| scholarly article | Q13442814 |
| P356 | DOI | 10.1111/J.1365-2958.1994.TB00295.X |
| P698 | PubMed publication ID | 7511772 |
| P50 | author | Virginia L. Miller | Q41465359 |
| P2093 | author name string | Badger JL | |
| Pepe JC | |||
| P2860 | cites work | Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 | Q25938983 |
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| Analysis of the promoters and transcripts involved in IS10 anti-sense RNA control | Q46204083 | ||
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| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Yersinia enterocolitica | Q135177 |
| P304 | page(s) | 123-135 | |
| P577 | publication date | 1994-01-01 | |
| P1433 | published in | Molecular Microbiology | Q6895967 |
| P1476 | title | Growth phase and low pH affect the thermal regulation of the Yersinia enterocolitica inv gene | |
| P478 | volume | 11 |
| Q41480599 | A chromosomally encoded regulator is required for expression of the Yersinia enterocolitica inv gene and for virulence |
| Q37212009 | A new pathway for the secretion of virulence factors by bacteria: the flagellar export apparatus functions as a protein-secretion system. |
| Q35447375 | Ail expression in Yersinia enterocolitica is affected by oxygen tension. |
| Q39515720 | An immunoglobulin superfamily-like domain unique to the Yersinia pseudotuberculosis invasin protein is required for stimulation of bacterial uptake via integrin receptors |
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| Q33440046 | Brucella melitensis global gene expression study provides novel information on growth phase-specific gene regulation with potential insights for understanding Brucella:host initial interactions |
| Q54210820 | CagY-Dependent Regulation of Type IV Secretion in Helicobacter pylori Is Associated with Alterations in Integrin Binding. |
| Q41460730 | Calcium-binding crystallins from Yersinia pestis. Characterization of two single betagamma-crystallin domains of a putative exported protein |
| Q36258255 | Cellular mechanisms of bacterial internalization counteracted by Yersinia |
| Q36314286 | Characterization and biological role of the O-polysaccharide gene cluster of Yersinia enterocolitica serotype O:9 |
| Q35532864 | Cloning and characterization of the gene encoding the OmpU outer membrane protein of Vibrio cholerae. |
| Q35949994 | Comparative analysis of the regulation of rovA from the pathogenic yersiniae |
| Q39719641 | Conserved structure of IS200 elements in Salmonella |
| Q39825108 | Construction and characterization of a Yersinia enterocolitica O:8 high-temperature requirement (htrA) isogenic mutant |
| Q34003379 | Construction of urease-negative mutants of Yersinia enterocolitica serotypes O:3 and o:8: role of urease in virulence and arthritogenicity |
| Q34468935 | Deciphering the acylation pattern of Yersinia enterocolitica lipid A. |
| Q35503473 | Deletion of amino acids 29 to 81 in adhesion protein YadA of Yersinia enterocolitica serotype O:8 results in selective abrogation of adherence to neutrophils |
| Q39824291 | Differential contribution of Yersinia enterocolitica virulence factors to evasion of microbicidal action of neutrophils. |
| Q39830323 | Enteropathogenic Escherichia coli protein secretion is induced in response to conditions similar to those in the gastrointestinal tract. |
| Q40777565 | Environmental control of invasin expression in Yersinia pseudotuberculosis is mediated by regulation of RovA, a transcriptional activator of the SlyA/Hor family |
| Q39573882 | Environmental growth conditions influence the ability of Escherichia coli K1 to invade brain microvascular endothelial cells and confer serum resistance |
| Q40927166 | Environmental modulation of gene expression and pathogenesis in Yersinia |
| Q34033868 | Environmental regulation and virulence attributes of the Ysa type III secretion system of Yersinia enterocolitica biovar 1B. |
| Q33750433 | Environmental regulation of Salmonella typhi invasion-defective mutants |
| Q33598687 | Escherichia coli K1 aslA contributes to invasion of brain microvascular endothelial cells in vitro and in vivo |
| Q34126431 | Essential role for cyclic AMP and its receptor protein in Yersinia enterocolitica virulence |
| Q37643919 | Essential role of invasin for colonization and persistence of Yersinia enterocolitica in its natural reservoir host, the pig. |
| Q37399724 | Evaluation of a Yersinia pestis mutant impaired in a thermoregulated type VI-like secretion system in flea, macrophage and murine models. |
| Q35555222 | Exposure to low oxygen tension and increased osmolarity enhance the ability of Mycobacterium avium to enter intestinal epithelial (HT-29) cells. |
| Q33724267 | Expression of invasin and motility are coordinately regulated in Yersinia enterocolitica |
| Q38287346 | Functional characterization of Gne (UDP-N-acetylglucosamine-4-epimerase), Wzz (chain length determinant), and Wzy (O-antigen polymerase) of Yersinia enterocolitica serotype O:8 |
| Q35547329 | Growth within macrophages increases the efficiency of Mycobacterium avium in invading other macrophages by a complement receptor-independent pathway |
| Q33875927 | Gut proteases target Yersinia invasin in vivo. |
| Q34976494 | H-NS represses inv transcription in Yersinia enterocolitica through competition with RovA and interaction with YmoA. |
| Q37264843 | Human and animal isolates of Yersinia enterocolitica show significant serotype-specific colonization and host-specific immune defense properties |
| Q35885856 | Hypoxia Decreases Invasin-Mediated Yersinia enterocolitica Internalization into Caco-2 Cells |
| Q30964813 | Identification and characterization of Yersinia enterocolitica genes induced during systemic infection |
| Q33217674 | Identification of Mycobacterium avium genes that affect invasion of the intestinal epithelium |
| Q41465297 | Identification of rpoE and nadB as host responsive elements of Yersinia enterocolitica |
| Q35422247 | In vitro and in vivo characterization of an ail mutant of Yersinia enterocolitica |
| Q40409340 | In vitro and in vivo studies of the Yrp1 protease from Yersinia ruckeri and its role in protective immunity against enteric red mouth disease of salmonids. |
| Q47611164 | Inactivated whole-cell bacterial vaccines: current status and novel strategies |
| Q41448131 | Influence of the Cpx extracytoplasmic-stress-responsive pathway on Yersinia sp.-eukaryotic cell contact |
| Q34102811 | Interactions among strategies associated with bacterial infection: pathogenicity, epidemicity, and antibiotic resistance |
| Q39824351 | Invasin of Yersinia pseudotuberculosis activates human peripheral B cells |
| Q36984051 | Invasion and dissemination of Yersinia enterocolitica in the mouse infection model |
| Q41427507 | Modulation of inv gene expression by the OmpR two-component response regulator protein of Yersinia enterocolitica. |
| Q41415945 | Molecular basis of Yersinia enterocolitica temperature-dependent resistance to antimicrobial peptides. |
| Q33599119 | Motility is required to initiate host cell invasion by Yersinia enterocolitica |
| Q35578910 | MyfF, an element of the network regulating the synthesis of fibrillae in Yersinia enterocolitica |
| Q34853267 | Novel virulence-associated type II secretion system unique to high-pathogenicity Yersinia enterocolitica |
| Q36473122 | OmpR, a response regulator of the two-component signal transduction pathway, influences inv gene expression in Yersinia enterocolitica O9. |
| Q39826725 | Outer membrane differences between pathogenic and environmental Yersinia enterocolitica biogroups probed with hydrophobic permeants and polycationic peptides |
| Q35456987 | Pathogenesis of defined invasion mutants of Yersinia enterocolitica in a BALB/c mouse model of infection |
| Q36386026 | Post-transcriptional regulation of gene expression in Yersinia species |
| Q33955457 | Questions about the behaviour of bacterial pathogens in vivo |
| Q36984012 | Regulatory elements implicated in the environmental control of invasin expression in enteropathogenic Yersinia |
| Q26781384 | Regulatory principles governing Salmonella and Yersinia virulence |
| Q35048513 | Regulatory protein OmpR influences the serum resistance of Yersinia enterocolitica O:9 by modifying the structure of the outer membrane |
| Q35594992 | Role of RpoS in survival of Yersinia enterocolitica to a variety of environmental stresses |
| Q40376595 | Role of YadA in arthritogenicity of Yersinia enterocolitica serotype O:8: experimental studies with rats. |
| Q40755880 | Role of lipid A acylation in Yersinia enterocolitica virulence |
| Q36471299 | Role of the Yersinia YopJ protein in suppressing interleukin-8 secretion by human polymorphonuclear leukocytes |
| Q35037334 | RovA, a global regulator of Yersinia pestis, specifically required for bubonic plague |
| Q55263726 | The Most Important Virulence Markers of Yersinia enterocolitica and Their Role during Infection. |
| Q89170428 | The Quorum Sensing System of Yersinia enterocolitica 8081 Regulates Swimming Motility, Host Cell Attachment, and Virulence Plasmid Maintenance |
| Q38298617 | The RovA regulons of Yersinia enterocolitica and Yersinia pestis are distinct: evidence that many RovA-regulated genes were acquired more recently than the core genome |
| Q24549383 | The Yersinia enterocolitica motility master regulatory operon, flhDC, is required for flagellin production, swimming motility, and swarming motility |
| Q33789517 | The Yersinia enterocolitica phospholipase gene yplA is part of the flagellar regulon |
| Q35584003 | The fliA gene encoding sigma 28 in Yersinia enterocolitica |
| Q41465504 | The immunopathology of M cells |
| Q56888116 | The primary transcriptome, small RNAs and regulation of antimicrobial resistance in Acinetobacter baumannii ATCC 17978 |
| Q35011564 | The rovA mutant of Yersinia enterocolitica displays differential degrees of virulence depending on the route of infection |
| Q35410197 | The rpoS gene from Yersinia enterocolitica and its influence on expression of virulence factors |
| Q41454436 | Transcriptional analysis of long-term adaptation of Yersinia enterocolitica to low-temperature growth |
| Q33959193 | Unique cell adhesion and invasion properties of Yersinia enterocolitica O:3, the most frequent cause of human Yersiniosis. |
| Q33787504 | Yersinia enterocolitica ClpB affects levels of invasin and motility |
| Q40422543 | Yersinia enterocolitica adhesin A induces production of interleukin-8 in epithelial cells. |
| Q41378728 | Yersinia enterocolitica exploits different pathways to accomplish adhesion and toxin injection into host cells. |
| Q35949752 | Yersinia enterocolitica infection of mice reveals clonal invasion and abscess formation. |
| Q39570420 | Yersinia enterocolitica-induced interleukin-8 secretion by human intestinal epithelial cells depends on cell differentiation. |
| Q40955980 | Yersinia enterocolitica-mediated degradation of neutrophil extracellular traps (NETs). |
| Q33797319 | Yersinia enterocolitica: overview and epidemiologic correlates |
| Q57803089 | Yersinia pseudotuberculosis Exploits CD209 Receptors for Promoting Host Dissemination and Infection. |
| Q34184639 | Yersinia pseudotuberculosis harbors a type IV pilus gene cluster that contributes to pathogenicity |
| Q26747057 | Yersinia virulence factors - a sophisticated arsenal for combating host defences |
| Q34232467 | YmoA negatively regulates expression of invasin from Yersinia enterocolitica |
| Q39678306 | YplA is exported by the Ysc, Ysa, and flagellar type III secretion systems of Yersinia enterocolitica |
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