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Adaptation mechanisms of Clostridioides difficile to auranofin and its impact on human gut microbiota.
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- NPJ Biofilms & Microbiomes, 2024, v. 10, n. 1, p. 1, doi. 10.1038/s41522-024-00551-3
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Clostridium difficile: New Insights into the Evolution of the Pathogenicity Locus.
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- Scientific Reports, 2015, p. 1, doi. 10.1038/srep15023
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Pleiotropic roles of Clostridium difficile sin locus.
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- PLoS Pathogens, 2018, v. 14, n. 3, p. 1, doi. 10.1371/journal.ppat.1006940
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Spores of Clostridioides difficile are toxin delivery vehicles.
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- Communications Biology, 2024, v. 7, n. 1, p. 1, doi. 10.1038/s42003-024-06521-x
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A microbiota-generated bile salt induces biofilm formation in Clostridium difficile.
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- NPJ Biofilms & Microbiomes, 2019, v. 5, n. 1, p. N.PAG, doi. 10.1038/s41522-019-0087-4
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c-di-AMP signaling is required for bile salt resistance, osmotolerance, and long-term host colonization by Clostridioides difficile.
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- Science Signaling, 2022, v. 15, n. 750, p. 1, doi. 10.1126/scisignal.abn8171
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Secretion of Clostridium difficile Toxins A and B Requires the Holin-like Protein TcdE.
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- PLoS Pathogens, 2012, v. 8, n. 6, p. 1, doi. 10.1371/journal.ppat.1002727
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The Anti-Sigma Factor TcdC Modulates Hypervirulence in an Epidemic BI/NAP1/027 Clinical Isolate of Clostridium difficile.
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- PLoS Pathogens, 2011, v. 7, n. 10, p. 1, doi. 10.1371/journal.ppat.1002317
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CcpA-mediated repression of Clostridium difficile toxin gene expression.
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- Molecular Microbiology, 2011, v. 79, n. 4, p. 882, doi. 10.1111/j.1365-2958.2010.07495.x
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Clostridium difficile toxin expression is inhibited by the novel regulator TcdC.
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- Molecular Microbiology, 2007, v. 64, n. 5, p. 1274, doi. 10.1111/j.1365-2958.2007.05739.x
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Regulation of toxin and bacteriocin gene expression in Clostridium by interchangeable RNA polymerase sigma factors.
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- Molecular Microbiology, 2006, v. 60, n. 4, p. 1044, doi. 10.1111/j.1365-2958.2006.05159.x
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The LexA regulated genes of the Clostridium difficile.
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- BMC Microbiology, 2014, v. 14, n. 1, p. 1, doi. 10.1186/1471-2180-14-88
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Global regulation of gene expression in response to cysteine availability in Clostridium perfringens.
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- BMC Microbiology, 2010, v. 10, p. 234, doi. 10.1186/1471-2180-10-234
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The Spore Differentiation Pathway in the Enteric Pathogen <i>Clostridium difficile</i>.
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- PLoS Genetics, 2013, v. 9, n. 10, p. 1, doi. 10.1371/journal.pgen.1003782
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Genome-Wide Analysis of Cell Type-Specific Gene Transcription during Spore Formation in <i>Clostridium difficile</i>.
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- PLoS Genetics, 2013, v. 9, n. 10, p. 1, doi. 10.1371/journal.pgen.1003756
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Genome-Wide Identification of Regulatory RNAs in the Human Pathogen <i>Clostridium difficile</i>
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- PLoS Genetics, 2013, v. 9, n. 5, p. 1, doi. 10.1371/journal.pgen.1003493
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Phylogenomic analysis supports the ancestral presence of LPS-outer membranes in the Firmicutes.
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- eLife, 2016, p. 1, doi. 10.7554/eLife.14589
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Genome-Wide Transcription Start Site Mapping and Promoter Assignments to a Sigma Factor in the Human Enteropathogen Clostridioides difficile.
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- Frontiers in Microbiology, 2020, p. N.PAG, doi. 10.3389/fmicb.2020.01939
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The σ<sup>B</sup> signalling activation pathway in the enteropathogen Clostridioides difficile.
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- Environmental Microbiology, 2019, v. 21, n. 8, p. 2852, doi. 10.1111/1462-2920.14642
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CotL, a new morphogenetic spore coat protein of Clostridium difficile.
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- Environmental Microbiology, 2019, v. 21, n. 3, p. 984, doi. 10.1111/1462-2920.14505
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The alternative sigma factor σ<sup>B</sup> plays a crucial role in adaptive strategies of Clostridium difficile during gut infection.
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- Environmental Microbiology, 2017, v. 19, n. 5, p. 1933, doi. 10.1111/1462-2920.13696
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Expanding the RpoS/σ<sup>S</sup>-Network by RNA Sequencing and Identification of σ<sup>S</sup>-Controlled Small RNAs in <i>Salmonella</i>.
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- PLoS ONE, 2014, v. 9, n. 5, p. 1, doi. 10.1371/journal.pone.0096918
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The Flagellin FliC of <i>Clostridium difficile</i> Is Responsible for Pleiotropic Gene Regulation during <i>In Vivo</i> Infection.
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- PLoS ONE, 2014, v. 9, n. 5, p. 1, doi. 10.1371/journal.pone.0096876
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Sequence Similarity of <i>Clostridium difficile</i> Strains by Analysis of Conserved Genes and Genome Content Is Reflected by Their Ribotype Affiliation.
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- PLoS ONE, 2014, v. 9, n. 1, p. 1, doi. 10.1371/journal.pone.0086535
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Characterization of the SigD Regulon of <i>C. difficile</i> and Its Positive Control of Toxin Production through the Regulation of <i>tcdR</i>.
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- PLoS ONE, 2013, v. 8, n. 12, p. 1, doi. 10.1371/journal.pone.0083748
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Advanced immunocapture of milk‐borne <italic>Salmonella</italic> by microfluidic magnetically stabilized fluidized bed.
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- Electrophoresis, 2018, v. 39, n. 3, p. 526, doi. 10.1002/elps.201700257
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The cell wall lipoprotein CD1687 acts as a DNA binding protein during deoxycholate-induced biofilm formation in Clostridioides difficile.
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- NPJ Biofilms & Microbiomes, 2023, v. 9, n. 1, p. 1, doi. 10.1038/s41522-023-00393-5
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Wolf in Sheep's Clothing: Clostridioides difficile Biofilm as a Reservoir for Recurrent Infections.
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- Microorganisms, 2021, v. 9, n. 9, p. 1922, doi. 10.3390/microorganisms9091922
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Clostridium difficile Biofilm: Remodeling Metabolism and Cell Surface to Build a Sparse and Heterogeneously Aggregated Architecture.
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- Frontiers in Microbiology, 2018, p. 1, doi. 10.3389/fmicb.2018.02084
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Role of the global regulator Rex in control of NAD<sup>+</sup>‐regeneration in Clostridioides (Clostridium) difficile.
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- Molecular Microbiology, 2019, v. 111, n. 6, p. 1671, doi. 10.1111/mmi.14245
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Discovery of new type I toxin-antitoxin systems adjacent to CRISPR arrays in Clostridium difficile.
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- Nucleic Acids Research, 2018, v. 46, n. 9, p. 4733, doi. 10.1093/nar/gky124
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Repressor activity of the RpoS/σS-dependent RNA polymerase requires DNA binding.
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- Nucleic Acids Research, 2015, v. 43, n. 3, p. 1456, doi. 10.1093/nar/gku1379
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Global transcriptional control by glucose and carbon regulator CcpA in Clostridium difficile.
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- Nucleic Acids Research, 2012, v. 40, n. 21, p. 10701, doi. 10.1093/nar/gks864
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Type I toxin-antitoxin systems contribute to the maintenance of mobile genetic elements in Clostridioides difficile.
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- Communications Biology, 2020, v. 3, n. 1, p. N.PAG, doi. 10.1038/s42003-020-01448-5
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PulO, a component of the pullulanase secretion pathway of Klebsiella oxytoca, correctly and efficiently processes gonococcal type IV prepilin in Escherichia coli.
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- Molecular Microbiology, 1992, v. 6, n. 14, p. 1887, doi. 10.1111/j.1365-2958.1992.tb01361.x
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An enzyme with type IV prepilin peptidase activity is required to process components of the general extracellular protein secretion pathway of Klebsiella oxytoca.
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- Molecular Microbiology, 1992, v. 6, n. 6, p. 751, doi. 10.1111/j.1365-2958.1992.tb01525.x
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SpoIVA is an essential morphogenetic protein for the formation of heat- and lysozyme-resistant spores in Clostridium sporogenes NBRC 14293.
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- Frontiers in Microbiology, 2024, p. 1
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Regulation of Clostridial Toxin Gene Expression: A Pasteurian Tradition.
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- Toxins, 2023, v. 15, n. 7, p. 413, doi. 10.3390/toxins15070413
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A Highly Specific Holin-Mediated Mechanism Facilitates the Secretion of Lethal Toxin TcsL in Paeniclostridium sordellii.
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- Toxins, 2022, v. 14, n. 2, p. N.PAG, doi. 10.3390/toxins14020124
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The Regulatory Networks That Control Clostridium difficile Toxin Synthesis.
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- Toxins, 2016, v. 8, n. 5, p. 153, doi. 10.3390/toxins8050153
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A monoclonal antibody collection for C. difficile typing ?
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- Gut Pathogens, 2024, v. 16, n. 1, p. 1, doi. 10.1186/s13099-023-00592-7
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A Recombination Directionality Factor Controls the Cell Type-Specific Activation of σ<sup>K</sup> and the Fidelity of Spore Development in Clostridium difficile.
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- PLoS Genetics, 2016, v. 12, n. 9, p. 1, doi. 10.1371/journal.pgen.1006312
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Transcription activation of a UV-inducibleClostridium perfringensbacteriocin gene by a novelσ factor.
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- Molecular Microbiology, 2005, v. 55, n. 4, p. 1196, doi. 10.1111/j.1365-2958.2004.04456.x
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BotR/A and TetR are alternative RNA polymerase sigma factors controlling the expression of the neurotoxin and associated protein genes inClostridium botulinumtype A andClostridium tetani.
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- Molecular Microbiology, 2005, v. 55, n. 1, p. 235, doi. 10.1111/j.1365-2958.2004.04377.x
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Regulated transcription of Clostridium difficile toxin genes.
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- Molecular Microbiology, 1998, v. 27, n. 1, p. 107, doi. 10.1046/j.1365-2958.1998.00663.x
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Deciphering Adaptation Strategies of the Epidemic Clostridium difficile 027 Strain during Infection through In Vivo Transcriptional Analysis.
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- PLoS ONE, 2016, v. 11, n. 6, p. 1, doi. 10.1371/journal.pone.0158204
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