| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2012PLoSO...742211P |
| P356 | DOI | 10.1371/JOURNAL.PONE.0042211 |
| P8608 | Fatcat ID | release_k263zxlx5nh5vd7llqm5fh3ox4 |
| P932 | PMC publication ID | 3407133 |
| P698 | PubMed publication ID | 22848745 |
| P5875 | ResearchGate publication ID | 230590363 |
| P2093 | author name string | Kenneth D Clinkenbeard | |
| Duraisamy Ponnusamy | |||
| P2860 | cites work | A macrophage-monocyte cell line from a dog with malignant histiocytosis | Q52829623 |
| Plague manual--epidemiology, distribution, surveillance and control | Q73354947 | ||
| Morphological variety of intracellular microcolonies of Legionella species in Vero cells | Q74445092 | ||
| DNA sequencing and analysis of the low-Ca2+-response plasmid pCD1 of Yersinia pestis KIM5. | Q39573090 | ||
| Intracellular Yersinia pestis expresses general stress response and tellurite resistance proteins in mouse macrophages | Q39597629 | ||
| Role of fraction 1 antigen of Yersinia pestis in inhibition of phagocytosis | Q39654111 | ||
| Cell division inhibitors SulA and MinCD prevent formation of the FtsZ ring | Q39884641 | ||
| Functional macrophage cell lines transformed by abelson leukemia virus | Q40177539 | ||
| Roles of the Yfe and Feo transporters of Yersinia pestis in iron uptake and intracellular growth | Q40186206 | ||
| Characterization of phagosome trafficking and identification of PhoP-regulated genes important for survival of Yersinia pestis in macrophages | Q40264365 | ||
| Mycobacterium tuberculosis cells growing in macrophages are filamentous and deficient in FtsZ rings | Q40315233 | ||
| Abnormal Forms of Bacteria Produced by Antibiotics | Q40350673 | ||
| Identification of Salmonella functions critical for bacterial cell division within eukaryotic cells | Q40445651 | ||
| Yersinia pestis infection in three dogs | Q40681867 | ||
| Plague (Yersinia pestis) in cats: description of experimentally induced disease | Q40723242 | ||
| Clinical, clinicopathologic, and pathologic features of plague in cats: 119 cases (1977-1988) | Q40743448 | ||
| Macrophages inhibit Salmonella typhimurium replication through MEK/ERK kinase and phagocyte NADPH oxidase activities | Q40753427 | ||
| Feline plague in New Mexico: report of five cases | Q40849215 | ||
| Antigenic profiling of yersinia pestis infection in the Wyoming coyote (Canis latrans). | Q41430412 | ||
| Neutrophils are important in early control of lung infection by Yersinia pestis | Q41435601 | ||
| Yersinia pestis can reside in autophagosomes and avoid xenophagy in murine macrophages by preventing vacuole acidification | Q41439631 | ||
| Scavenging by mammalian carnivores on prairie dog colonies: implications for the spread of plague | Q41441551 | ||
| Dog-associated risk factors for human plague | Q41443625 | ||
| Recombinant F1-V fusion protein protects black-footed ferrets (Mustela nigripes) against virulent Yersinia pestis infection | Q41461661 | ||
| Nucleotide sequence of the Yersinia pestis gene encoding F1 antigen and the primary structure of the protein. Putative T and B cell epitopes | Q41510532 | ||
| A highly efficient electroporation system for transformation of Yersinia | Q41511984 | ||
| The Role of Domestic Animals in the Epidemiology of Plague. II. Antibody to Yersinia pestis in Sera of Dogs and Cats | Q41555472 | ||
| The Role of Domestic Animals in the Epidemiology of Plague. I. Experimental Infection of Dogs and Cats | Q41555483 | ||
| The role of multiplication of Pasteurella pestis in mononuclear phagocytes in the pathogenesis of flea-borne plague. | Q41569171 | ||
| New knowledge on the ecology of sylvatic plague | Q41570158 | ||
| Filamentation by Escherichia coli subverts innate defenses during urinary tract infection | Q24676540 | ||
| Yersinia pestis pH 6 antigen forms fimbriae and is induced by intracellular association with macrophages | Q28249075 | ||
| Yersinia pestis--etiologic agent of plague | Q29619320 | ||
| Pathogenesis of Yersinia pestis infection in BALB/c mice: effects on host macrophages and neutrophils | Q33225645 | ||
| Neutrophils are resistant to Yersinia YopJ/P-induced apoptosis and are protected from ROS-mediated cell death by the type III secretion system | Q33533339 | ||
| Immune defense against pneumonic plague | Q33584403 | ||
| Modified virulence of antibiotic-induced Burkholderia pseudomallei filaments | Q33857445 | ||
| Replication of Yersinia pestis in interferon gamma-activated macrophages requires ripA, a gene encoded in the pigmentation locus | Q33943840 | ||
| Assembly Dynamics of the Bacterial Cell Division Protein FtsZ: Poised at the Edge of Stability | Q33972949 | ||
| 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 | Q34119457 | ||
| Disease limits populations: plague and black-tailed prairie dogs | Q34154231 | ||
| Role of the Yersinia pestis plasminogen activator in the incidence of distinct septicemic and bubonic forms of flea-borne plague | Q34481674 | ||
| Phagocytosis of microbes: complexity in action | Q34542300 | ||
| Morphological plasticity as a bacterial survival strategy | Q34729956 | ||
| Characterization of an F1 deletion mutant of Yersinia pestis CO92, pathogenic role of F1 antigen in bubonic and pneumonic plague, and evaluation of sensitivity and specificity of F1 antigen capture-based dipsticks. | Q35066593 | ||
| Kinetics of disease progression and host response in a rat model of bubonic plague | Q35087782 | ||
| Inhibition of bacterial DNA replication by zinc mobilization during nitrosative stress | Q35168489 | ||
| Genetic organization of the yersiniabactin biosynthetic region and construction of avirulent mutants in Yersinia pestis | Q35546294 | ||
| The Ability To Replicate in Macrophages Is Conserved between Yersinia pestis and Yersinia pseudotuberculosis | Q36044907 | ||
| Turning Yersinia pathogenesis outside in: subversion of macrophage function by intracellular yersiniae | Q36049296 | ||
| Mutagenesis and stress responses induced in Escherichia coli by hydrogen peroxide | Q36239906 | ||
| Seroprevalence rates and transmission of plague (Yersinia pestis) in mammalian carnivores | Q36600219 | ||
| Interplay between antibacterial effectors: a macrophage antimicrobial peptide impairs intracellular Salmonella replication | Q36602184 | ||
| Comparative genome analyses of the pathogenic Yersiniae based on the genome sequence of Yersinia enterocolitica strain 8081. | Q36983986 | ||
| Growth in mouse peritoneal macrophages of Yersinia pestis lacking established virulence determinants. | Q37078780 | ||
| Yersinia pestis grows within phagolysosomes in mouse peritoneal macrophages | Q37078811 | ||
| Gr1+ cells control growth of YopM-negative yersinia pestis during systemic plague | Q37333386 | ||
| Histopathology of experimental plague in cats | Q38461850 | ||
| Effects of Psa and F1 on the adhesive and invasive interactions of Yersinia pestis with human respiratory tract epithelial cells | Q38484199 | ||
| In vitro efficacy of antibiotics commonly used to treat human plague against intracellular Yersinia pestis | Q39532963 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Yersinia pestis | Q153875 |
| P304 | page(s) | e42211 | |
| P577 | publication date | 2012-07-27 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | Yersinia pestis intracellular parasitism of macrophages from hosts exhibiting high and low severity of plague | |
| P478 | volume | 7 |
| Q34490425 | Bacterial differentiation, development, and disease: mechanisms for survival |
| Q27317346 | Integrating high-content imaging and chemical genetics to probe host cellular pathways critical for Yersinia pestis infection |
| Q35832329 | Role of Tellurite Resistance Operon in Filamentous Growth of Yersinia pestis in Macrophages |
| 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. |
| Q30571714 | Yersinia pestis survival and replication within human neutrophil phagosomes and uptake of infected neutrophils by macrophages |
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