Project description:To understand molecular pathways responding to loss of essential proteins in the inner- or outer-membrane, we knocked down essential genes in the inner- and outer membrane using a CRISPRi approach in Pseudomonas aeruginosa. CRISPRi is an inducible system with which even essential genes can be targeted by a specifig sg-RNA. In this study, we investigated the transcriptomic changes upon loss of BamA, LptD and FtsH. Loss of BamA and LptD, both outer membrane proteins, resulted in strong upregulation of genes involved in LipidA modification and upregulation of several two component systems. Depletion of FtsH resulted in strong upregulation in genes responsible for amino acid biosynthesis and regulatory genes. Surprisngly, knockdown of bamA and lptD resulted in (mild) upregulation of H1-T6SS genes.

Project description:The Mobile CRISPRi system with and without mRFP-targeting sgRNA was engineered into Pseudomonas aeruginosa PA14 strain with chromosomally encoded mRFP. RNA was isolated from these strains, and the corresponding cDNA library was synthesized and sequenced in 150 bp paired-end reads. Approximately 1,000,000 reads were collected for each of the two samples, with ~94% alignment to PA14 WT by Bowtie254, and transcripts were counted with HTSeq55. Only genes with a non-normalized read count greater than 1 in both samples were included in analysis, with a coverage of 1286 genes (~20% genome). This data shows that the Mobile CRISPRi system is selective for sgRNA-guided knockdown of mRFP.

Project description:CRISPR interference (CRISPRi) is a powerful new tool used in different organisms that provides a fast, specific, and reliable way to knockdown gene expression. Caulobacter crescentus is a well-studied model bacterium, and although a variety of genetic tools have been developed, it currently takes several weeks to delete or deplete individual genes, which significantly limits genetic studies. Here, we optimized a CRISPRi approach to specifically downregulate the expression of genes in C. crescentus. Although the Streptococcus pyogenes CRISPRi system commonly used in other organisms does not work efficiently in Caulobacter, we demonstrate that a catalytically-dead version of Cas9 (dCas9) derived from the type II CRISPR3 module of Streptococcus thermophilus or from Streptococcus pasteurianus can each be effectively used in Caulobacter. We show that these CRISPRi systems can be used to rapidly and inducibly deplete ctrA or gcrA, two essential well-studied genes in Caulobacter, in either asynchronous or synchronized populations of cells. Additionally, we demonstrate the ability to multiplex CRISPRi-based gene knockdowns, opening new possibilities for systematic genetic interaction studies in Caulobacter.

Project description:Pseudomonas aeruginosa PAO1 contacted with and without poplar roots gene expression Poplar contacted with and without PAO1 gene expression. All samples cultured in 1 x hrp + 0.25 % sucrose Keywords: Contact with different species

Project description:Knockdown specificity of Mobile-CRISPRi system targeting chromosomal mRFP

Project description:Analysis of Pseudomonas aeruginosa PAO1 treated with 200 µM sphingomyelin. Results provide insight into the response to sphingomyelin in P. aeruginosa.

Project description:In the present study, we employed Affymetrix Pseudomonas aeruginosa GeneChip arrays to investigate global gene expression profiles during the cellular response of Pseudomonas aeruginosa to sodium hypochlorite Keywords: Antimicrobial response

Project description:Genome-wide screens have discovered a large set of essential genes in the human pathogen Streptococcus pneumoniae. However, the function of many essential genes is still unknown, hampering vaccine and drug development programs. Based on results from transposon-sequencing (Tn-Seq), we refined the list of essential genes in S. pneumoniae serotype 2 strain D39. Next, we created a knockdown library targeting all 391 potentially essential genes using CRISPR interference (CRISPRi). Using high-content microscopy screening, we searched for essential genes of unknown function with clear phenotypes in cell morphology upon CRISPRi-based depletion. We identified SPD1416 and SPD1417 (named to MurT and GatD, respectively) as essential peptidoglycan synthesis proteins and we show that SPD1198 and SPD1197 (named to TarP and TarQ, respectively) are responsible for the polymerization of teichoic acid (TA) precursors. This knowledge enabled us to reconstruct the unique pneumococcal TA biosynthetic pathway. Our CRISPRi library provides a valuable tool for characterization of pneumococcal genes and pathways and revealed several promising antibiotic targets. This RNA-Seq dataset is aimed to show that induction of the CRISPRi system very selectively represses its target gene, firefly luciferase, without other observable transcriptional effects.

Project description:Transcriptional profile of Pseudomonas aeruginosa infected cells

Project description:To further determine the origin of the increased virulence of Pseudomonas aeruginosa PA14 compared to Pseudomonas aeruginosa PAO1, we report a transcriptomic approach through RNA sequencing. Next-generation sequencing (NGS) has revolutioned sistems-based analsis of transcriptomic pathways. The goals of this study are to compare the transcriptomic profile of all 5263 orthologous genes of these nearly two strains of Pseudomonas aeruginosa.