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      High‐throughput CRISPRi phenotyping identifies new essential genes in Streptococcus pneumoniae

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          Abstract

          Genome‐wide screens have discovered a large set of essential genes in the opportunistic human pathogen Streptococcus pneumoniae. However, the functions of many essential genes are still unknown, hampering vaccine development and drug discovery. 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 348 potentially essential genes by CRISPR interference (CRISPRi) and show a growth phenotype for 254 of them (73%). Using high‐content microscopy screening, we searched for essential genes of unknown function with clear phenotypes in cell morphology upon CRISPRi‐based depletion. We show that SPD_1416 and SPD_1417 (renamed to MurT and GatD, respectively) are essential for peptidoglycan synthesis, and that SPD_1198 and SPD_1197 (renamed 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. CRISPRi was also employed to unravel the role of the essential Clp‐proteolytic system in regulation of competence development, and we show that ClpX is the essential ATPase responsible for ClpP‐dependent repression of competence. The CRISPRi library provides a valuable tool for characterization of pneumococcal genes and pathways and revealed several promising antibiotic targets.

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          CRISPR interference (CRISPRi) for sequence-specific control of gene expression.

          Matthew Larson, Luke A Gilbert, Xiaowo Wang (2013)
          Sequence-specific control of gene expression on a genome-wide scale is an important approach for understanding gene functions and for engineering genetic regulatory systems. We have recently described an RNA-based method, CRISPR interference (CRISPRi), for targeted silencing of transcription in bacteria and human cells. The CRISPRi system is derived from the Streptococcus pyogenes CRISPR (clustered regularly interspaced palindromic repeats) pathway, requiring only the coexpression of a catalytically inactive Cas9 protein and a customizable single guide RNA (sgRNA). The Cas9-sgRNA complex binds to DNA elements complementary to the sgRNA and causes a steric block that halts transcript elongation by RNA polymerase, resulting in the repression of the target gene. Here we provide a protocol for the design, construction and expression of customized sgRNAs for transcriptional repression of any gene of interest. We also provide details for testing the repression activity of CRISPRi using quantitative fluorescence assays and native elongating transcript sequencing. CRISPRi provides a simplified approach for rapid gene repression within 1-2 weeks. The method can also be adapted for high-throughput interrogation of genome-wide gene functions and genetic interactions, thus providing a complementary approach to RNA interference, which can be used in a wider variety of organisms.
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            Tn-seq; high-throughput parallel sequencing for fitness and genetic interaction studies in microorganisms

            Tim van Opijnen, Kip Bodi, Andrew Camilli (2009)
            Biological pathways are structured in complex networks of interacting genes. Solving the architecture of such networks may provide valuable information, such as how microorganisms cause disease. Here we present a method (Tn-seq) for accurately determining quantitative genetic interactions on a genome-wide scale in microorganisms. Tn-seq is based on the assembly of a saturated Mariner transposon insertion library. After library selection, changes in frequency of each insertion mutant are determined by sequencing of the flanking regions en masse. These changes are used to calculate each mutant’s fitness. Fitness was determined for each gene of the gram-positive bacterium Streptococcus pneumoniae, a causative agent of pneumonia and meningitis. A genome-wide screen for genetic interactions identified both alleviating and aggravating interactions that could be further divided into seven distinct categories. Due to the wide activity of the Mariner transposon, Tn-seq has the potential to contribute to the exploration of complex pathways across many different species.
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              STUDIES ON THE CHEMICAL NATURE OF THE SUBSTANCE INDUCING TRANSFORMATION OF PNEUMOCOCCAL TYPES

              Oswald Avery, Colin Macleod, Maclyn McCarty (1944)
              1. From Type III pneumococci a biologically active fraction has been isolated in highly purified form which in exceedingly minute amounts is capable under appropriate cultural conditions of inducing the transformation of unencapsulated R variants of Pneumococcus Type II into fully encapsulated cells of the same specific type as that of the heat-killed microorganisms from which the inducing material was recovered. 2. Methods for the isolation and purification of the active transforming material are described. 3. The data obtained by chemical, enzymatic, and serological analyses together with the results of preliminary studies by electrophoresis, ultracentrifugation, and ultraviolet spectroscopy indicate that, within the limits of the methods, the active fraction contains no demonstrable protein, unbound lipid, or serologically reactive polysaccharide and consists principally, if not solely, of a highly polymerized, viscous form of desoxyribonucleic acid. 4. Evidence is presented that the chemically induced alterations in cellular structure and function are predictable, type-specific, and transmissible in series. The various hypotheses that have been advanced concerning the nature of these changes are reviewed.
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                Author and article information

                Contributors
                Jan‐Willem Veening:
                ORCID: http://orcid.org/0000-0002-3162-6634
                Jan-Willem.Veening@unil.ch
                Journal
                Journal ID (nlm-ta): Mol Syst Biol
                Journal ID (iso-abbrev): Mol. Syst. Biol
                Journal ID (doi): 10.1002/(ISSN)1744-4292
                Journal ID (publisher-id): MSB
                Journal ID (hwp): msb
                Title: Molecular Systems Biology
                Publisher: John Wiley and Sons Inc. (Hoboken )
                ISSN (Electronic): 1744-4292
                Publication date (Electronic): 10 May 2017
                Publication date Collection: May 2017
                Volume: 13
                Issue: 5 ( doiID: 10.1002/msb.v13.5 )
                Electronic Location Identifier: 931
                Affiliations
                [ 1 ] Molecular Genetics Group Groningen Biomolecular Sciences and Biotechnology Institute Centre for Synthetic BiologyUniversity of Groningen GroningenThe Netherlands
                [ 2 ] Center for Infectious Disease Research School of MedicineTsinghua University BeijingChina
                [ 3 ] Department of Chemistry, Biotechnology and Food ScienceNorwegian University of Life Sciences ÅsNorway
                [ 4 ] Molecular Cell Biology, Groningen Biomolecular Sciences and Biotechnology InstituteUniversity of Groningen GroningenThe Netherlands
                [ 5 ] Department of Fundamental Microbiology Faculty of Biology and MedicineUniversity of Lausanne LausanneSwitzerland
                Author notes
                [*] [* ]Corresponding author. Tel: +41 21 6925625; E‐mail: Jan-Willem.Veening@ 123456unil.ch
                Author information
                http://orcid.org/0000-0001-6485-1865
                http://orcid.org/0000-0002-6296-8928
                http://orcid.org/0000-0003-4448-9082
                http://orcid.org/0000-0002-0829-511X
                http://orcid.org/0000-0002-8226-4303
                http://orcid.org/0000-0003-4973-4243
                http://orcid.org/0000-0002-3162-6634
                Article
                Publisher ID: MSB167449
                DOI: 10.15252/msb.20167449
                PMC ID: 5448163
                PubMed ID: 28490437
                SO-VID: 9d691588-8581-4976-a1e3-c5d2aeb45129
                Copyright © © 2017 The Authors. Published under the terms of the CC BY 4.0 license
                License:

                This is an open access article under the terms of the Creative Commons Attribution 4.0 License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                Date received : 17 November 2016
                Date revision received : 12 April 2017
                Date accepted : 13 April 2017
                Page count
                Figures: 11, Tables: 1, Pages: 18, Words: 14797
                Funding
                Funded by: European Commission (EC)
                Award ID: 337399‐PneumoCell
                Funded by: Nederlandse Organisatie voor Wetenschappelijk Onderzoek (NWO)
                Award ID: VIDI fellowship 864.12.001
                Award ID: VENI fellowship 563.14.003
                Funded by: European Molecular Biology Organization (EMBO)
                Award ID: YIP
                Funded by: China Scholarship Council (CSC)
                Award ID: 201506210151
                Funded by: Research Council of Norway
                Award ID: 250976/F20
                Categories
                Subject: Article
                Subject: Articles
                Custom metadata
                source-schema-version-number 2.0
                component-id msb167449
                cover-date May 2017
                details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:5.0.9 mode:remove_FC converted:30.05.2017

                ScienceOpen disciplines: Quantitative & Systems biology
                Keywords: bacterial cell wall,competence,dna replication,gene essentiality,teichoic acid biosynthesis,chromatin, epigenetics, genomics & functional genomics,genome-scale & integrative biology,microbiology, virology & host pathogen interaction
                Data availability:
                ScienceOpen disciplines: Quantitative & Systems biology
                Keywords: bacterial cell wall, competence, dna replication, gene essentiality, teichoic acid biosynthesis, chromatin, epigenetics, genomics & functional genomics, genome-scale & integrative biology, microbiology, virology & host pathogen interaction

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