scholarly article | Q13442814 |
P2093 | author name string | S C Straley | |
P A Harmon | |||
P2860 | cites work | Plaque formation and isolation of pure lines with poliomyelitis viruses | Q24684906 |
The use of lead citrate at high pH as an electron-opaque stain in electron microscopy | Q26778439 | ||
Some ultrastructural effects of persistent infections by the rickettsia Coxiella burnetii in mouse L cells and green monkey kidney (Vero) cells | Q34453071 | ||
Mutation rate to nonpigmentation in Pasteurella pestis | Q35156343 | ||
Pneumonic plague in monkeys. An electron microscopic study | Q36051714 | ||
RNA Synthesis in Yersinia pestis During Growth Restriction in Calcium-Deficient Medium | Q36310760 | ||
Mutations to tolerance and resistance to pesticin and colicins in Escherichia coli phi. | Q36317692 | ||
Consequences of Ca2+ deficiency on macromolecular synthesis and adenylate energy charge in Yersinia pestis | Q36334014 | ||
Effect of exogenous nucleotides on Ca2+ dependence and V antigen synthesis in Yersinia pestis | Q36339084 | ||
Phagosome-lysosome interactions in cultured macrophages infected with virulent tubercle bacilli. Reversal of the usual nonfusion pattern and observations on bacterial survival | Q36358207 | ||
The interaction between Toxoplasma gondii and mammalian cells. II. The absence of lysosomal fusion with phagocytic vacuoles containing living parasites | Q36512530 | ||
Delayed appearance of pseudotypes between vesicular stomatitis virus influenza virus during mixed infection of MDCK cells | Q36935676 | ||
Growth in mouse peritoneal macrophages of Yersinia pestis lacking established virulence determinants. | Q37078780 | ||
The Genus Yersinia: Biochemistry and Genetics of Virulence With 3 Figures | Q39914791 | ||
Vwa+ phenotype of Yersinia enterocolitica. | Q40184154 | ||
Phagolysosome Formation, Cyclic Adenosine 3':5'-Monophosphate and the Fate of Salmonella typhimurium within Mouse Peritoneal Macrophages | Q40225458 | ||
The basis of virulence in Pasteurella pestis: an antigen determining virulence | Q40293937 | ||
Synthesis of the fraction I antigenic protein by Pasteurella pestis. | Q40314134 | ||
Studies on the nutrition and physiology of Pasteurella pestis. III. Effects of calcium ions on the growth of virulent and avirulent strains of Pasteurella pestis. | Q40315905 | ||
Studies on the pathogenicity of Yersinia enterocolitica. III. Comparative studies between Y. enterocolitica and Y. pseudotuberculosis | Q41547299 | ||
THE EFFECT OF CA++ AND MG++ ON LYSIS, GROWTH, AND PRODUCTION OF VIRULENCE ANTIGENS BY PASTEURELLA PESTIS. | Q41563968 | ||
BIOSYNTHESIS AND PURIFICATION OF V AND W ANTIGEN IN PASTEURELLA PESTIS | Q41564589 | ||
The role of multiplication of Pasteurella pestis in mononuclear phagocytes in the pathogenesis of flea-borne plague. | Q41569171 | ||
Electron microscopic studies of the rickettsia Coxiella burneti: entry, lysosomal response, and fate of rickettsial DNA in L-cells | Q43888113 | ||
Endocytosis | Q66883082 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Yersinia pestis | Q153875 |
macrophage | Q184204 | ||
P304 | page(s) | 655-659 | |
P577 | publication date | 1984-09-01 | |
P1433 | published in | Infection and Immunity | Q6029193 |
P1476 | title | Yersinia pestis grows within phagolysosomes in mouse peritoneal macrophages | |
P478 | volume | 45 |
Q36103190 | A PhoP-repressed gene promotes Salmonella typhimurium invasion of epithelial cells |
Q37013218 | A low-Ca2+ response operon encodes the V antigen of Yersinia pestis. |
Q34090477 | A transposon site hybridization screen identifies galU and wecBC as important for survival of Yersinia pestis in murine macrophages |
Q41441607 | Antibodies and cytokines independently protect against pneumonic plague. |
Q34520336 | Association between virulence of Yersinia pestis and suppression of gamma interferon and tumor necrosis factor alpha. |
Q36539626 | Braun lipoprotein (Lpp) contributes to virulence of yersiniae: potential role of Lpp in inducing bubonic and pneumonic plague. |
Q39393406 | Cell-mediated protection against pulmonary Yersinia pestis infection |
Q35107765 | Characterization of defensin resistance phenotypes associated with mutations in the phoP virulence regulon of Salmonella typhimurium |
Q40264365 | Characterization of phagosome trafficking and identification of PhoP-regulated genes important for survival of Yersinia pestis in macrophages |
Q37055410 | Common themes in microbial pathogenicity |
Q37061907 | Comparative biology of intracellular parasitism |
Q33304064 | Comparative transcriptomics in Yersinia pestis: a global view of environmental modulation of gene expression |
Q35094337 | Differential clearance and host-pathogen interactions of YopE- and YopK- YopL- Yersinia pestis in BALB/c mice |
Q24673488 | Differential effects of deletions in lcrV on secretion of V antigen, regulation of the low-Ca2+ response, and virulence of Yersinia pestis |
Q38484199 | Effects of Psa and F1 on the adhesive and invasive interactions of Yersinia pestis with human respiratory tract epithelial cells |
Q36978722 | Electron microscopic evidence for in vivo extracellular localization of Yersinia pseudotuberculosis harboring the pYV plasmid |
Q37399724 | Evaluation of a Yersinia pestis mutant impaired in a thermoregulated type VI-like secretion system in flea, macrophage and murine models. |
Q36637747 | Factors promoting acute and chronic diseases caused by yersiniae |
Q35186608 | Further characterization of a highly attenuated Yersinia pestis CO92 mutant deleted for the genes encoding Braun lipoprotein and plasminogen activator protease in murine alveolar and primary human macrophages |
Q41453869 | Gamma interferon, tumor necrosis factor alpha, and nitric oxide synthase 2, key elements of cellular immunity, perform critical protective functions during humoral defense against lethal pulmonary Yersinia pestis infection |
Q34119457 | Global gene expression profiling of Yersinia pestis replicating inside macrophages reveals the roles of a putative stress-induced operon in regulating type III secretion and intracellular cell division |
Q37078780 | Growth in mouse peritoneal macrophages of Yersinia pestis lacking established virulence determinants. |
Q40151869 | Growth of Francisella spp. in rodent macrophages. |
Q36974797 | Humoral and cellular defense against intestinal murine infection with Yersinia enterocolitica |
Q33325804 | Identification and characterization of PhoP regulon members in Yersinia pestis biovar Microtus |
Q39825619 | Identification and characterization of the Yersinia enterocolitica gsrA gene, which protectively responds to intracellular stress induced by macrophage phagocytosis and to extracellular environmental stress |
Q35385770 | Immunization with live recombinant Salmonella typhimurium aroA producing F1 antigen protects against plague |
Q47193206 | Impact of Gentamicin Concentration and Exposure Time on Intracellular Yersinia pestis. |
Q39532963 | In vitro efficacy of antibiotics commonly used to treat human plague against intracellular Yersinia pestis |
Q40150964 | Inhibition of macrophage phagosome-lysosome fusion by Salmonella typhimurium |
Q27317346 | Integrating high-content imaging and chemical genetics to probe host cellular pathways critical for Yersinia pestis infection |
Q36594020 | Interaction between Yersinia pestis and the host immune system |
Q83042711 | Intracellular pathogenic bacteria and fungi--a case of convergent evolution? |
Q36911486 | Intranasal prophylaxis with CpG oligodeoxynucleotide can protect against Yersinia pestis infection |
Q34548550 | Invasion and intracellular survival of Bordetella bronchiseptica in mouse dendritic cells. |
Q33481007 | Involvement of the post-transcriptional regulator Hfq in Yersinia pestis virulence |
Q30756919 | LcrV of Yersinia pestis enters infected eukaryotic cells by a virulence plasmid-independent mechanism |
Q41452700 | Mechanisms of major histocompatibility complex class II-restricted processing and presentation of the V antigen of Yersinia pestis |
Q35029718 | Model systems to study plague pathogenesis and develop new therapeutics |
Q59134951 | Necroptosis of infiltrated macrophages drives Yersinia pestis dispersal within buboes |
Q33225645 | Pathogenesis of Yersinia pestis infection in BALB/c mice: effects on host macrophages and neutrophils |
Q33601851 | Pathogenesis of tuberculosis: interaction of Mycobacterium tuberculosis with macrophages. |
Q40375970 | Phosphatidylinositol-specific phospholipase C from Listeria monocytogenes contributes to intracellular survival and growth of Listeria innocua |
Q37264880 | Role of Yersinia pestis toxin complex family proteins in resistance to phagocytosis by polymorphonuclear leukocytes |
Q35633763 | S1P-Dependent trafficking of intracellular yersinia pestis through lymph nodes establishes Buboes and systemic infection |
Q36660048 | Salmonella induces the formation of filamentous structures containing lysosomal membrane glycoproteins in epithelial cells |
Q38034106 | Studying Salmonellae and Yersiniae host-pathogen interactions using integrated 'omics and modeling |
Q24293994 | The RACK1 signaling scaffold protein selectively interacts with Yersinia pseudotuberculosis virulence function |
Q41409444 | The Yfe and Feo transporters are involved in microaerobic growth and virulence of Yersinia pestis in bubonic plague |
Q40421231 | The pH 6 antigen is an antiphagocytic factor produced by Yersinia pestis independent of Yersinia outer proteins and capsule antigen |
Q34004738 | The response regulator PhoP is important for survival under conditions of macrophage-induced stress and virulence in Yersinia pestis |
Q37521683 | The response regulator PhoP of Yersinia pseudotuberculosis is important for replication in macrophages and for virulence |
Q28290675 | The virulence plasmid of Yersinia, an antihost genome |
Q41388521 | Transcriptional regulation mechanism of ter operon by OxyR in Yersinia pestis |
Q33983252 | Use of aminoglycosides in treatment of infections due to intracellular bacteria |
Q41451306 | Vaccination with live Yersinia pestis primes CD4 and CD8 T cells that synergistically protect against lethal pulmonary Y. pestis infection |
Q35818586 | Yersinia pestis Requires Host Rab1b for Survival in Macrophages. |
Q49791078 | Yersinia pestis Targets the Host Endosome Recycling Pathway during the Biogenesis of the Yersinia-Containing Vacuole To Avoid Killing by Macrophages. |
Q41439631 | Yersinia pestis can reside in autophagosomes and avoid xenophagy in murine macrophages by preventing vacuole acidification |
Q34359637 | Yersinia pestis intracellular parasitism of macrophages from hosts exhibiting high and low severity of plague |
Q36986872 | Yersinia pestis pH 6 antigen: genetic, biochemical, and virulence characterization of a protein involved in the pathogenesis of bubonic plague |
Q37140076 | Yersinia pestis subverts the dermal neutrophil response in a mouse model of bubonic plague. |
Q30571714 | Yersinia pestis survival and replication within human neutrophil phagosomes and uptake of infected neutrophils by macrophages |
Q33613887 | Yersinia pestis two-component gene regulatory systems promote survival in human neutrophils |
Q58764350 | type IV secretion system effector Etf-2 binds to active RAB5 and delays endosome maturation |
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