| scholarly article | Q13442814 |
| P2093 | author name string | Craig R Roy | |
| Sunny Shin | |||
| P2860 | cites work | Evidence in the Legionella pneumophila genome for exploitation of host cell functions and high genome plasticity | Q22122047 |
| Immune-like phagocyte activity in the social amoeba | Q24628848 | ||
| Legionella pneumophila inhibits macrophage apoptosis by targeting pro-death members of the Bcl2 protein family | Q24677004 | ||
| Flagellin-deficient Legionella mutants evade caspase-1- and Naip5-mediated macrophage immunity | Q25257710 | ||
| Rab proteins as membrane organizers | Q27860861 | ||
| A bifunctional bacterial protein links GDI displacement to Rab1 activation | Q28253847 | ||
| The Legionella pneumophila IcmSW complex interacts with multiple Dot/Icm effectors to facilitate type IV translocation | Q28471800 | ||
| IcmS-dependent translocation of SdeA into macrophages by the Legionella pneumophila type IV secretion system | Q28485634 | ||
| Legionella translocates an E3 ubiquitin ligase that has multiple U-boxes with distinct functions | Q28485639 | ||
| Cytoplasmic flagellin activates caspase-1 and secretion of interleukin 1beta via Ipaf | Q28506503 | ||
| Cytosolic flagellin requires Ipaf for activation of caspase-1 and interleukin 1beta in salmonella-infected macrophages | Q28594887 | ||
| Autophagosome formation: core machinery and adaptations | Q29547417 | ||
| Autophagy is a defense mechanism inhibiting BCG and Mycobacterium tuberculosis survival in infected macrophages | Q29547420 | ||
| Identification of novel loci involved in entry by Legionella pneumophila | Q30877506 | ||
| Temporal pore formation-mediated egress from macrophages and alveolar epithelial cells by Legionella pneumophila | Q30944261 | ||
| Phylogenetic characterization of Legionella-like endosymbiotic X-bacteria in Amoeba proteus: a proposal for 'Candidatus Legionella jeonii' sp. nov. | Q30976992 | ||
| A yeast genetic system for the identification and characterization of substrate proteins transferred into host cells by the Legionella pneumophila Dot/Icm system | Q33214421 | ||
| RNA interference analysis of Legionella in Drosophila cells: exploitation of early secretory apparatus dynamics | Q33241705 | ||
| Legionella pneumophila exploits PI(4)P to anchor secreted effector proteins to the replicative vacuole | Q33243973 | ||
| Sel1 repeat protein LpnE is a Legionella pneumophila virulence determinant that influences vacuolar trafficking | Q33300200 | ||
| Characterization of the major secreted zinc metalloprotease- dependent glycerophospholipid:cholesterol acyltransferase, PlaC, of Legionella pneumophila | Q33769080 | ||
| Legionella pneumophila pathogesesis: a fateful journey from amoebae to macrophages | Q33920176 | ||
| Pathogen effector protein screening in yeast identifies Legionella factors that interfere with membrane trafficking | Q33935172 | ||
| Regulators and effectors of the ARF GTPases. | Q33954573 | ||
| Legionella pneumophila major acid phosphatase and its role in intracellular infection | Q34005553 | ||
| Components of the Legionella pneumophila flagellar regulon contribute to multiple virulence traits, including lysosome avoidance and macrophage death | Q34034097 | ||
| Legionnaires' disease: isolation of a bacterium and demonstration of its role in other respiratory disease | Q34175679 | ||
| Characterization of the gene encoding the major secreted lysophospholipase A of Legionella pneumophila and its role in detoxification of lysophosphatidylcholine | Q34185826 | ||
| Yip3 catalyses the dissociation of endosomal Rab–GDI complexes | Q34271910 | ||
| Type II secretion: a protein secretion system for all seasons | Q34458508 | ||
| Identification of Legionella pneumophila-specific genes by genomic subtractive hybridization with Legionella micdadei and identification of lpnE, a gene required for efficient host cell entry | Q34491737 | ||
| Birc1e/Naip5 rapidly antagonizes modulation of phagosome maturation by Legionella pneumophila | Q40211602 | ||
| Anti-apoptotic signalling by the Dot/Icm secretion system of L. pneumophila | Q40243451 | ||
| Targeting of host Rab GTPase function by the intravacuolar pathogen Legionella pneumophila. | Q40258153 | ||
| Attachment and fusion of endoplasmic reticulum with vacuoles containing Legionella pneumophila | Q40293289 | ||
| Coxiella burnetii inhibits activation of host cell apoptosis through a mechanism that involves preventing cytochrome c release from mitochondria | Q40441498 | ||
| Escape of intracellular Shigella from autophagy | Q40485419 | ||
| A bacterial guanine nucleotide exchange factor activates ARF on Legionella phagosomes | Q40754890 | ||
| Legionella pneumophila replication vacuole formation involves rapid recruitment of proteins of the early secretory system | Q40764000 | ||
| Icm/dot-dependent upregulation of phagocytosis by Legionella pneumophila. | Q40766603 | ||
| Legionella pneumophila DotA protein is required for early phagosome trafficking decisions that occur within minutes of bacterial uptake | Q41033239 | ||
| The molecular ecology of legionellae | Q41129990 | ||
| LidA, a translocated substrate of the Legionella pneumophila type IV secretion system, interferes with the early secretory pathway | Q41897005 | ||
| The response regulator CpxR directly regulates expression of several Legionella pneumophila icm/dot components as well as new translocated substrates. | Q42032194 | ||
| Incomplete activation of macrophage apoptosis during intracellular replication of Legionella pneumophila. | Q42142487 | ||
| Legionella pneumophila genes that encode lipase and phospholipase C activities. | Q44052663 | ||
| Evidence for pore‐forming ability by Legionella pneumophila | Q44534416 | ||
| Activation of caspase-3 by the Dot/Icm virulence system is essential for arrested biogenesis of the Legionella-containing phagosome | Q44695321 | ||
| Membrane targeting of the small GTPase Rab9 is accompanied by nucleotide exchange | Q45345746 | ||
| Natural resistance to infection with Legionella pneumophila: chromosomal localization of the Lgn1 susceptibility gene | Q46270718 | ||
| The prepilin peptidase is required for protein secretion by and the virulence of the intracellular pathogen Legionella pneumophila | Q46308706 | ||
| Grouping of 20 reference strains of Legionella species by the growth ability within mouse and guinea pig macrophages | Q46520002 | ||
| Conjugative Transfer by the Virulence System of Legionella pneumophila | Q48040136 | ||
| The Legionella IcmS-IcmW protein complex is important for Dot/Icm-mediated protein translocation. | Q48153816 | ||
| Birc1e is the gene within the Lgn1 locus associated with resistance to Legionella pneumophila | Q48269403 | ||
| The neuronal apoptosis inhibitory protein (Naip) is expressed in macrophages and is modulated after phagocytosis and during intracellular infection with Legionella pneumophila | Q50122715 | ||
| Naip5 affects host susceptibility to the intracellular pathogen Legionella pneumophila | Q53944716 | ||
| Effects of an isogenic Zn-metalloprotease-deficient mutant of Legionella pneumophila in a guinea-pig pneumonia model | Q54203587 | ||
| The Genomic Sequence of the Accidental Pathogen Legionella pneumophila | Q57265781 | ||
| Bacterial interactions with the autophagic pathway | Q34539331 | ||
| Legionella effectors that promote nonlytic release from protozoa | Q34545894 | ||
| A microbial strategy to multiply in macrophages: the pregnant pause | Q34557138 | ||
| Regulation of Legionella phagosome maturation and infection through flagellin and host Ipaf. | Q34567184 | ||
| Members of a Legionella pneumophila family of proteins with ExoU (phospholipase A) active sites are translocated to target cells | Q34680988 | ||
| How does Legionella pneumophila exit the host cell? | Q34712599 | ||
| Macrophages rapidly transfer pathogens from lipid raft vacuoles to autophagosomes | Q35060254 | ||
| Cytosolic recognition of flagellin by mouse macrophages restricts Legionella pneumophila infection | Q35060264 | ||
| A Legionella pneumophila-translocated substrate that is required for growth within macrophages and protection from host cell death | Q35161315 | ||
| Legionella pneumophila type II secretome reveals unique exoproteins and a chitinase that promotes bacterial persistence in the lung | Q35539830 | ||
| Multiple substrates of the Legionella pneumophila Dot/Icm system identified by interbacterial protein transfer. | Q35554474 | ||
| The Legionella pneumophila effector SidJ is required for efficient recruitment of endoplasmic reticulum proteins to the bacterial phagosome. | Q35689306 | ||
| Genetic susceptibility and caspase activation in mouse and human macrophages are distinct for Legionella longbeachae and L. pneumophila | Q35783821 | ||
| Host cell killing and bacterial conjugation require overlapping sets of genes within a 22-kb region of the Legionella pneumophila genome. | Q35880737 | ||
| Chlamydia and apoptosis: life and death decisions of an intracellular pathogen. | Q35892057 | ||
| Coxiella burnetii inhibits apoptosis in human THP-1 cells and monkey primary alveolar macrophages | Q35947318 | ||
| Naip5/Birc1e and susceptibility to Legionella pneumophila | Q36151441 | ||
| Legionella pneumophila inhibits acidification of its phagosome in human monocytes | Q36212159 | ||
| NF-kappaB translocation prevents host cell death after low-dose challenge by Legionella pneumophila. | Q36228869 | ||
| Legionella pneumophila type II protein secretion promotes virulence in the A/J mouse model of Legionnaires' disease pneumonia | Q36229196 | ||
| The Legionnaires' disease bacterium (Legionella pneumophila) inhibits phagosome-lysosome fusion in human monocytes | Q36348251 | ||
| Formation of a novel phagosome by the Legionnaires' disease bacterium (Legionella pneumophila) in human monocytes | Q36349063 | ||
| Legionella subvert the functions of Rab1 and Sec22b to create a replicative organelle. | Q36399499 | ||
| Inflammasome adaptors and sensors: intracellular regulators of infection and inflammation | Q36691082 | ||
| Legionnaires' disease bacterium (Legionella pneumophila) multiples intracellularly in human monocytes | Q37027949 | ||
| Identification of a Legionella pneumophila locus required for intracellular multiplication in human macrophages | Q37246061 | ||
| Macrophages from mice with the restrictive Lgn1 allele exhibit multifactorial resistance to Legionella pneumophila | Q37582843 | ||
| Secreted enzymatic activities of wild-type and pilD-deficient Legionella pneumophila | Q39514957 | ||
| Phagocytosis of wild-type Legionella pneumophila occurs through a wortmannin-insensitive pathway | Q39521625 | ||
| Evidence for acquisition of Legionella type IV secretion substrates via interdomain horizontal gene transfer | Q39614711 | ||
| icmT is essential for pore formation-mediated egress of Legionella pneumophila from mammalian and protozoan cells. | Q39653596 | ||
| The Dot/Icm type IV secretion system of Legionella pneumophila is essential for the induction of apoptosis in human macrophages. | Q39654350 | ||
| Legionella pneumophila proteins that regulate Rab1 membrane cycling | Q40064228 | ||
| The response regulator PmrA is a major regulator of the icm/dot type IV secretion system in Legionella pneumophila and Coxiella burnetii | Q40170771 | ||
| P433 | issue | 6 | |
| P921 | main subject | Legionella pneumophila | Q147885 |
| P304 | page(s) | 1209-1220 | |
| P577 | publication date | 2008-03-17 | |
| P13046 | publication type of scholarly work | review article | Q7318358 |
| P1433 | published in | Cellular Microbiology | Q1921948 |
| P1476 | title | Host cell processes that influence the intracellular survival of Legionella pneumophila | |
| P478 | volume | 10 |
| Q26996022 | A role for altered phagosome maturation in the long-term persistence of Helicobacter pylori infection |
| Q34953095 | A type II secreted RNase of Legionella pneumophila facilitates optimal intracellular infection of Hartmannella vermiformis |
| Q37355895 | Actin dynamics and Rho GTPases regulate the size and formation of parasitophorous vacuoles containing Coxiella burnetii |
| Q34298593 | Alveolar macrophages and neutrophils are the primary reservoirs for Legionella pneumophila and mediate cytosolic surveillance of type IV secretion. |
| Q35152952 | Amoebal endosymbiont Neochlamydia genome sequence illuminates the bacterial role in the defense of the host amoebae against Legionella pneumophila |
| Q34040311 | Analysis of phagosomal proteomes: From latex‐bead to bacterial phagosomes |
| Q33533325 | Analysis of the Legionella longbeachae genome and transcriptome uncovers unique strategies to cause Legionnaires' disease |
| Q34058101 | Anaplasma phagocytophilum APH_0032 is expressed late during infection and localizes to the pathogen-occupied vacuolar membrane |
| Q34536758 | Apoptosis-associated speck-like protein (ASC) controls Legionella pneumophila infection in human monocytes |
| Q37902903 | Bacterial Effector-Involved Temporal and Spatial Regulation by Hijack of the Host Ubiquitin Pathway |
| Q28384971 | Bacterial virulence traits: A potential area of study for drug development |
| Q36583086 | Caspase-11 stimulates rapid flagellin-independent pyroptosis in response to Legionella pneumophila |
| Q39744617 | Characterization of a spontaneous avirulent mutant of Legionella pneumophila Serogroup 6: evidence of DotA and flagellin involvement in the loss of virulence |
| Q28475654 | Chemical genetics reveals bacterial and host cell functions critical for type IV effector translocation by Legionella pneumophila |
| Q48054507 | Ciliate ingestion and digestion: flow cytometric measurements and regrowth of a digestion-resistant Campylobacter jejuni. |
| Q35465763 | Comparative and functional genomics of legionella identified eukaryotic like proteins as key players in host-pathogen interactions |
| Q39103317 | Complete and ubiquitinated proteome of the Legionella-containing vacuole within human macrophages |
| Q36637597 | Computational modeling and experimental validation of the Legionella and Coxiella virulence-related type-IVB secretion signal |
| Q37264023 | Contribution of phosphatidylserine to membrane surface charge and protein targeting during phagosome maturation. |
| Q38019883 | Coxiella burnetii Secretion Systems |
| Q34283480 | Coxiella burnetii type IVB secretion system region I genes are expressed early during the infection of host cells |
| Q27665064 | Crystal Structure of Legionella DotD: Insights into the Relationship between Type IVB and Type II/III Secretion Systems |
| Q40986405 | Divergent evolution of Di-lysine ER retention vs. farnesylation motif-mediated anchoring of the AnkB virulence effector to the Legionella-containing vacuolar membrane. |
| Q41787047 | Endosomal and secretory markers of the Legionella-containing vacuole |
| Q35029058 | Exploitation of Host Polyubiquitination Machinery through Molecular Mimicry by Eukaryotic-Like Bacterial F-Box Effectors |
| Q34044433 | Exploitation of conserved eukaryotic host cell farnesylation machinery by an F-box effector of Legionella pneumophila |
| Q28655510 | Genetics of Coxiella Burnetii : On the Path of Specialization |
| Q33480961 | Genome-scale identification of Legionella pneumophila effectors using a machine learning approach |
| Q35623309 | Genomic analysis of a ginger pathogen Bacillus pumilus providing the understanding to the pathogenesis and the novel control strategy |
| Q34764797 | Helicobacter pylori phagosome maturation in primary human macrophages. |
| Q35028893 | Host-mediated post-translational prenylation of novel dot/icm-translocated effectors of legionella pneumophila |
| Q41908165 | Identification of Legionella pneumophila effectors regulated by the LetAS-RsmYZ-CsrA regulatory cascade, many of which modulate vesicular trafficking |
| Q36086515 | Implication of Proteins Containing Tetratricopeptide Repeats in Conditional Virulence Phenotypes of Legionella pneumophila |
| Q40332816 | Indispensable role for the eukaryotic-like ankyrin domains of the ankyrin B effector of Legionella pneumophila within macrophages and amoebae |
| Q39739676 | Induction of human β-defensin-2 in pulmonary epithelial cells by Legionella pneumophila: involvement of TLR2 and TLR5, p38 MAPK, JNK, NF-κB, and AP-1. |
| Q33545239 | Inhibition of host vacuolar H+-ATPase activity by a Legionella pneumophila effector. |
| Q34279193 | Inhibition of pathogen-induced apoptosis by a Coxiella burnetii type IV effector protein |
| Q92912410 | Interaction of the Ankyrin H Core Effector of Legionella with the Host LARP7 Component of the 7SK snRNP Complex |
| Q33870965 | Isolation of F. novicida-Containing Phagosome from Infected Human Monocyte Derived Macrophages. |
| Q39915159 | Large-scale identification of Legionella pneumophila Dot/Icm substrates that modulate host cell vesicle trafficking pathways |
| Q35075799 | Lcl of Legionella pneumophila is an immunogenic GAG binding adhesin that promotes interactions with lung epithelial cells and plays a crucial role in biofilm formation. |
| Q35084478 | Legionella Pneumophila Transcriptome during Intracellular Multiplication in Human Macrophages |
| Q40111940 | Legionella Pneumophila and Dendrimers-Mediated Antisense Therapy |
| Q33769572 | Legionella metaeffector exploits host proteasome to temporally regulate cognate effector. |
| Q33842112 | Legionella pneumophila 6S RNA optimizes intracellular multiplication |
| Q30155870 | Legionella pneumophila LbtU Acts as a Novel, TonB-Independent Receptor for the Legiobactin Siderophore |
| Q34702213 | Legionella pneumophila infection of Drosophila S2 cells induces only minor changes in mitochondrial dynamics |
| Q41998921 | Legionella pneumophila secretes an endoglucanase that belongs to the family-5 of glycosyl hydrolases and is dependent upon type II secretion |
| Q37943875 | Legionella secreted effectors and innate immune responses. |
| Q82900175 | Legionella—Every Infection Preventionist's Dream—Or Is It? |
| Q39700988 | Leishmania parasitophorous vacuoles interact continuously with the host cell's endoplasmic reticulum; parasitophorous vacuoles are hybrid compartments |
| Q33530689 | LnaB: a Legionella pneumophila activator of NF-kappaB. |
| Q36411018 | Lysine11-Linked Polyubiquitination of the AnkB F-Box Effector of Legionella pneumophila |
| Q36220103 | MTOR-Driven Metabolic Reprogramming Regulates Legionella pneumophila Intracellular Niche Homeostasis. |
| Q37590310 | Many substrates and functions of type II secretion: lessons learned from Legionella pneumophila |
| Q36994631 | Metabolic host responses to infection by intracellular bacterial pathogens |
| Q46238652 | Metformin Mediates Protection against Legionella Pneumonia through Activation of AMPK and Mitochondrial Reactive Oxygen Species. |
| Q35029116 | Molecular Detection of Legionella: Moving on From mip. |
| Q27658750 | Molecular mechanism of elongation factor 1A inhibition by a Legionella pneumophila glycosyltransferase |
| Q21131567 | Molecular mimicry by an F-box effector of Legionella pneumophila hijacks a conserved polyubiquitination machinery within macrophages and protozoa |
| Q33557896 | Mouse macrophages are permissive to motile Legionella species that fail to trigger pyroptosis |
| Q34714303 | NOD1 and NOD2 regulation of pulmonary innate immunity to Legionella pneumophila |
| Q35997064 | Neutrophil and Alveolar Macrophage-Mediated Innate Immune Control of Legionella pneumophila Lung Infection via TNF and ROS |
| Q83391780 | Oligonucleotides stimulate genomic alterations of Legionella pneumophila |
| Q35145091 | Parasite fate and involvement of infected cells in the induction of CD4+ and CD8+ T cell responses to Toxoplasma gondii |
| Q34012244 | Polar localization of the Coxiella burnetii type IVB secretion system |
| Q90316953 | Potential Role of Gr-1+ CD8+ T Lymphocytes as a Source of Interferon-γ and M1/M2 Polarization during the Acute Phase of Murine Legionella pneumophila Pneumonia |
| Q36728043 | Primary Role for Toll-Like Receptor-Driven Tumor Necrosis Factor Rather than Cytosolic Immune Detection in Restricting Coxiella burnetii Phase II Replication within Mouse Macrophages |
| Q34931764 | Protein kinase LegK2 is a type IV secretion system effector involved in endoplasmic reticulum recruitment and intracellular replication of Legionella pneumophila |
| Q39432028 | Pulmonary collectins protect macrophages against pore-forming activity of Legionella pneumophila and suppress its intracellular growth |
| Q37256486 | Purification of Legiobactin and importance of this siderophore in lung infection by Legionella pneumophila |
| Q26852008 | Regulation of bacterial virulence by Csr (Rsm) systems |
| Q37157034 | SigmaS controls multiple pathways associated with intracellular multiplication of Legionella pneumophila |
| Q35155330 | Small Regulatory RNA and Legionella pneumophila. |
| Q27678042 | Structural Insights into a Unique Legionella pneumophila Effector LidA Recognizing Both GDP and GTP Bound Rab1 in Their Active State |
| Q43173562 | Surface translocation by Legionella pneumophila: a form of sliding motility that is dependent upon type II protein secretion. |
| Q37270179 | Survival of the fittest: how Brucella strains adapt to their intracellular niche in the host |
| Q33370857 | Synergistic contribution of the Legionella pneumophila lqs genes to pathogen-host interactions |
| Q36760404 | Temporal transcriptional response during infection of type II alveolar epithelial cells with Francisella tularensis live vaccine strain (LVS) supports a general host suppression and bacterial uptake by macropinocytosis |
| Q35366571 | The Coxiella burnetii Dot/Icm System Creates a Comfortable Home through Lysosomal Renovation |
| Q37232712 | The Coxiella burnetii ankyrin repeat domain-containing protein family is heterogeneous, with C-terminal truncations that influence Dot/Icm-mediated secretion |
| Q36223568 | The Influence of Programmed Cell Death in Myeloid Cells on Host Resilience to Infection with Legionella pneumophila or Streptococcus pyogenes. |
| Q38332211 | The Rab1 GTPase of Sciaenops ocellatus modulates intracellular bacterial infection |
| Q37127752 | The Salmonella pathogenicity island 2-encoded type III secretion system is essential for the survival of Salmonella enterica serovar Typhimurium in free-living amoebae |
| Q28471760 | The TolC protein of Legionella pneumophila plays a major role in multi-drug resistance and the early steps of host invasion |
| Q37608923 | The evolutionary conundrum of pathogen mimicry |
| Q33474813 | The glyceraldehyde-3-phosphate dehydrogenase and the small GTPase Rab 2 are crucial for Brucella replication |
| Q39364666 | The human apoptosis inhibitor NAIP induces pyroptosis in macrophages infected with Legionella pneumophila |
| Q40353336 | Tractable Mammalian Cell Infections with Protozoan-primed Bacteria |
| Q43045071 | Two Fis regulators directly repress the expression of numerous effector-encoding genes in Legionella pneumophila |
| Q28474072 | Type IV secretion-dependent activation of host MAP kinases induces an increased proinflammatory cytokine response to Legionella pneumophila |
| Q37899756 | Type IVB Secretion Systems of Legionella and Other Gram-Negative Bacteria. |
| Q35807664 | Vacuolar pathogens value membrane integrity. |
Search more.