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      Repression of YdaS Toxin Is Mediated by Transcriptional Repressor RacR in the Cryptic rac Prophage of Escherichia coli K-12

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          Abstract

          Transcription factors in the bacterium E. coli are rarely essential, and when they are essential, they are largely toxin-antitoxin systems. While studying transcription factors encoded in horizontally acquired regions in E. coli, we realized that the protein RacR, a putative transcription factor encoded by a gene on the rac prophage, is an essential protein. Here, using genetics, biochemistry, and bioinformatics, we show that its essentiality derives from its role as a transcriptional repressor of the ydaS and ydaT genes, whose products are toxic to the cell. Unlike type II toxin-antitoxin systems in which transcriptional regulation involves complexes of the toxin and antitoxin, repression by RacR is sufficient to keep ydaS transcriptionally silent.

          ABSTRACT

          Horizontal gene transfer is a major driving force behind the genomic diversity seen in prokaryotes. The cryptic rac prophage in Escherichia coli K-12 carries the gene for a putative transcription factor RacR, whose deletion is lethal. We have shown that the essentiality of racR in E. coli K-12 is attributed to its role in transcriptionally repressing toxin gene(s) called ydaS and ydaT, which are adjacent to and coded divergently to racR.

          IMPORTANCE Transcription factors in the bacterium E. coli are rarely essential, and when they are essential, they are largely toxin-antitoxin systems. While studying transcription factors encoded in horizontally acquired regions in E. coli, we realized that the protein RacR, a putative transcription factor encoded by a gene on the rac prophage, is an essential protein. Here, using genetics, biochemistry, and bioinformatics, we show that its essentiality derives from its role as a transcriptional repressor of the ydaS and ydaT genes, whose products are toxic to the cell. Unlike type II toxin-antitoxin systems in which transcriptional regulation involves complexes of the toxin and antitoxin, repression by RacR is sufficient to keep ydaS transcriptionally silent.

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          Comparison of 61 Sequenced Escherichia coli Genomes

          Oksana Lukjancenko, Trudy Wassenaar, David Ussery (2010)
          Escherichia coli is an important component of the biosphere and is an ideal model for studies of processes involved in bacterial genome evolution. Sixty-one publically available E. coli and Shigella spp. sequenced genomes are compared, using basic methods to produce phylogenetic and proteomics trees, and to identify the pan- and core genomes of this set of sequenced strains. A hierarchical clustering of variable genes allowed clear separation of the strains into clusters, including known pathotypes; clinically relevant serotypes can also be resolved in this way. In contrast, when in silico MLST was performed, many of the various strains appear jumbled and less well resolved. The predicted pan-genome comprises 15,741 gene families, and only 993 (6%) of the families are represented in every genome, comprising the core genome. The variable or ‘accessory’ genes thus make up more than 90% of the pan-genome and about 80% of a typical genome; some of these variable genes tend to be co-localized on genomic islands. The diversity within the species E. coli, and the overlap in gene content between this and related species, suggests a continuum rather than sharp species borders in this group of Enterobacteriaceae.
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            Epitope tagging of chromosomal genes in Salmonella.

            S. Uzzau, N. Figueroa-Bossi, S Rubino (2001)
            We have developed a simple and efficient procedure for adding an epitope-encoding tail to one or more genes of interest in the bacterial chromosome. The procedure is a modification of the gene replacement method of Datsenko and Wanner [Datsenko, K. A. & Wanner, B. L. (2000) Proc. Natl. Acad. Sci. USA 97, 6640-6645]. A DNA module that begins with the epitope-encoding sequence and includes a selectable marker is amplified by PCR with primers that carry extensions (as short as 36 nt) homologous to the last portion of the targeted gene and to a region downstream from it. Transformation of a strain expressing bacteriophage lambda red functions yields recombinants carrying the targeted gene fused to the epitope-encoding sequence. The resulting C-terminal-tagged protein can be identified by standard immuno-detection techniques. In an initial application of the method, we have added the sequences encoding the FLAG and 3xFLAG and influenza virus hemagglutinin epitopes to various genes of Salmonella enterica serovar Typhimurium, including putative and established pathogenic determinants present in prophage genomes. Epitope fusion proteins were detected in bacteria growing in vitro, tissue culture cells, and infected mouse tissues. This work identified a prophage locus specifically expressed in bacteria growing intracellularly. The procedure described here should be applicable to a wide variety of Gram-negative bacteria and is particularly suited for the study of intracellular pathogens.
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              Quinolone antibiotics induce Shiga toxin-encoding bacteriophages, toxin production, and death in mice.

              X. Zhang, A McDaniel, L E Wolf (2000)
              Shiga toxin-producing Escherichia coli (STEC) cause significant disease; treatment is supportive and antibiotic use is controversial. Ciprofloxacin but not fosfomycin causes Shiga toxin-encoding bacteriophage induction and enhanced Shiga toxin (Stx) production from E. coli O157:H7 in vitro. The potential clinical relevance of this was examined in mice colonized with E. coli O157:H7 and given either ciprofloxacin or fosfomycin. Both antibiotics caused a reduction in fecal STEC. However, animals treated with ciprofloxacin had a marked increase in free fecal Stx, associated with death in two-thirds of the mice, whereas fosfomycin did not. Experiments that used a kanamycin-marked Stx2 prophage demonstrated that ciprofloxacin, but not fosfomycin, caused enhanced intraintestinal transfer of Stx2 prophage from one E. coli to another. These observations suggest that treatment of human STEC infection with bacteriophage-inducing antibiotics, such as fluoroquinolones, may have significant adverse clinical consequences and that fluoroquinolone antibiotics may enhance the movement of virulence factors in vivo.
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                Author and article information

                Contributors
                Craig D. Ellermeier: Role: Editor
                Journal
                Journal ID (nlm-ta): mSphere
                Journal ID (iso-abbrev): mSphere
                Journal ID (hwp): msph
                Journal ID (pmc): msph
                Journal ID (publisher-id): mSphere
                Title: mSphere
                Publisher: American Society for Microbiology (1752 N St., N.W., Washington, DC )
                ISSN (Electronic): 2379-5042
                Publication date (Electronic): 22 November 2017
                Publication date Collection: Nov-Dec 2017
                Volume: 2
                Issue: 6
                Electronic Location Identifier: e00392-17
                Affiliations
                [a ]Shanmuga Arts, Science, Technology & Research Academy, Thanjavur, Tamil Nadu, India
                [b ]National Centre for Biological Sciences, Tata Institute of Fundamental Research, Bangalore, India
                University of Iowa
                Author notes
                Address correspondence to Aswin Sai Narain Seshasayee, aswin@ 123456ncbs.res.in .

                Citation Krishnamurthi R, Ghosh S, Khedkar S, Seshasayee ASN. 2017. Repression of YdaS toxin is mediated by transcriptional repressor RacR in the cryptic rac prophage of Escherichia coli K-12. mSphere 2:e00392-17. https://doi.org/10.1128/mSphere.00392-17.

                Article
                Publisher ID: mSphere00392-17
                DOI: 10.1128/mSphere.00392-17
                PMC ID: 5700373
                PubMed ID: 28289727
                SO-VID: a89aa8af-114b-49ad-8dc6-e06e8fc55939
                Copyright © Copyright © 2017 Krishnamurthi et al.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license.

                History
                Date received : 5 September 2017
                Date accepted : 15 September 2017
                Page count
                supplementary-material: 8, Figures: 4, Tables: 0, Equations: 0, References: 23, Pages: 10, Words: 6671
                Funding
                Funded by: Council of Scientific and Industrial Research (CSIR)
                Award ID: 09/860(0122)/2011-EMR-I
                Award Recipient : Supriya Khedkar
                Funded by: Department of Biotechnology, Ministry of Science and Technology (DBT)
                Award ID: BT/PR5801/INF/22/156/2012
                Award Recipient : Swagatha Ghosh
                Funded by: Department of Science and Technology, Ministry of Science and Technology (DST)
                Award ID: DST/lNSPIRE Fellowship/2010
                Award Recipient : Revathy Krishnamurthi
                Funded by: Department of Science and Technology, Ministry of Science and Technology (DST)
                Award ID: DST:SR/S2/RJN-49/2010
                Award Recipient : Aswin Sai Narain Seshasayee
                Funded by: Wellcome Trust-DBT India Alliance
                Award ID: Intermediate Fellowship IA/I/16/2/502711
                Award Recipient : Aswin Sai Narain Seshasayee
                Categories
                Subject: Research Article
                Subject: Molecular Biology and Physiology
                Custom metadata
                cover-date November/December 2017

                Keywords: prophages,toxin-antitoxin,transcriptional repressor
                Data availability:
                Keywords: prophages, toxin-antitoxin, transcriptional repressor

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