| scholarly article | Q13442814 |
| P50 | author | Hubert Hilbi | Q58981515 |
| P2093 | author name string | Curdin Ragaz | |
| Stefan S Weber | |||
| P433 | issue | 3 | |
| P921 | main subject | vacuole | Q127702 |
| P304 | page(s) | 442-460 | |
| P577 | publication date | 2008-11-13 | |
| P1433 | published in | Cellular Microbiology | Q1921948 |
| P1476 | title | The inositol polyphosphate 5-phosphatase OCRL1 restricts intracellular growth of Legionella, localizes to the replicative vacuole and binds to the bacterial effector LpnE | |
| P478 | volume | 11 |
| Q60303443 | -Containing Vacuoles Capture PtdIns(4)-Rich Vesicles Derived from the Golgi Apparatus |
| Q41190166 | A Unique cis-Encoded Small Noncoding RNA Is Regulating Legionella pneumophila Hfq Expression in a Life Cycle-Dependent Manner |
| Q27314747 | A type IV translocated Legionella cysteine phytase counteracts intracellular growth restriction by phytate |
| Q52350987 | Acanthamoeba and Dictyostelium as Cellular Models for Legionella Infection. |
| Q27333488 | Activation of Ran GTPase by a Legionella effector promotes microtubule polymerization, pathogen vacuole motility and infection |
| Q33533325 | Analysis of the Legionella longbeachae genome and transcriptome uncovers unique strategies to cause Legionnaires' disease |
| Q35155317 | Anchors for effectors: subversion of phosphoinositide lipids by legionella. |
| Q37710890 | Bacterial secretion system skews the fate of Legionella-containing vacuoles towards LC3-associated phagocytosis |
| Q37445142 | Bacterial type IV secretion systems in human disease |
| Q47136017 | Beyond Paralogs: The Multiple Layers of Redundancy in Bacterial Pathogenesis |
| Q36147452 | Beyond Rab GTPases Legionella activates the small GTPase Ran to promote microtubule polymerization, pathogen vacuole motility, and infection |
| Q35465763 | Comparative and functional genomics of legionella identified eukaryotic like proteins as key players in host-pathogen interactions |
| Q37900141 | Control of host cell phosphorylation by legionella pneumophila |
| Q38522634 | Creating a customized intracellular niche: subversion of host cell signaling by Legionella type IV secretion system effectors |
| Q47913696 | ER remodeling by the large GTPase atlastin promotes vacuolar growth of Legionella pneumophila. |
| Q47556585 | Eat Prey, Live: Dictyostelium discoideum As a Model for Cell-Autonomous Defenses. |
| Q41787047 | Endosomal and secretory markers of the Legionella-containing vacuole |
| Q28533449 | Exploring anti-bacterial compounds against intracellular Legionella |
| Q38436575 | Formation of a pathogen vacuole according to Legionella pneumophila: how to kill one bird with many stones. |
| Q47145454 | Formation of the Legionella Replicative Compartment at the Crossroads of Retrograde Trafficking. |
| Q38438441 | Functional analysis of novel Rab GTPases identified in the proteome of purified Legionella-containing vacuoles from macrophages. |
| Q39036824 | Icm/Dot-dependent inhibition of phagocyte migration by Legionella is antagonized by a translocated Ran GTPase activator. |
| Q35957502 | Identification and Characterization of msf, a Novel Virulence Factor in Haemophilus influenzae. |
| Q27679029 | Identification and Structural Characterization of a Legionella Phosphoinositide Phosphatase |
| Q34468990 | Identification of two Legionella pneumophila effectors that manipulate host phospholipids biosynthesis |
| Q36086515 | Implication of proteins containing tetratricopeptide repeats in conditional virulence phenotypes of Legionella pneumophila |
| Q37035919 | Implication of the VirD4 coupling protein of the Lvh type 4 secretion system in virulence phenotypes of Legionella pneumophila |
| Q38223317 | Inositol lipid phosphatases in membrane trafficking and human disease. |
| Q28551293 | Inter-kingdom Signaling by the Legionella Quorum Sensing Molecule LAI-1 Modulates Cell Migration through an IQGAP1-Cdc42-ARHGEF9-Dependent Pathway |
| Q37622087 | Intra-Species and Inter-Kingdom Signaling of Legionella pneumophila. |
| Q38143088 | Iron metabolism and resistance to infection by invasive bacteria in the social amoeba Dictyostelium discoideum. |
| Q39437877 | Legionella and Coxiella effectors: strength in diversity and activity |
| Q38587508 | Life Stage-specific Proteomes of Legionella pneumophila Reveal a Highly Differential Abundance of Virulence-associated Dot/Icm effectors |
| Q41893505 | Live-cell imaging of phosphoinositide dynamics and membrane architecture during Legionella infection |
| Q92876473 | Lowe syndrome-linked endocytic adaptors direct membrane cycling kinetics with OCRL in Dictyostelium discoideum |
| Q37264823 | LtpD is a novel Legionella pneumophila effector that binds phosphatidylinositol 3-phosphate and inositol monophosphatase IMPA1. |
| Q38206869 | Master manipulators: an update on Legionella pneumophila Icm/Dot translocated substrates and their host targets |
| Q37798551 | Modulation of Host Cell Function byLegionella pneumophilaType IV Effectors |
| Q37573765 | Molecular mimicry: an important virulence strategy employed by Legionella pneumophila to subvert host functions |
| Q33825611 | Molecular pathogenesis of infections caused by Legionella pneumophila |
| Q30513875 | Phosphatidylinositol 5-phosphatase oculocerebrorenal syndrome of Lowe protein (OCRL) controls actin dynamics during early steps of Listeria monocytogenes infection |
| Q89965569 | Phosphoinositides and the Fate of Legionella in Phagocytes |
| Q52336575 | Quantitative imaging flow cytometry of Legionella-infected Dictyostelium reveals the impact of retrograde trafficking on pathogen vacuole composition. |
| Q84514275 | Recognition of host proteins by Helicobacter cysteine-rich protein C |
| Q39549362 | Screening-level assays for potentially human-infectious environmental Legionella spp. |
| Q37849309 | Secretive bacterial pathogens and the secretory pathway. |
| Q92147009 | SopF, a phosphoinositide binding effector, promotes the stability of the nascent Salmonella-containing vacuole |
| Q27671332 | Structural basis for substrate recognition by a unique Legionella phosphoinositide phosphatase |
| Q43839416 | Structural insights into Legionella RidL-Vps29 retromer subunit interaction reveal displacement of the regulator TBC1D5. |
| Q28548314 | Structure of the Legionella Virulence Factor, SidC Reveals a Unique PI(4)P-Specific Binding Domain Essential for Its Targeting to the Bacterial Phagosome |
| Q92954156 | Study of Legionella Effector Domains Revealed Novel and Prevalent Phosphatidylinositol 3-Phosphate Binding Domains |
| Q26781334 | Subversion of Cell-Autonomous Immunity and Cell Migration by Legionella pneumophila Effectors |
| Q38643178 | Targeting of host organelles by pathogenic bacteria: a sophisticated subversion strategy |
| Q90681238 | The Legionella effector LtpM is a new type of phosphoinositide-activated glucosyltransferase |
| Q34298582 | The Legionella longbeachae Icm/Dot substrate SidC selectively binds phosphatidylinositol 4-phosphate with nanomolar affinity and promotes pathogen vacuole-endoplasmic reticulum interactions |
| Q54479914 | The Legionella pneumophila orphan sensor kinase LqsT regulates competence and pathogen-host interactions as a component of the LAI-1 circuit. |
| Q40868296 | The Salmonella effector SteA binds phosphatidylinositol 4-phosphate for subcellular targeting within host cells. |
| Q26862286 | The cellular and physiological functions of the Lowe syndrome protein OCRL1 |
| Q33846189 | The machinery at endoplasmic reticulum-plasma membrane contact sites contributes to spatial regulation of multiple Legionella effector proteins |
| Q38156244 | The natural alternative: protozoa as cellular models for Legionella infection |
| Q37848852 | The professional phagocyte Dictyostelium discoideum as a model host for bacterial pathogens |
| Q35499356 | The transcriptome of Legionella pneumophila-infected human monocyte-derived macrophages |
| Q47299307 | Type IV secretion in Gram-negative and Gram-positive bacteria |
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