| scholarly article | Q13442814 |
| P50 | author | Renée M Tsolis | Q38330647 |
| P2093 | author name string | A J Bäumler | |
| T A Ficht | |||
| L G Adams | |||
| P2860 | cites work | S. typhimurium encodes an activator of Rho GTPases that induces membrane ruffling and nuclear responses in host cells. | Q32060838 |
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| Immunizing efficacy of aromatic-dependent Salmonella dublin in mice and calves | Q50191015 | ||
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| The in vivo division and death rates of Salmonella typhimurium in the spleens of naturally resistant and susceptible mice measured by the superinfecting phage technique of Meynell | Q50218117 | ||
| The estimation of doses of Salmonella typhimurium suitable for the experimental production of disease in calves | Q50253763 | ||
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| Salmonellosis in calves | Q79396184 | ||
| Identification of a novel Salmonella invasion locus homologous to Shigella ipgDE | Q33727694 | ||
| Influence of the Salmonella typhimurium pathogenicity island 2 type III secretion system on bacterial growth in the mouse. | Q33999966 | ||
| Pathogenicity island 2 mutants of Salmonella typhimurium are efficient carriers for heterologous antigens and enable modulation of immune responses | Q34000533 | ||
| Identification of a putative Salmonella enterica serotype typhimurium host range factor with homology to IpaH and YopM by signature-tagged mutagenesis | Q34002724 | ||
| Cloning and molecular characterization of genes whose products allow Salmonella typhimurium to penetrate tissue culture cells | Q34298444 | ||
| Ethanolamine utilization in Salmonella typhimurium: nucleotide sequence, protein expression, and mutational analysis of the cchA cchB eutE eutJ eutG eutH gene cluster | Q34319376 | ||
| Characterization of the virulence and antigenic structure of Salmonella typhimurium strains with lipopolysaccharide core defects. | Q34396657 | ||
| The Salmonella typhimurium virulence plasmid increases the growth rate of salmonellae in mice | Q34523492 | ||
| Supramolecular structure of the Salmonella typhimurium type III protein secretion system | Q34746894 | ||
| The spv genes on the Salmonella dublin virulence plasmid are required for severe enteritis and systemic infection in the natural host. | Q35546681 | ||
| Fur regulon of Salmonella typhimurium: identification of new iron-regulated genes. | Q35592292 | ||
| A PhoP-repressed gene promotes Salmonella typhimurium invasion of epithelial cells | Q36103190 | ||
| Incidence of salmonella infection in animals in England and Wales, 1968–1974 | Q36250651 | ||
| Salmonella typhimurium initiates murine infection by penetrating and destroying the specialized epithelial M cells of the Peyer's patches. | Q36363455 | ||
| Colonization of the mouse intestine by an avirulent Salmonella typhimurium strain and its lipopolysaccharide-defective mutants. | Q37052995 | ||
| Identification of a pathogenicity island required for Salmonella survival in host cells | Q37441337 | ||
| Identification of a virulence locus encoding a second type III secretion system in Salmonella typhimurium | Q37698755 | ||
| Mutation of invH, but not stn, reduces Salmonella-induced enteritis in cattle. | Q39570610 | ||
| Secreted effector proteins of Salmonella dublin act in concert to induce enteritis | Q39573966 | ||
| The Salmonella dublin virulence plasmid mediates systemic but not enteric phases of salmonellosis in cattle | Q39822509 | ||
| The Salmonella typhimurium virulence plasmid encodes a positive regulator of a plasmid-encoded virulence gene | Q39946360 | ||
| Nucleotide sequence of rfaI and rfaJ genes encoding lipopolysaccharide glycosyl transferases from Salmonella typhimurium | Q40525064 | ||
| Galactose epimeraseless mutants of Salmonella typhimurium as live vaccines for calves | Q40809350 | ||
| Experimental Salmonella typhimurium infection in calves | Q40971986 | ||
| How Salmonella became a pathogen | Q41592946 | ||
| Vaccination of calves with a diaminopimelic acid mutant of Salmonella typhimurium | Q41870569 | ||
| The true division and death rates of Salmonella typhimurium in the mouse spleen determined with superinfecting phage P22 | Q41917562 | ||
| hilA is a novel ompR/toxR family member that activates the expression of Salmonella typhimurium invasion genes | Q42638991 | ||
| Oral vaccination of calves against experimental salmonellosis using a double aro mutant of Salmonella typhimurium | Q43655117 | ||
| The incidence of salmonella infection in sheep in England and Wales, 1975 to 1981. | Q43707896 | ||
| Observations on experimental oral infection withSalmonella dublin in calves andSalmonella choleraesuis in pigs | Q44588416 | ||
| Aromatic-dependent "Salmonella sp." as live vaccine in mice and calves | Q45979424 | ||
| Prevalence of salmonellae in cattle and in the environment on California dairies. | Q46045073 | ||
| A secreted effector protein of Salmonella dublin is translocated into eukaryotic cells and mediates inflammation and fluid secretion in infected ileal mucosa | Q48042710 | ||
| Transcriptional activation of Salmonella typhimurium invasion genes by a member of the phosphorylated response-regulator superfamily. | Q48058213 | ||
| Role of the S. typhimurium actin-binding protein SipA in bacterial internalization | Q50127062 | ||
| Salmonella SirA is a global regulator of genes mediating enteropathogenesis | Q50127381 | ||
| Identification of a pathogenicity island required for Salmonella enteropathogenicity | Q50129531 | ||
| A lethal role for lipid A in Salmonella infections | Q50129583 | ||
| The early dynamic response of the calf ileal epithelium to Salmonella typhimurium | Q50133092 | ||
| Epidemiology and virulence assessment of Salmonella dublin | Q50134455 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Salmonella Typhimurium | Q166491 |
| P304 | page(s) | 4879-4885 | |
| P577 | publication date | 1999-09-01 | |
| P1433 | published in | Infection and Immunity | Q6029193 |
| P1476 | title | Contribution of Salmonella typhimurium virulence factors to diarrheal disease in calves | |
| P478 | volume | 67 |
| Q37701371 | A Salmonella Regulator Modulates Intestinal Colonization and Use of Phosphonoacetic Acid |
| Q35614774 | A Salmonella virulence factor activates the NOD1/NOD2 signaling pathway. |
| Q35162771 | A conserved amino acid sequence directing intracellular type III secretion by Salmonella typhimurium |
| Q49036194 | A limited role for SsrA/B in persistent Salmonella Typhimurium infections in pigs |
| Q33319574 | A model of Salmonella colitis with features of diarrhea in SLC11A1 wild-type mice |
| Q36163160 | A novel phage element of Salmonella enterica serovar Enteritidis P125109 contributes to accelerated type III secretion system 2-dependent early inflammation kinetics in a mouse colitis model |
| Q35421297 | A secreted Salmonella protein induces a proinflammatory response in epithelial cells, which promotes neutrophil migration |
| Q42267950 | Accelerated type III secretion system 2-dependent enteropathogenesis by a Salmonella enterica serovar enteritidis PT4/6 strain |
| Q27323989 | Age-dependent enterocyte invasion and microcolony formation by Salmonella |
| Q26738421 | An Overview of the Control of Bacterial Pathogens in Cattle Manure |
| Q26860902 | An overview of calf diarrhea - infectious etiology, diagnosis, and intervention |
| Q39654360 | Analyses of the evolutionary distribution of Salmonella translocated effectors |
| Q39391975 | Analysis of the contribution of Salmonella pathogenicity islands 1 and 2 to enteric disease progression using a novel bovine ileal loop model and a murine model of infectious enterocolitis |
| Q38896014 | Animal Models for Salmonellosis: Applications in Vaccine Research |
| Q34469859 | Animal models of Salmonella infections: enteritis versus typhoid fever. |
| Q39761480 | Bile Acids Function Synergistically To Repress Invasion Gene Expression in Salmonella by Destabilizing the Invasion Regulator HilD. |
| Q36348390 | Capsule-mediated immune evasion: a new hypothesis explaining aspects of typhoid fever pathogenesis |
| Q34125990 | Characterization of Salmonella enterica derivatives harboring defined aroC and Salmonella pathogenicity island 2 type III secretion system (ssaV) mutations by immunization of healthy volunteers. |
| Q37667983 | Comparative analysis of Salmonella genomes identifies a metabolic network for escalating growth in the inflamed gut. |
| Q36952414 | Comparison of Microbial Communities Isolated from Feces of Asymptomatic Salmonella-Shedding and Non-Salmonella Shedding Dairy Cows |
| Q22122046 | Comparison of genome degradation in Paratyphi A and Typhi, human-restricted serovars of Salmonella enterica that cause typhoid |
| Q22122370 | Complete genome sequence of a multiple drug resistant Salmonella enterica serovar Typhi CT18 |
| Q34008614 | Construction and characterization of genetically defined aro omp mutants of enterotoxigenic Escherichia coli and preliminary studies of safety and immunogenicity in humans |
| Q37191428 | Contribution of flagellin pattern recognition to intestinal inflammation during Salmonella enterica serotype typhimurium infection |
| Q60046103 | Contribution of the Twin-Arginine Translocation System to the Intracellular Survival of Salmonella Typhimurium in Dictyostelium discoideum |
| Q36483666 | Coordinate regulation of Salmonella pathogenicity island 1 (SPI1) and SPI4 in Salmonella enterica serovar Typhimurium |
| Q99628555 | Cryptosporidium parvum and other enteric pathogens in scouring neonatal dairy calves from the Al Ain region, United Arab Emirates |
| Q38302051 | Delineation of the Salmonella enterica serovar Typhimurium HilA regulon through genome-wide location and transcript analysis |
| Q35272629 | Delineation of upstream signaling events in the salmonella pathogenicity island 2 transcriptional activation pathway. |
| Q35989778 | Depletion of Butyrate-Producing Clostridia from the Gut Microbiota Drives an Aerobic Luminal Expansion of Salmonella |
| Q36277316 | Diarrhea and colitis in mice require the Salmonella pathogenicity island 2-encoded secretion function but not SifA or Spv effectors |
| Q34206361 | Diverse virulence traits underlying different clinical outcomes of Salmonella infection |
| Q40046693 | During infection of epithelial cells Salmonella enterica serovar Typhimurium undergoes a time-dependent transcriptional adaptation that results in simultaneous expression of three type 3 secretion systems |
| Q49587782 | Dysbiosis-Associated Change in Host Metabolism Generates Lactate to Support Salmonella Growth |
| Q33821592 | Efficacy of European starling control to reduce Salmonella enterica contamination in a concentrated animal feeding operation in the Texas panhandle |
| Q37717648 | Enzyme IIANtr Regulates Salmonella Invasion Via 1,2-Propanediol And Propionate Catabolism |
| Q50001804 | Experimental salmonellosis challenge model in older calves |
| Q36646721 | Exposure of Salmonella enterica Serovar typhimurium to a protective monoclonal IgA triggers exopolysaccharide production via a diguanylate cyclase-dependent pathway |
| Q34757086 | Flagella and chemotaxis are required for efficient induction of Salmonella enterica serovar Typhimurium colitis in streptomycin-pretreated mice |
| Q34648602 | FlgM as a secretion moiety for the development of an inducible type III secretion system |
| Q42162171 | FliZ Regulates Expression of theSalmonellaPathogenicity Island 1 Invasion Locus by Controlling HilD Protein Activity inSalmonella entericaSerovar Typhimurium |
| Q36747272 | Formate acts as a diffusible signal to induce Salmonella invasion |
| Q58697525 | Formation of phenotypic lineages in Salmonella enterica by a pleiotropic fimbrial switch |
| Q37310216 | From bench to bedside: stealth of enteroinvasive pathogens |
| Q40053470 | Functional analysis of a zebrafish myd88 mutant identifies key transcriptional components of the innate immune system. |
| Q44519401 | Functional screening of bacterial genome for virulence genes by transposon footprinting |
| Q49923752 | Genetic Ablation of Butyrate Utilization Attenuates Gastrointestinal Salmonella Disease. |
| Q36221146 | Genetic Characterization of the Galactitol Utilization Pathway of Salmonella enterica Serovar Typhimurium |
| Q33301871 | Genome-wide screen of Salmonella genes expressed during infection in pigs, using in vivo expression technology |
| Q27322348 | Granulocytes impose a tight bottleneck upon the gut luminal pathogen population during Salmonella typhimurium colitis |
| Q29615318 | Gut inflammation provides a respiratory electron acceptor for Salmonella |
| Q89636193 | HilD, HilC, and RtsA Form Homodimers and Heterodimers to Regulate Expression of the Salmonella Pathogenicity Island I Type III Secretion System |
| Q40382562 | Host restriction of Salmonella enterica serotype Typhi is not caused by functional alteration of SipA, SopB, or SopD. |
| Q37340368 | Host specificity of bacterial pathogens |
| Q37080879 | Host-mediated sugar oxidation promotes post-antibiotic pathogen expansion |
| Q37845999 | How to become a top model: impact of animal experimentation on human Salmonella disease research. |
| Q33955487 | Identification and analysis of bacterial virulence genes in vivo |
| Q24537566 | Identification of CsrC and characterization of its role in epithelial cell invasion in Salmonella enterica serovar Typhimurium |
| Q34002724 | Identification of a putative Salmonella enterica serotype typhimurium host range factor with homology to IpaH and YopM by signature-tagged mutagenesis |
| Q35798458 | Inflammation-associated alterations to the intestinal microbiota reduce colonization resistance against non-typhoidal Salmonella during concurrent malaria parasite infection. |
| Q36019373 | Innate immune response to Salmonella typhimurium, a model enteric pathogen |
| Q39694438 | Integrating global regulatory input into the Salmonella pathogenicity island 1 type III secretion system |
| Q28080209 | Interactions between the microbiota and pathogenic bacteria in the gut |
| Q39229039 | Interleukin-17A is required to suppress invasion of Salmonella enterica serovar Typhimurium to enteric mucosa |
| Q35409022 | Intestinal inflammation allows Salmonella to use ethanolamine to compete with the microbiota |
| Q38793052 | Intestinal innate immunity and the pathogenesis of Salmonella enteritis |
| Q40497871 | Iron acquisition pathways and colonization of the inflamed intestine by Salmonella enterica serovar Typhimurium |
| Q92504259 | Lactobacillus rhamnosus GG reverses mortality of neonatal mice against Salmonella challenge |
| Q35206858 | Lateral gene transfer in Salmonella |
| Q37612560 | Life in the inflamed intestine, Salmonella style |
| Q37401782 | Lipocalin-2 resistance confers an advantage to Salmonella enterica serotype Typhimurium for growth and survival in the inflamed intestine |
| Q43222397 | Long-term colonisation-inhibition studies to protect broilers against colonisation with Salmonella Enteritidis, using Salmonella Pathogenicity Island 1 and 2 mutants |
| Q37074488 | Loss of very-long O-antigen chains optimizes capsule-mediated immune evasion by Salmonella enterica serovar Typhi. |
| Q35122018 | Low-shear modeled microgravity: a global environmental regulatory signal affecting bacterial gene expression, physiology, and pathogenesis |
| Q36757407 | Microfluidic chip-based detection and intraspecies strain discrimination of Salmonella serovars derived from whole blood of septic mice |
| Q52664383 | Minimal SPI1-T3SS effector requirement for Salmonella enterocyte invasion and intracellular proliferation in vivo. |
| Q35032182 | Molecular pathogenesis of Salmonella enterica serotype typhimurium-induced diarrhea. |
| Q33764527 | Morphologic and cytokine profile characterization of Salmonella enterica serovar typhimurium infection in calves with bovine leukocyte adhesion deficiency |
| Q27310376 | Multicopy Single-Stranded DNA Directs Intestinal Colonization of Enteric Pathogens |
| Q37713277 | Neutrophils are a source of gamma interferon during acute Salmonella enterica serovar Typhimurium colitis |
| Q34009477 | New Zealand white rabbit as a nonsurgical experimental model for Salmonella enterica gastroenteritis |
| Q37058824 | Nitrate, nitrite and nitric oxide reductases: from the last universal common ancestor to modern bacterial pathogens |
| Q42100653 | Nitric oxide and salmonella pathogenesis |
| Q35917732 | Novel Two-Step Hierarchical Screening of Mutant Pools Reveals Mutants under Selection in Chicks |
| Q34982542 | Novel determinants of intestinal colonization of Salmonella enterica serotype typhimurium identified in bovine enteric infection |
| Q53693870 | Organoid and Enteroid Modeling of Salmonella Infection. |
| Q33662126 | Pathobiology of salmonella, intestinal microbiota, and the host innate immune response |
| Q58610413 | Pathogenicity Island One is Expressed in the Chicken Intestine and Promotes Bacterial Proliferation |
| Q34232554 | Pathways leading from BarA/SirA to motility and virulence gene expression in Salmonella. |
| Q36029218 | Phage-mediated acquisition of a type III secreted effector protein boosts growth of salmonella by nitrate respiration |
| Q34935646 | Pretreatment of mice with streptomycin provides a Salmonella enterica serovar Typhimurium colitis model that allows analysis of both pathogen and host |
| Q35839664 | RNA-seq Brings New Insights to the Intra-Macrophage Transcriptome of Salmonella Typhimurium |
| Q42591490 | Regulation of fucose and 1,2-propanediol utilization by Salmonella enterica serovar Typhimurium |
| Q37713228 | Repression of flagella is a common trait in field isolates of Salmonella enterica serovar Dublin and is associated with invasive human infections |
| Q35165118 | Requirement of the Yersinia pseudotuberculosis effectors YopH and YopE in colonization and persistence in intestinal and lymph tissues |
| Q36240466 | Respiration of Microbiota-Derived 1,2-propanediol Drives Salmonella Expansion during Colitis. |
| Q60915483 | Retrospective application of transposon-directed insertion-site sequencing to investigate niche-specific virulence of Salmonella Typhimurium in cattle |
| Q35549925 | Role of the Salmonella pathogenicity island 1 effector proteins SipA, SopB, SopE, and SopE2 in Salmonella enterica subspecies 1 serovar Typhimurium colitis in streptomycin-pretreated mice |
| Q49923839 | Salmonella Typhimurium increases functional PD-L1 synergistically with IFNγ in intestinal epithelial cells via Salmonella Pathogenicity Island-2. |
| Q21131414 | Salmonella bongori provides insights into the evolution of the Salmonellae |
| Q92999225 | Salmonella enterica Effectors SifA, SpvB, SseF, SseJ, and SteA Contribute to Type III Secretion System 1-Independent Inflammation in a Streptomycin-Pretreated Mouse Model of Colitis |
| Q31172548 | Salmonella enterica Serovar Typhi conceals the invasion-associated type three secretion system from the innate immune system by gene regulation |
| Q42694341 | Salmonella enterica Serovar Typhimurium Strategies for Host Adaptation |
| Q34491811 | Salmonella enterica highly expressed genes are disease specific |
| Q39521867 | Salmonella enterica serovar Gallinarum requires the Salmonella pathogenicity island 2 type III secretion system but not the Salmonella pathogenicity island 1 type III secretion system for virulence in chickens |
| Q41785768 | Salmonella enterica serovar Typhimurium pathogenicity island 2 is necessary for complete virulence in a mouse model of infectious enterocolitis |
| Q34006813 | Salmonella enterica serovar typhimurium induces cell death in bovine monocyte-derived macrophages by early sipB-dependent and delayed sipB-independent mechanisms |
| Q33591359 | Salmonella enterica serovar typhimurium-dependent regulation of inducible nitric oxide synthase expression in macrophages by invasins SipB, SipC, and SipD and effector SopE2. |
| Q34007278 | Salmonella enterica serovar-host specificity does not correlate with the magnitude of intestinal invasion in sheep |
| Q34469822 | Salmonella entry into host cells: the work in concert of type III secreted effector proteins |
| Q36368780 | Salmonella exploits caspase-1 to colonize Peyer's patches in a murine typhoid model |
| Q39503254 | Salmonella host cell invasion emerged by acquisition of a mosaic of separate genetic elements, including Salmonella pathogenicity island 1 (SPI1), SPI5, and sopE2. |
| Q47567536 | Salmonella in Dairy Cattle |
| Q34201775 | Salmonella inhibit T cell proliferation by a direct, contact-dependent immunosuppressive effect |
| Q33591947 | Salmonella pathogenicity island 1-independent induction of apoptosis in infected macrophages by Salmonella enterica serotype typhimurium |
| Q34005649 | Salmonella pathogenicity island 2 influences both systemic salmonellosis and Salmonella-induced enteritis in calves |
| Q24811102 | Salmonella pathogenicity island 2 is expressed prior to penetrating the intestine |
| Q27335357 | Salmonella uses energy taxis to benefit from intestinal inflammation |
| Q41816943 | Salmonella's iron armor for battling the host and its microbiota. |
| Q36673931 | Salmonella, the host and disease: a brief review |
| Q35693313 | Salmonella, the host and its microbiota |
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| Q34008370 | Salmonella-induced cell death is not required for enteritis in calves. |
| Q34469766 | Salmonella-induced macrophage death: the role of caspase-1 in death and inflammation. |
| Q37008201 | Salmonellae interplay with host cells |
| Q39792321 | Secreted effector proteins of Salmonella enterica serotype typhimurium elicit host-specific chemokine profiles in animal models of typhoid fever and enterocolitis |
| Q48157556 | Septicemic salmonellosis in a two-humped camel calf (Camelus bactrianus). |
| Q35689535 | SiiE is secreted by the Salmonella enterica serovar Typhimurium pathogenicity island 4-encoded secretion system and contributes to intestinal colonization in cattle |
| Q40735292 | SipA, SopA, SopB, SopD, and SopE2 contribute to Salmonella enterica serotype typhimurium invasion of epithelial cells. |
| Q28490058 | SopD2 is a novel type III secreted effector of Salmonella typhimurium that targets late endocytic compartments upon delivery into host cells |
| Q39515944 | SspA is required for lethal Salmonella enterica serovar Typhimurium infections in calves but is not essential for diarrhea |
| Q40095877 | The Salmonella Pathogenicity Island 2 regulator ssrA promotes reproductive tract but not intestinal colonization in chickens |
| Q39655497 | The Salmonella enterica serotype typhimurium effector proteins SipA, SopA, SopB, SopD, and SopE2 act in concert to induce diarrhea in calves. |
| Q34469814 | The Salmonella pathogenicity island-1 type III secretion system |
| Q36826987 | The actin-polymerizing activity of SipA is not essential for Salmonella enterica serovar Typhimurium-induced mucosal inflammation |
| Q34052242 | The blessings and curses of intestinal inflammation |
| Q41985502 | The capsule encoding the viaB locus reduces interleukin-17 expression and mucosal innate responses in the bovine intestinal mucosa during infection with Salmonella enterica serotype Typhi. |
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| Q33553824 | Three-dimensional tissue assemblies: novel models for the study of Salmonella enterica serovar Typhimurium pathogenesis. |
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| Q35338623 | Type 1 fimbriae are important factors limiting the dissemination and colonization of mice by Salmonella Enteritidis and contribute to the induction of intestinal inflammation during Salmonella invasion. |
| Q41908827 | Type III secretion of the Salmonella effector protein SopE is mediated via an N-terminal amino acid signal and not an mRNA sequence |
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| Q28483901 | Very long O-antigen chains enhance fitness during Salmonella-induced colitis by increasing bile resistance |
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