scholarly article | Q13442814 |
P50 | author | Marc Monot | Q43204643 |
Olga Soutourina | Q64945430 | ||
P2093 | author name string | Bruno Dupuy | |
Laurent Bouillaut | |||
Isabelle Martin-Verstraete | |||
Audrey Hamiot | |||
Thomas Dubois | |||
Marie Dancer-Thibonnier | |||
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Regulation of toxin synthesis in Clostridium difficile by an alternative RNA polymerase sigma factor | Q24634418 | ||
S-box and T-box riboswitches and antisense RNA control a sulfur metabolic operon of Clostridium acetobutylicum | Q24653055 | ||
Analysis of Relative Gene Expression Data Using Real-Time Quantitative PCR and the 2−ΔΔCT Method | Q25938999 | ||
Normalization of cDNA microarray data | Q28181692 | ||
The regulation of sulfur metabolism in Mycobacterium tuberculosis | Q28479234 | ||
The changing epidemiology of Clostridium difficile infections | Q28750385 | ||
Conversion of methionine to cysteine in Bacillus subtilis and its regulation | Q28907134 | ||
The CymR regulator in complex with the enzyme CysK controls cysteine metabolism in Bacillus subtilis | Q28907136 | ||
Integration of metabolism and virulence by Clostridium difficile CodY | Q29346637 | ||
Repression of Clostridium difficile toxin gene expression by CodY. | Q29346638 | ||
Global transcriptional control by glucose and carbon regulator CcpA in Clostridium difficile | Q29346640 | ||
Role of the Fur regulon in iron transport in Bacillus subtilis | Q29346707 | ||
Rank products: a simple, yet powerful, new method to detect differentially regulated genes in replicated microarray experiments | Q29616371 | ||
Antibiotic-induced shifts in the mouse gut microbiome and metabolome increase susceptibility to Clostridium difficile infection | Q30066419 | ||
Bordetella pertussis autoregulates pertussis toxin production through the metabolism of cysteine | Q33552725 | ||
Listeria monocytogenes CtaP is a multifunctional cysteine transport-associated protein required for bacterial pathogenesis | Q33575678 | ||
The pleiotropic CymR regulator of Staphylococcus aureus plays an important role in virulence and stress response | Q33582244 | ||
Global regulation of gene expression in response to cysteine availability in Clostridium perfringens | Q33686414 | ||
Staphylococcus aureus fur regulates the expression of virulence factors that contribute to the pathogenesis of pneumonia | Q33769082 | ||
The molecular evolution of pyridoxal-5'-phosphate-dependent enzymes. | Q33912375 | ||
Comparative analyses imply that the enigmatic Sigma factor 54 is a central controller of the bacterial exterior | Q33977581 | ||
The anti-sigma factor TcdC modulates hypervirulence in an epidemic BI/NAP1/027 clinical isolate of Clostridium difficile | Q34055302 | ||
Pleiotropic role of the RNA chaperone protein Hfq in the human pathogen Clostridium difficile | Q34056874 | ||
Deletion of σ(54) (rpoN) alters the rate of autolysis and biofilm formation in Enterococcus faecalis | Q34073838 | ||
Genetics and Regulation of the Major Enzymes of Alanine Synthesis inEscherichia coli | Q34177935 | ||
Secretion of Clostridium difficile toxins A and B requires the holin-like protein TcdE. | Q34299375 | ||
Transcriptional regulation by Ferric Uptake Regulator (Fur) in pathogenic bacteria | Q34376306 | ||
Correlation of disease severity with fecal toxin levels in patients with Clostridium difficile-associated diarrhea and distribution of PCR ribotypes and toxin yields in vitro of corresponding isolates | Q34430629 | ||
Identification of a target gene and activating stimulus for the YpdA/YpdB histidine kinase/response regulator system in Escherichia coli | Q43126144 | ||
Effects of pH and iron concentrations on sulfide precipitation in wastewater collection systems | Q43361383 | ||
A modular system for Clostridium shuttle plasmids | Q44064109 | ||
The metNPQ operon of Bacillus subtilis encodes an ABC permease transporting methionine sulfoxide, D- and L-methionine | Q44780316 | ||
CymR, the master regulator of cysteine metabolism in Staphylococcus aureus, controls host sulphur source utilization and plays a role in biofilm formation. | Q44936731 | ||
Induction of toxins in Clostridium difficile is associated with dramatic changes of its metabolism | Q46288899 | ||
The PatB protein of Bacillus subtilis is a C-S-lyase. | Q46370474 | ||
The rpoN gene of Enterococcus faecalis directs sensitivity to subclass IIa bacteriocins | Q47814219 | ||
Evaluation of a quantitative screening method for hydrogen sulfide production by cheese-ripening microorganisms: the first step towards l-cysteine catabolism. | Q50472426 | ||
The sigma factor RpoN (sigma54) is involved in osmotolerance in Listeria monocytogenes. | Q51135926 | ||
Phenotypic and transcriptomic analyses of Sigma L-dependent characteristics in Listeria monocytogenes EGD-e. | Q52628172 | ||
CcpA-mediated repression of Clostridium difficile toxin gene expression. | Q54614867 | ||
Clostridium difficile toxin expression is inhibited by the novel regulator TcdC | Q80416957 | ||
The ClosTron: a universal gene knock-out system for the genus Clostridium | Q80687956 | ||
Generation of an erythromycin-sensitive derivative of Clostridium difficile strain 630 (630Deltaerm) and demonstration that the conjugative transposon Tn916DeltaE enters the genome of this strain at multiple sites | Q81325152 | ||
Thioredoxins in bacteria: functions in oxidative stress response and regulation of thioredoxin genes | Q82919351 | ||
Effect of iron limitation and fur gene inactivation on the transcriptional profile of the strict anaerobe Clostridium acetobutylicum | Q84068270 | ||
Regulation of CodY Activity through Modulation of Intracellular Branched-Chain Amino Acid Pools | Q34433377 | ||
Regulated transcription of Clostridium difficile toxin genes | Q34456481 | ||
Global control of cysteine metabolism by CymR in Bacillus subtilis | Q34513710 | ||
The multidrug-resistant human pathogen Clostridium difficile has a highly mobile, mosaic genome | Q34542433 | ||
Current therapeutics, their problems, and sulfur-containing-amino-acid metabolism as a novel target against infections by "amitochondriate" protozoan parasites | Q34601985 | ||
Genome-wide identification of regulatory RNAs in the human pathogen Clostridium difficile. | Q34722556 | ||
Expression of Clostridium difficile toxins A and B and their sigma factor TcdD is controlled by temperature | Q34853584 | ||
Dynamics and establishment of Clostridium difficile infection in the murine gastrointestinal tract | Q35098142 | ||
Analysis of proline reduction in the nosocomial pathogen Clostridium difficile. | Q35220646 | ||
High-throughput analysis of gene essentiality and sporulation in Clostridium difficile | Q35567539 | ||
Time-resolved amino acid uptake of Clostridium difficile 630Δerm and concomitant fermentation product and toxin formation | Q35872353 | ||
Three different systems participate in L-cystine uptake in Bacillus subtilis | Q35892807 | ||
Ferric Uptake Regulator Fur Control of Putative Iron Acquisition Systems in Clostridium difficile | Q35972984 | ||
Genome sequence of Bacillus licheniformis WX-02. | Q36211707 | ||
Cysteine and growth inhibition of Escherichia coli: threonine deaminase as the target enzyme | Q36322047 | ||
The many faces of glutathione in bacteria | Q36505576 | ||
Proline-dependent regulation of Clostridium difficile Stickland metabolism | Q36581238 | ||
Functional specialization within the Fur family of metalloregulators | Q36704730 | ||
Formate acts as a diffusible signal to induce Salmonella invasion | Q36747272 | ||
MtaR, a Regulator of Methionine Transport, Is Critical for Survival of Group B Streptococcus In Vivo | Q37051693 | ||
Biochemical features and functional implications of the RNA-based T-box regulatory mechanism | Q37405775 | ||
Enteric pathogen exploitation of the microbiota-generated nutrient environment of the gut. | Q37826861 | ||
Construction and analysis of chromosomal Clostridium difficile mutants | Q38310436 | ||
Butyrate specifically down-regulates salmonella pathogenicity island 1 gene expression. | Q38317128 | ||
Global analysis of gene expression in an rpoN mutant of Listeria monocytogenes. | Q38341458 | ||
Toxins, butyric acid, and other short-chain fatty acids are coordinately expressed and down-regulated by cysteine in Clostridium difficile | Q39536848 | ||
Purification and characterization of L-methionine gamma-lyase from brevibacterium linens BL2 | Q39563372 | ||
Antibiotics involved in Clostridium difficile-associated disease increase colonization factor gene expression | Q39982399 | ||
Burkholderia cenocepacia requires the RpoN sigma factor for biofilm formation and intracellular trafficking within macrophages | Q40025181 | ||
Gene expression profile in Neisseria meningitidis and Neisseria lactamica upon host-cell contact: from basic research to vaccine development. | Q40676078 | ||
Comparative genomics of the methionine metabolism in Gram-positive bacteria: a variety of regulatory systems. | Q41023109 | ||
A novel cdsAB operon is involved in the uptake of L-cysteine and participates in the pathogenesis of Yersinia ruckeri | Q41430940 | ||
The key sigma factor of transition phase, SigH, controls sporulation, metabolism, and virulence factor expression in Clostridium difficile | Q41878757 | ||
Clostridium difficile has two parallel and essential Sec secretion systems | Q41914077 | ||
Serine acetyltransferase of Escherichia coli: substrate specificity and feedback control by cysteine | Q41943528 | ||
Comparative genomic analysis of T-box regulatory systems in bacteria | Q42061697 | ||
Identification and functional analysis of Escherichia coli cysteine desulfhydrases | Q42087065 | ||
Extensive exometabolome analysis reveals extended overflow metabolism in various microorganisms | Q42420527 | ||
A gene encoding L-methionine gamma-lyase is present in Enterobacteriaceae family genomes: identification and characterization of Citrobacter freundii L-methionine gamma-lyase. | Q42657007 | ||
Characterization of the sporulation initiation pathway of Clostridium difficile and its role in toxin production | Q42688761 | ||
P4510 | describes a project that uses | limma | Q112236343 |
P433 | issue | 8 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Clostridium difficile | Q310543 |
P304 | page(s) | 2389-2405 | |
P577 | publication date | 2016-06-13 | |
P1433 | published in | Infection and Immunity | Q6029193 |
P1476 | title | Control of Clostridium difficile Physiopathology in Response to Cysteine Availability | |
P478 | volume | 84 |
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Q47762321 | A timeline of hydrogen sulfide (H2S) research: From environmental toxin to biological mediator |
Q58746416 | Biofilm: Remodeling Metabolism and Cell Surface to Build a Sparse and Heterogeneously Aggregated Architecture |
Q52678336 | Comprehensive Redox Profiling of the Thiol Proteome of Clostridium difficile. |
Q99616277 | Diverse Energy-Conserving Pathways in Clostridium difficile: Growth in the Absence of Amino Acid Stickland Acceptors and the Role of the Wood-Ljungdahl Pathway |
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Q48210884 | Ethanolamine is a Valuable Nutrient Source that Impacts Clostridium difficile Pathogenesis. |
Q99238043 | Genome-Wide Transcription Start Site Mapping and Promoter Assignments to a Sigma Factor in the Human Enteropathogen Clostridioides difficile |
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