scholarly article | Q13442814 |
P2093 | author name string | Yang Li | |
Keith Ireton | |||
Luciano A Rigano | |||
Hoan Van Ngo | |||
Manmeet Bhalla | |||
Georgina C Dowd | |||
Roman Mortuza | |||
P2860 | cites work | Salmonella-directed recruitment of new membrane to invasion foci via the host exocyst complex | Q24336355 |
Membrane fusion: grappling with SNARE and SM proteins | Q24633113 | ||
Listeria monocytogenes exploits normal host cell processes to spread from cell to cell | Q24680571 | ||
The Exocyst at a Glance | Q26799386 | ||
Exorcising the exocyst complex | Q26824772 | ||
Structural details of human tuba recruitment by InlC of Listeria monocytogenes elucidate bacterial cell-cell spreading | Q27687946 | ||
Rabs and the exocyst in ciliogenesis, tubulogenesis and beyond | Q28000050 | ||
Visualizing secretion and synaptic transmission with pH-sensitive green fluorescent proteins | Q28276992 | ||
Activity-induced synaptic capture and exocytosis of the neuronal serine protease neurotrypsin | Q28585465 | ||
Lifeact: a versatile marker to visualize F-actin | Q29547604 | ||
The bacterial virulence factor InlC perturbs apical cell junctions and promotes cell-to-cell spread of Listeria. | Q30157116 | ||
Exo70 stimulates the Arp2/3 complex for lamellipodia formation and directional cell migration | Q30524358 | ||
Arp2/3-mediated actin-based motility: a tail of pathogen abuse | Q30572619 | ||
Characterization of the enterocyte-like brush border cytoskeleton of the C2BBe clones of the human intestinal cell line, Caco-2 | Q33200951 | ||
Mechanism of actin-based motility. | Q33948744 | ||
Listeria pathogenesis and molecular virulence determinants | Q33975740 | ||
The use of pHluorins for optical measurements of presynaptic activity | Q34174162 | ||
Listeria monocytogenes antagonizes the human GTPase Cdc42 to promote bacterial spread | Q34294183 | ||
Tethering the assembly of SNARE complexes | Q34377311 | ||
Surface traffic of dendritic CaV1.2 calcium channels in hippocampal neurons. | Q35885583 | ||
An emergency response team for membrane repair | Q36146942 | ||
Ral GTPases regulate neurite branching through GAP-43 and the exocyst complex | Q36320505 | ||
Molecular mechanisms of cell-cell spread of intracellular bacterial pathogens | Q37058655 | ||
Rab4 and cellubrevin define different early endosome populations on the pathway of transferrin receptor recycling | Q37356004 | ||
Regulation of glucose transport by insulin: traffic control of GLUT4. | Q38012259 | ||
In vitro and in vivo models to study human listeriosis: mind the gap. | Q38154361 | ||
The Genetics of Enteropathogenic Escherichia coli Virulence | Q39022237 | ||
Actin-based motility and cell-to-cell spread of bacterial pathogens. | Q39044663 | ||
Routes and machinery of primary cilium biogenesis | Q39380506 | ||
M-Sec promotes membrane nanotube formation by interacting with Ral and the exocyst complex | Q39771216 | ||
A role for host cell exocytosis in InlB-mediated internalisation of Listeria monocytogenes. | Q40119198 | ||
Staphylococcus aureus recruits Cdc42GAP through recycling endosomes and the exocyst to invade human endothelial cells. | Q40696966 | ||
Actin-based motility is sufficient for bacterial membrane protrusion formation and host cell uptake | Q41474918 | ||
Novel ecto-tagged integrins reveal their trafficking in live cells | Q41701308 | ||
Rab11 Regulates the Mast Cell Exocytic Response | Q41865260 | ||
A molecular network for de novo generation of the apical surface and lumen | Q42116509 | ||
Exo70 interacts with the Arp2/3 complex and regulates cell migration | Q42833931 | ||
Focal exocytosis of VAMP3-containing vesicles at sites of phagosome formation | Q42919576 | ||
Host endoplasmic reticulum COPII proteins control cell-to-cell spread of the bacterial pathogen Listeria monocytogenes | Q43159984 | ||
LST1 promotes the assembly of a molecular machinery responsible for tunneling nanotube formation | Q44540388 | ||
A noncanonical postsynaptic transport route for a GPCR belonging to the serotonin receptor family. | Q48254347 | ||
Recycling endosomes undergo rapid closure of a fusion pore on exocytosis in neuronal dendrites. | Q48280805 | ||
cell-to-cell spread in epithelia is heterogeneous and dominated by rare pioneer bacteria | Q61799281 | ||
Listeriosis | Q63244934 | ||
Listeria monocytogenes in Foods | Q90752942 | ||
The Exocyst: Dynamic Machine or Static Tethering Complex? | Q91539598 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 7 | |
P921 | main subject | Listeria monocytogenes | Q292015 |
exocytosis | Q323426 | ||
P304 | page(s) | 3789-3796 | |
P577 | publication date | 2020-02-03 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Listeria monocytogenes exploits host exocytosis to promote cell-to-cell spread | |
P478 | volume | 117 |
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