Pascale Cossart
Cossart, Pascale.
Cossart, Pascale, 1948-
Cossart, Pascale, 19..-....
VIAF ID: 167225654 (Personal)
Permalink: http://viaf.org/viaf/167225654
Preferred Forms
- 200 _ | ‡a Cossart ‡b Pascale ‡f 1948-....
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- 100 1 _ ‡a Cossart, Pascale
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- 100 1 _ ‡a Cossart, Pascale
- 100 1 _ ‡a Cossart, Pascale ‡d 1948-
- 100 1 _ ‡a Cossart, Pascale ‡d 1948-
- 100 1 _ ‡a Cossart, Pascale, ‡d 19..-....
- 100 1 _ ‡a Cossart, Pascale, ‡d 1948-
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- 100 0 _ ‡a Pascale Cossart
4xx's: Alternate Name Forms (13)
5xx's: Related Names (2)
Works
Title | Sources |
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Altération du protéome de la cellule hôte en réponse à l'infection par listeria monocytogenes | |
ARN régulateurs chez Listeria. | |
Association of the InlB protein at the surface of Listeria monocytogenes : consequences upon invasion of non-phagocytic cells. | |
Bacteria and intracellularity | |
Bacterial pathogenesis, 2013: | |
Characterization of Histone H3 Lysine 18 deacetylation during infection with Listeria monocytogenes | |
Contribution à la détermination de la structure primaire de l'Aspartokinase I-homosérine déshydrogénase I : distribution des méthionines et des peptides contenant de la cystéine et du tryptophane : isolement et caractérisation des peptides obtenus par action du bromure de cyanogène : séquence des deux plus grands fragments | |
Curr. opin. microbiol. (Online) | |
Entry of listeria monocytogenes into mammalian cells: role of the internalin multigene family. | |
Mécanismes d'entrée de Listeria monocytogenes dans les cellules non-phagocytaires : étude des facteurs cellulaires en aval de l'interaction InIA/E-cadhérine | |
Le monde invisible du vivant : bactéries, archées, levures/champignons, microalgues, protozoaires et... virus | |
n99057341 | |
The new microbiology : from microbiomes to CRISPR | |
Nouvelle microbiologie. | |
Nouvelle microbiologie des microbiotes aux crispr | |
Occurrence of mutations impairing sigma factor B (SigB) function upon inactivation of Listeria monocytogenes genes encoding surface proteins | |
OrfX, a Nucleomodulin Required for Listeria monocytogenes Virulence | |
Pasteur à l'œuvre : exposition, Arbois, Musée de la vigne et du vin, du 15 juin au 15 octobre 2018 | |
Pasteur, a visionary = Pasteur, un visionnaire : special issue / numéro thématique | |
Pathogen-mediated posttranslational modifications: A re-emerging field | |
Pathogenic Biohacking: Induction, Modulation and Subversion of Host Transcriptional Responses by Listeria monocytogenes | |
Phosphoinositides and host-pathogen interactions | |
Phospholipase A2IVα regulates phagocytosis independent of its enzymatic activity | |
Post-translational modifications in host cells during bacterial infection | |
Prokaryotic transcriptomics: a new view on regulation, physiology and pathogenicity | |
Rapid Remodeling of the Host Epithelial Cell Proteome by the Listeriolysin O (LLO) Pore-forming Toxin. | |
Recruitment of the Major Vault Protein by InlK : a Listeria monocytogenes strategy to avoid autophagy. | |
Regulated shift from helical to polar localization of Listeria monocytogenes cell wall-anchored proteins. | |
Régulation de la virulence de Listeria monocytogenes : systèmes à deux composants et ARN non codants | |
Remise des prix de l'Académie des Sciences : cérémonies sous la coupole de l'Institut de France les 16 octobre et 20 novembre 2018 : La grande médaille et les prix de l'Académie des Sciences | |
Reply to Million et al.: Lactobacilli and listeriosis | |
Riboswitches. Sequestration of a two-component response regulator by a riboswitch-regulated noncoding RNA. | |
The RickA protein of Rickettsia conorii activates the Arp2/3 complex | |
The Rickettsia Surface Cell Antigen 4 Applies Mimicry to Bind to and Activate Vinculin | |
An RNA-Binding Protein Secreted by a Bacterial Pathogen Modulates RIG-I Signaling | |
RNA mediated gene expression regulation in Listeria | |
Rôle de la sérine/thréonine phosphatase Stp dans le processus infectieux de Listeria monocytogenes | |
A role for septin 2 in Drp1-mediated mitochondrial fission | |
A role for Taok2 in Listeria monocytogenes vacuolar escape | |
Role of endothelial cell septin 7 in the endocytosis of Candida albicans | |
Role of the BAHD1 Chromatin-Repressive Complex in Placental Development and Regulation of Steroid Metabolism | |
Salmonella enteritidis Rck-mediated invasion requires activation of Rac1, which is dependent on the class I PI 3-kinases-Akt signaling pathway | |
Séance solennelle de remise des grands prix des fondations mercredi 6 juin 2012 | |
Septins: the fourth component of the cytoskeleton | |
Sequence and binding activity of the autolysin-adhesin Ami from epidemic Listeria monocytogenes 4b. | |
Simultaneous analysis of large-scale RNAi screens for pathogen entry | |
Small bacterial and phagic proteins: an updated view on a rapidly moving field. | |
Small noncoding RNAs controlling pathogenesis | |
Sortase, a universal target for therapeutic agents against gram-positive bacteria? | |
The stress-induced virulence protein InlH controls interleukin-6 production during murine listeriosis | |
Structure of the lnlB leucine-rich repeats, a domain that triggers host cell invasion by the bacterial pathogen L. monocytogenes | |
Study of the regulation of MAVS, a mitochondrial protein involves in antiviral innate immunity. | |
Term-seq reveals abundant ribo-regulation of antibiotics resistance in bacteria | |
Transcytosis of Listeria monocytogenes across the intestinal barrier upon specific targeting of goblet cell accessible E-cadherin | |
Type II phosphatidylinositol 4-kinases promote Listeria monocytogenes entry into target cells | |
Unexpected versatility in bacterial riboswitches | |
Unraveling the evolution and coevolution of small regulatory RNAs and coding genes in Listeria | |
Vezatin, a novel transmembrane protein, bridges myosin VIIA to the cadherin-catenins complex | |
Virulence factors that modulate the cell biology of Listeria infection and the host response | |
WASP-related proteins, Abi1 and Ena/VASP are required for Listeria invasion induced by the Met receptor | |
What Genomics Has Taught Us about Intracellular Pathogens: the Example of Listeria monocytogenes | |
When bacteria target the nucleus: the emerging family of nucleomodulins | |
The zebrafish as a new model for the in vivo study of Shigella flexneri interaction with phagocytes and bacterial autophagy | |
これからの微生物学 : マイクロバイオータからCRISPRへ |