scholarly article | Q13442814 |
P356 | DOI | 10.1128/IAI.73.7.4214-4221.2005 |
P8608 | Fatcat ID | release_dbhc22zrsrccpifi2kn5z2q3ti |
P932 | PMC publication ID | 1168615 |
P698 | PubMed publication ID | 15972512 |
P2093 | author name string | Jeffrey D Cirillo | |
Luiz E Bermudez | |||
Parmod K Mehta | |||
Suat L G Cirillo | |||
Elizabeth Miltner | |||
Koorosh Daroogheh | |||
P2860 | cites work | Deciphering the biology of Mycobacterium tuberculosis from the complete genome sequence | Q22122411 |
Common themes in microbial pathogenicity revisited | Q24643808 | ||
Mycobacterium tuberculosis invades and replicates within type II alveolar cells | Q28378808 | ||
Molecular characterization of the mycobacterial heparin-binding hemagglutinin, a mycobacterial adhesin | Q28486660 | ||
Identification of a gene involved in the biosynthesis of cyclopropanated mycolic acids in Mycobacterium tuberculosis | Q28486917 | ||
Open reading frame 3, which is adjacent to the mycocerosic acid synthase gene, is expressed as an acyl coenzyme A synthase in Mycobacterium bovis BCG | Q28487075 | ||
A novel mycolic acid cyclopropane synthetase is required for cording, persistence, and virulence of Mycobacterium tuberculosis | Q28487225 | ||
Identification of a virulence gene cluster of Mycobacterium tuberculosis by signature-tagged transposon mutagenesis | Q28487304 | ||
Genetic systems for mycobacteria | Q29620683 | ||
Identification of expression signals of the mycobacteriophages Bxb1, L1 and TM4 using the Escherichia-Mycobacterium shuttle plasmids pYUB75 and pYUB76 designed to create translational fusions to the lacZ gene | Q31132257 | ||
Mycobacterium avium invades the intestinal mucosa primarily by interacting with enterocytes | Q34006320 | ||
Phenotypic and genomic analyses of the Mycobacterium avium complex reveal differences in gastrointestinal invasion and genomic composition | Q34009554 | ||
Bacterial signals and cell responses during Shigella entry into epithelial cells | Q34156255 | ||
Epidemiology of infection by nontuberculous mycobacteria | Q35370226 | ||
Growth within macrophages increases the efficiency of Mycobacterium avium in invading other macrophages by a complement receptor-independent pathway | Q35547329 | ||
Exposure to low oxygen tension and increased osmolarity enhance the ability of Mycobacterium avium to enter intestinal epithelial (HT-29) cells. | Q35555222 | ||
Transepithelial transport and mucosal defence I: the role of M cells | Q35633020 | ||
Factors affecting invasion of HT-29 and HEp-2 epithelial cells by organisms of the Mycobacterium avium complex | Q35780704 | ||
Striking a balance: modulation of the actin cytoskeleton by Salmonella | Q36105372 | ||
Exploring drug-induced alterations in gene expression in Mycobacterium tuberculosis by microarray hybridization | Q36558993 | ||
The Mycobacterium avium complex | Q36640345 | ||
Comparison of the ability of Mycobacterium avium, M. smegmatis and M. tuberculosis to invade and replicate within HEp-2 epithelial cells | Q36680062 | ||
Dissemination of enteric Mycobacterium avium infections in mice rendered immunodeficient by thymectomy and CD4 depletion or by prior infection with murine AIDS retroviruses | Q36970885 | ||
Multiple factors independently regulate hilA and invasion gene expression in Salmonella enterica serovar typhimurium | Q39538569 | ||
Macrophage receptors for Mycobacterium tuberculosis | Q39570480 | ||
Mycobacterium avium enters intestinal epithelial cells through the apical membrane, but not by the basolateral surface, activates small GTPase Rho and, once within epithelial cells, expresses an invasive phenotype. | Q40826451 | ||
Growth phase and low pH affect the thermal regulation of the Yersinia enterocolitica inv gene | Q41501296 | ||
Mycobacterium avium resists exposure to the acidic conditions of the stomach | Q41710897 | ||
Interactions of Listeria monocytogenes with mammalian cells during entry and actin-based movement: bacterial factors, cellular ligands and signaling | Q42124459 | ||
Role of M Cells and Macrophages in the Entrance ofMycobacterium paratuberculosisinto Domes of Ileal Peyer's Patches in Calves | Q45261716 | ||
An Animal Model of Mycobacterium avium Complex Disseminated Infection after Colonization of the Intestinal Tract | Q46083406 | ||
The Mycobacterium avium subsp. paratuberculosis 35 kDa protein plays a role in invasion of bovine epithelial cells | Q47708018 | ||
Characterization of the fibronectin-attachment protein of Mycobacterium avium reveals a fibronectin-binding motif conserved among mycobacteria | Q48062357 | ||
Cloning of an M. tuberculosis DNA fragment associated with entry and survival inside cells | Q48102004 | ||
A Salmonella typhimurium mutant unable to utilize fatty acids and citrate is avirulent and immunogenic in mice | Q50130275 | ||
Functional morphology of microfold cells (M cells) in Peyer's patches--phagocytosis and transport of BCG by M cells into rabbit Peyer's patches. | Q51804911 | ||
Comparative proteome analysis of Helicobacter pylori. | Q52971585 | ||
Expression of the green fluorescent protein (GFP) in mycobacterium avium as a tool to study the interaction between Mycobacteria and host cells. | Q54568331 | ||
Atypical mycobacterial infection of the gastrointestinal tract in AIDS patients | Q69402128 | ||
Mycobacterium avium-Mycobacterium intracellulare from the intestinal tracts of patients with the acquired immunodeficiency syndrome: concepts regarding acquisition and pathogenesis | Q70044921 | ||
Interaction of Mycobacterium avium complex with human respiratory epithelial cells | Q73556650 | ||
The M cell as a portal of entry to the lung for the bacterial pathogen Mycobacterium tuberculosis | Q77994462 | ||
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Mycobacterium avium avium | Q310728 |
P304 | page(s) | 4214-4221 | |
P577 | publication date | 2005-07-01 | |
P1433 | published in | Infection and Immunity | Q6029193 |
P1476 | title | Identification of Mycobacterium avium genes that affect invasion of the intestinal epithelium | |
P478 | volume | 73 |
Q37516443 | A Fluorescent Probe for Detecting Mycobacterium tuberculosis and Identifying Genes Critical for Cell Entry |
Q35590766 | A mycobacterial phosphoribosyltransferase promotes bacillary survival by inhibiting oxidative stress and autophagy pathways in macrophages and zebrafish |
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Q33501887 | Identification of virulence determinants of Mycobacterium avium that impact on the ability to resist host killing mechanisms |
Q41992212 | Infection with Mycobacterium avium subsp. paratuberculosis results in rapid interleukin-1β release and macrophage transepithelial migration |
Q39527838 | Internalization, phagolysosomal biogenesis and killing of mycobacteria in enucleated epithelial cells |
Q27016137 | MR1-restricted mucosal associated invariant T (MAIT) cells in the immune response to Mycobacterium tuberculosis |
Q30157454 | Mycobacterium avium genes MAV_5138 and MAV_3679 are transcriptional regulators that play a role in invasion of epithelial cells, in part by their regulation of CipA, a putative surface protein interacting with host cell signaling pathways |
Q37986179 | Mycobacterium avium-triggered diseases: pathogenomics |
Q37264818 | No holes barred: invasion of the intestinal mucosa by Mycobacterium avium subsp. paratuberculosis |
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Q34268825 | Real-time bioluminescence imaging of mixed mycobacterial infections |
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Q33302729 | The Mycobacterium avium subsp. paratuberculosis MAP3464 gene encodes an oxidoreductase involved in invasion of bovine epithelial cells through the activation of host cell Cdc42. |
Q34602070 | The ability of Mycobacterium avium subsp. paratuberculosis to enter bovine epithelial cells is influenced by preexposure to a hyperosmolar environment and intracellular passage in bovine mammary epithelial cells |
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