Seq of EspR in Mtb H37Rv at mid-log phase of growth. Two independent experiments were performed. Input DNA (No IP) was used as a control.

Project description:Infection with Mycobacterium tuberculosis (M. tb) is initiated when an aerosol droplet carrying a few bacilli is inhaled into an alveolus. Alveolar epithelial cells (AEC) (type II and type I) are among the first cells encountered by the infecting bacteria and greatly outnumber macrophages in the alveolus. M. tb replicates dramatically (>20,000 fold) in a “non-migrating” compartment in the lung prior to the development of the cell-mediated immune response in aerosol-infected mice (Wolf AJ, 2008). M. tb DNA has been found in type II AEC in autopsied lung tissue of latently infected individuals (Hernandez-Pando R et. al, 2000; Barrios-Payan J et. al 2012), and M. tb-infected AEC in broncho-alveolar lavage (BAL) and in sputum samples from TB patients indicates the infection of these cells in active as well as latent human TB (Eum SY et. al, 2010). M. tb has been shown to infect and replicate in the human type II AEC line, A549, and passaging of M. tb through A549 increases M. tb invasiveness (Bermudez LE et.al, 2002). In this work, we have used DNA microarray analysis to investigate the transcriptome of M. tb replicating in type II AEC (A549) compared to M. tb grown logarithmically in Middlebrook 7H9 broth media in order to identify M. tb adaptations to this intracellular environment as well as M. tb mechanisms/factors contributing to M. tb replication and increased invasiveness in primary infection. The global gene expression of M. tb H37Rv replicating in A549 cells at 72 hr was compared to that of M. tb grown to log phase in Middlebrook 7H9 media.

Project description:Mycobacterium tuberculosis (M. tb), the cause of tuberculosis (TB), utilizes the blood circulation to spread systemically and establish infection, and the risk of developing active TB (pulmonary and extrapulmonary) is significantly increased in individuals infected with human immunodeficiency virus (HIV). In this work, we have used DNA microarray analysis to investigate the transcriptome of M. tb replicating in human whole blood from both HIV-negative and HIV-positive donors compared to M. tb grown in Middlebrook 7H9 broth media in order to identify M. tb adaptations to this host environment as well as M. tb mechanisms/factors contributing to increased active and disseminated TB during M. tb/HIV co-infection. We compared the global gene expression of M. tb H37Rv replicating in whole blood from 6 HIV- and 6 HIV+ individulas at 96 hr to M. tb grown to log phase in Middlebrook 7H9 media.

Project description:CarD is an essential mycobacterial protein that we had previously shown to bind the RNA polymerase (RNAP) and affect the transcriptional profile of M. smegmatis and Mycobacterium tuberculosis. For this reason, we suspected that CarD was directly regulating transcriptional complexes but we did not know at what stage of CarD was functioning and at which genes CarD interacted with the RNAP. To determine in which stage of the transcription cycle (initiation, elongation, or termination) CarD acts, we used Chromatin Immunoprecipitation sequencing (ChIP-seq) to survey the distribution of CarD throughout the M. smegmatis chromosome. Specific antibodies targeting core RNAPb, RNAPσ, or a hemagglutinin (HA) epitope fused to CarD (CarD-HA) were used to co-immunoprecipitate associated DNA. CarD-HA was immunoprecipitated from the M. smegmatis Mc2155 ΔcarD attB::tetcarD-HA strain and unfused HA was immunoprecipitated from the Mc2155 attB::pmsg431 strain with monoclonal antibodies specific for HA (Sigma). RNAP β and σ were immunoprecipitated from M. smegmatis ΔcarD attB::tetcarD-HA with monoclonal antibodies specific for these subunits (Neoclone, Madison, WI; 8RB13 for β, 2G10 for σ). Co-precipitated DNA was sequenced using a SOLiD sequencer (Life Technologies), which provided sufficient reads for 100-fold coverage of the genome. The number of sequence reads per base pair was normalized to the total number of reads and expressed as a log2 value. The reads per base pair from the HA-alone sample served as the background and was subtracted from the other datasets. We found that CarD was never present on the genome in the absence of RNAP. However, whereas RNAP core enzyme was found throughout transcribed regions of the genome, CarD was primarily associated with promoter regions and highly correlated with RNAPσ. The colocalization of σA and CarD led us to propose that in vivo, CarD associates with RNAP initiation complexes at most promoters and is therefore a global regulator of transcription initiation. The genome sequences associated with M. smegmatis CarD, RNAPb, and RNAPs were determined by ChIP-seq analysis. Samples were done in duplicate, except for RNAPs. And sequencing was performed using a SOLiD sequencer (Life Technologies).

Project description:This SuperSeries is composed of the following subset Series: GSE36341: mRNA degradation in Mycobacterium tuberculosis under aerobic conditions GSE36342: mRNA degradation in Mycobacterium smegmatis under aerobic conditions GSE36343: mRNA degradation in Mycobacterium tuberculosis during cold and hypoxic stress GSE36344: mRNA degradation in Mycobacterium tuberculosis with DosR ectopically induced Refer to individual Series

Project description:Illumina TruSeq stranded mRNA RNA-seq including Illumina ribezeo rRNA depletion of Mycobacterium smegmatis wild type and deletion mutant of the redox-sensing MarR-type repressor HypS in three bilogical replicates prior and after 30 min after exposure to 500 µM NaOCl stress revealed that hypS is autoregulated and represses transcription of the co-transcribed hypO gene which encodes a multidrug efflux pump. DNA binding activity of HypS to the 8-5-8 bp inverted repeat sequence upstream of the hypSO operon was inhibited under NaOCl stress. HypS was identified as a novel redox-sensitive repressor that contributes to mycobacterial resistance towards HOCl stress and antibiotics.

Project description:To better understand the virulence difference among different MTB strains and identify new targets for therapeutic intervention under hypoxia condition, we compared the global protein expression at the protein level by quantitative proteomics among H37Rv, H37Ra and BCG.

Project description:To better understand the virulence difference among different MTB strains and identify new targets for therapeutic intervention under hypoxia condition, we compared the global protein expression at the protein level by quantitative proteomics among H37Rv, H37Ra and BCG.

Project description:The gene expression profiles of Mtb after treatment at the minimal inhibitory concentration (MIC) or 4 X MIC at an early stage (up to 6 hours) was compared to untreated Mtb. Our experiment is designed to in order to ensure that the primary effects (0-6h) of the drugs and any dose (1X MIC and 4X MIC) responses would be captured.