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  1. Gut metabolite L-lactate supports Campylobacter jejuni population expansion during acute infection
  2. Vibrio cholerae requires oxidative respiration through the bd-I and cbb3 oxidases for intestinal proliferation
  3. ASM Vibrio2017 Conference Special Issue
  4. Midwest Microbial Pathogenesis Conference Special Sections
  5. Classic Spotlight: Persistence Persists
  6. Complete Annotated Genome Sequences of Three Campylobacter jejuni Strains Isolated from Naturally Colonized Farm-Raised Chickens
  7. Classic Spotlight: Phage Bring Punch to the Party
  8. Regulated intramembrane proteolysis of the virulence activator TcpP inVibrio choleraeis initiated by the tail-specific protease (Tsp)
  9. Microbe Mentor
  10. Narrow-Spectrum Inhibitors of Campylobacter jejuni Flagellar Expression and Growth
  11. Characterization and Localization of the Campylobacter jejuni Transformation System Proteins CtsE, CtsP, and CtsX
  12. Chemical Biology Applied to the Study of Bacterial Pathogens
  13. Single-molecule tracking in liveVibrio choleraereveals that ToxR recruits the membrane-bound virulence regulator TcpP to thetoxTpromoter
  14. Complete Genome Sequence and Annotation of a Campylobacter jejuni Strain, MTVDSCj20, Isolated from a Naturally Colonized Farm-Raised Chicken
  15. Imaging Live Cells at the Nanometer-Scale with Single-Molecule Microscopy: Obstacles and Achievements in Experiment Optimization for Microbiology
  16. Natural Competence and Transformation in Campylobacter
  17. Three-Component Regulatory System Controlling Virulence in Vibrio cholerae
  18. High-Throughput Sequencing of Campylobacter jejuni Insertion Mutant Libraries Reveals mapA as a Fitness Factor for Chicken Colonization
  19. Genome Sequences of Campylobacter jejuni 81-176 Variants with Enhanced Fitness Relative to the Parental Strain in the Chicken Gastrointestinal Tract
  20. Peptidoglycan LD-Carboxypeptidase Pgp2 Influences Campylobacter jejuni Helical Cell Shape and Pathogenic Properties and Provides the Substrate for the DL-Carboxypeptidase Pgp1
  21. ToxR Recruits TcpP to the toxT Promoter in the Vibrio Cholerae Virulence Pathway
  22. Understanding the Pathogenicity of Vibrio Cholerae via Two-Color Live-Cell Super-Resolution Microscopy
  23. Single-Molecule Super-Resolution Imaging of TcpP Dynamics in Vibrio Cholerae in Response to Virulence Pathway Deactivation by Increased Cell Density
  24. The Complete Campylobacter jejuni Transcriptome during Colonization of a Natural Host Determined by RNAseq
  25. Small-Molecule Inhibitors of toxT Expression in Vibrio cholerae
  26. Cholera
  27. Microbiology Is an Integrative Field, So Why Are We a Divided Society?
  28. Correction: Peptidoglycan-Modifying Enzyme Pgp1 Is Required for Helical Cell Shape and Pathogenicity Traits in Campylobacter jejuni
  29. Zinc Competition among the Intestinal Microbiota
  30. Peptidoglycan-Modifying Enzyme Pgp1 Is Required for Helical Cell Shape and Pathogenicity Traits in Campylobacter jejuni
  31. Characterization of Campylobacter jejuni RacRS Reveals Roles in the Heat Shock Response, Motility, and Maintenance of Cell Length Homogeneity
  32. A model for Vibrio cholerae colonization of the human intestine
  33. The Vibrio cholerae virulence regulatory cascade controls glucose uptake through activation of TarA, a small regulatory RNA
  34. Polymyxin B Resistance in El Tor Vibrio cholerae Requires Lipid Acylation Catalyzed by MsbB
  35. A Campylobacter jejuni znuA Orthologue Is Essential for Growth in Low-Zinc Environments and Chick Colonization
  36. Experimental Chick Colonization by Campylobacter jejuni
  37. Conserved Residues in the HAMP Domain Define a New Family of Proposed Bipartite Energy Taxis Receptors
  38. Characterization of CetA and CetB, a bipartite energy taxis system inCampylobacter jejuni
  39. Genetic Manipulation ofCampylobacter jejuni
  40. Growth and Laboratory Maintenance of Campylobacter jejuni
  41. Regulatory Networks Controlling Vibrio cholerae Virulence Gene Expression
  42. Campylobacter jejuni: molecular biology and pathogenesis
  43. A proteome-wide protein interaction map for Campylobacter jejuni
  44. Antibodies Enhance Interaction of Vibrio cholerae with Intestinal M-Like Cells
  45. Cj1496c Encodes a Campylobacter jejuni Glycoprotein That Influences Invasion of Human Epithelial Cells and Colonization of the Chick Gastrointestinal Tract
  46. Bacterial-associated cholera toxin and GM1 binding are required for transcytosis of classical biotype Vibrio cholerae through an in vitro M cell model system
  47. Evolution of Microbial Pathogens
  48. The toxbox: specific DNA sequence requirements for activation of Vibrio cholerae virulence genes by ToxT
  49. Vibrio cholerae ToxT Independently Activates the Divergently Transcribed aldA and tagA Genes
  50. Degradation of the membrane-localized virulence activator TcpP by the YaeL protease in Vibrio cholerae
  51. Activation of both acfA and acfD transcription by Vibrio cholerae ToxT requires binding to two centrally located DNA sites in an inverted repeat conformation
  52. TcpH Influences Virulence Gene Expression in Vibrio cholerae by Inhibiting Degradation of the Transcription Activator TcpP
  53. Identification of Campylobacter jejuni genes involved in commensal colonization of the chick gastrointestinal tract
  54. Contribution of CsrR-Regulated Virulence Factors to the Progress and Outcome of Murine Skin Infections by Streptococcus pyogenes
  55. Natural Transformation of Campylobacter jejuni Requires Components of a Type II Secretion System
  56. Transcription of σ54-dependent but not σ28-dependent flagellar genes in Campylobacter jejuni is associated with formation of the flagellar secretory apparatus
  57. Natural Transformation of Campylobacter jejuni Requires Components of a Type II Secretion System
  58. DNA Binding and ToxR Responsiveness by the Wing Domain of TcpP, an Activator of Virulence Gene Expression in Vibrio cholerae
  59. Membrane localization of the ToxR winged-helix domain is required for TcpP-mediated virulence gene activation in Vibrio cholerae
  60. Challenges and excitement at all levels
  61. Regulation of gene expression in Vibrio cholerae by ToxT involves both antirepression and RNA polymerase stimulation
  62. Transposon mutagenesis of Campylobacter jejuni identifies a bipartite energy taxis system required for motility
  63. VIRULENCE GENE REGULATION INSIDE AND OUTSIDE
  64. Identification of a major, CsrRS-regulated secreted protein of Group A streptococcus
  65. Repression of virulence genes by phosphorylation-dependent oligomerization ofCsrR at target promoters in S. pyogenes
  66. Spontaneous Mutations in the CsrRS Two‐Component Regulatory System of Streptococcus pyogenes Result in Enhanced Virulence in a Murine Model of Skin and Soft Tissue Infection
  67. Molecular Basis of Vibrio cholerae Pathogenesis
  68. Bacterial Virulence Gene Regulation: An Evolutionary Perspective
  69. The Vibrio cholerae ToxR/TcpP/ToxT virulence cascade: distinct roles for two membrane-localized transcriptional activators on a single promoter
  70. GENOMICS: Genomics Happens
  71. Virulence gene regulation inside and outside
  72. Identification and Genetic Characterization ofHaemophilus influenzae Genetic Island 1
  73. Cytotoxic Cell Vacuolating Activity from Vibrio cholerae Hemolysin
  74. Molecular cloning and transcriptional regulation of ompT, a ToxR-repressed gene in Vibrio cholerae
  75. Evolutionary Control of Infectious Disease: Prospects for Vectorborne and Waterborne Pathogens
  76. Phase variation in tcpH modulates expression of the ToxR regulon in Vibrio cholerae
  77. A branch in the ToxR regulatory cascade of Vibrio cholerae revealed by characterization of toxT mutant strains
  78. Differential expression of the ToxR regulon in classical and E1 Tor biotypes of Vibrio cholerae is due to biotype-specific control over toxT expression.
  79. Vibrio cholerae and cholera: molecular to global perspectives
  80. Regulation of Virulence in Vibrio Cholerae by the ToxR System
  81. Transcriptional control of toxT, a regulatory gene in the ToxR regulon of Vibrio cholerae
  82. Multiple regulatory systems in Vibrio cholerae pathogenesis
  83. Pharmaceutical applications of biotechnology: Promise and reality. Editorial overview
  84. Co-ordinate expression of virulence genes by ToxR in Vibrio cholerae
  85. A Regulatory Cascade Controls Virulence in Vibrio cholerae
  86. Regulatory cascade controls virulence in Vibrio cholerae.
  87. New attenuated derivatives of Vibrio cholerae
  88. Regulation of Cholera Toxin Synthesis
  89. Regulation of Cholera Toxin Synthesis
  90. Genetic Regulation of Bacterial Virulence
  91. Genetic Regulation Of Bacterial Virulence
  92. Deletion analysis of the mannopine synthase gene promoter in sunflower crown gall tumors and Agrobacterium tumefaciens
  93. Site-specific mutagenesis in the TR-DNA region of octopine-type Ti plasmids
  94. Transcript analysis of TR DNA in octopine-type crown gall tumors
  95. Methylation of the T-DNA in Agrobacterium tumefaciens and In several crown gall tumors