scholarly article | Q13442814 |
P2093 | author name string | Ting Zhang | |
Chinling Wang | |||
Dongryeoul Bae | |||
P2860 | cites work | Whole genome comparisons of serotype 4b and 1/2a strains of the food-borne pathogen Listeria monocytogenes reveal new insights into the core genome components of this species | Q22065989 |
Statistical analysis of real-time PCR data | Q25255616 | ||
Recruitment of the major vault protein by InlK: a Listeria monocytogenes strategy to avoid autophagy | Q27349252 | ||
Internalins from the human pathogen Listeria monocytogenes combine three distinct folds into a contiguous internalin domain | Q27635065 | ||
Structure of internalin InlK from the human pathogen Listeria monocytogenes | Q27685396 | ||
The leucine-rich repeat as a protein recognition motif | Q28212461 | ||
Transcytosis of Listeria monocytogenes across the intestinal barrier upon specific targeting of goblet cell accessible E-cadherin | Q28249567 | ||
The bacterial virulence factor InlC perturbs apical cell junctions and promotes cell-to-cell spread of Listeria. | Q30157116 | ||
Relationships between IFNgamma, IL-6, corticosterone, and Listeria monocytogenes pathogenesis in BALB/c mice | Q31846946 | ||
Bacteremia is required for invasion of the murine central nervous system by Listeria monocytogenes | Q71521245 | ||
New perspectives on host-parasite interplay by comparative transcriptomic and proteomic analyses of Schistosoma japonicum | Q33240031 | ||
Sequence and molecular characterization of a multicopy invasion plasmid antigen gene, ipaH, of Shigella flexneri | Q33253819 | ||
The stress-induced virulence protein InlH controls interleukin-6 production during murine listeriosis | Q33825960 | ||
Gp96 is a receptor for a novel Listeria monocytogenes virulence factor, Vip, a surface protein | Q33910936 | ||
Listeria pathogenesis and molecular virulence determinants | Q33975740 | ||
LPXTG protein InlJ, a newly identified internalin involved in Listeria monocytogenes virulence | Q34033253 | ||
The Listeria monocytogenes InlC protein interferes with innate immune responses by targeting the I{kappa}B kinase subunit IKK{alpha}. | Q34182489 | ||
Epidemic listeriosis--evidence for transmission by food | Q34258986 | ||
InlA promotes dissemination of Listeria monocytogenes to the mesenteric lymph nodes during food borne infection of mice | Q34481840 | ||
Listeria monocytogenes: clinical and experimental update | Q34543882 | ||
Influence of internalin A murinisation on host resistance to orally acquired listeriosis in mice. | Q34687016 | ||
A mariner transposon-based signature-tagged mutagenesis system for the analysis of oral infection by Listeria monocytogenes. | Q34999611 | ||
Illuminating the landscape of host-pathogen interactions with the bacterium Listeria monocytogenes | Q35621306 | ||
Enterococcal leucine-rich repeat-containing protein involved in virulence and host inflammatory response. | Q35947348 | ||
Targeting of the central nervous system by Listeria monocytogenes | Q36094762 | ||
Gastroenteritis due to Listeria monocytogenes | Q36095869 | ||
Subversion of cellular functions by Listeria monocytogenes | Q36346114 | ||
The Listeria monocytogenes virulence factor InlJ is specifically expressed in vivo and behaves as an adhesin | Q36539685 | ||
Additive roles for MCP-1 and MCP-3 in CCR2-mediated recruitment of inflammatory monocytes during Listeria monocytogenes infection. | Q36661058 | ||
Entry of the bacterial pathogen Listeria monocytogenes into mammalian cells | Q36785885 | ||
Impact of the Listeria monocytogenes protein InlC on infection in mice | Q36804684 | ||
Molecular mechanisms exploited by Listeria monocytogenes during host cell invasion | Q36924633 | ||
Internalins: a complex family of leucine-rich repeat-containing proteins in Listeria monocytogenes | Q36926333 | ||
Inhibition of ROCK activity allows InlF-mediated invasion and increased virulence of Listeria monocytogenes | Q36955621 | ||
Characterization of a potential Listeria monocytogenes virulence factor associated with attachment to fresh produce | Q37264056 | ||
Listeria monocytogenes internalin and E-cadherin: from structure to pathogenesis | Q37385013 | ||
New vector for efficient allelic replacement in naturally nontransformable, low-GC-content, gram-positive bacteria. | Q37597487 | ||
Cell biology and immunology of Listeria monocytogenes infections: novel insights | Q37846871 | ||
Monocyte-mediated immune defense against murine Listeria monocytogenes infection | Q37975704 | ||
In vitro and in vivo models to study human listeriosis: mind the gap. | Q38154361 | ||
Heterogeneity of the Yersinia YopM protein | Q41483961 | ||
Identification of epitopes in Leptospira borgpetersenii leucine-rich repeat proteins | Q42284353 | ||
Conjugated action of two species-specific invasion proteins for fetoplacental listeriosis | Q44054054 | ||
IL-6 controls the innate immune response against Listeria monocytogenes via classical IL-6 signaling | Q44932760 | ||
A transgenic model for listeriosis: role of internalin in crossing the intestinal barrier | Q46718566 | ||
Listerial invasion protein internalin B promotes entry into ileal Peyer's patches in vivo | Q57122727 | ||
P433 | issue | 9 | |
P921 | main subject | Listeria monocytogenes | Q292015 |
P577 | publication date | 2016-03-13 | |
P1433 | published in | FEMS Microbiology Letters | Q15756366 |
P1476 | title | LMOh7858_0369, a gene encoding a putative leucine-rich repeat-containing protein, is required for virulence of Listeria monocytogenes | |
P478 | volume | 363 |
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