| scholarly article | Q13442814 |
| P50 | author | Chiara Zurzolo | Q42819052 |
| P2093 | author name string | Elise Delage | |
| P2860 | cites work | Sphingosine 1-phosphate induces filopodia formation through S1PR2 activation of ERM proteins | Q24302055 |
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| Tunneling nanotubes provide a unique conduit for intercellular transfer of cellular contents in human malignant pleural mesothelioma | Q27307288 | ||
| Structural basis of the myosin X PH1N-PH2-PH1C tandem as a specific and acute cellular PI(3,4,5)P3 sensor | Q27674679 | ||
| I-BAR domains, IRSp53 and filopodium formation | Q30157055 | ||
| Visualizing lipid raft dynamics and early signaling events during antigen receptor-mediated B-lymphocyte activation | Q30477557 | ||
| Different types of cell-to-cell connections mediated by nanotubular structures | Q30484103 | ||
| Dynamic imaging of mammalian neural tube closure | Q30560773 | ||
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| Surface analysis of lipids by mass spectrometry: more than just imaging | Q33457789 | ||
| A review of high-pressure freezing preparation techniques for correlative light and electron microscopy of the same cells and tissues | Q33503361 | ||
| Detection of lipid domains in model and cell membranes by fluorescence lifetime imaging microscopy | Q33522489 | ||
| Plasmodesmata: intercellular tunnels facilitating transport of macromolecules in plants | Q38078221 | ||
| Active remodeling of cortical actin regulates spatiotemporal organization of cell surface molecules. | Q39334584 | ||
| The role of cholesterol-sphingomyelin membrane nanodomains in the stability of intercellular membrane nanotubes | Q39346349 | ||
| Protruding membrane nanotubes: attachment of tubular protrusions to adjacent cells by several anchoring junctions | Q39696355 | ||
| Missing-in-metastasis and IRSp53 deform PI(4,5)P2-rich membranes by an inverse BAR domain-like mechanism | Q39734937 | ||
| Imaging lipid membrane domains with lipid-specific probes | Q39794454 | ||
| Molecular mechanisms of membrane deformation by I-BAR domain proteins. | Q39894096 | ||
| Multifaceted roles of tunneling nanotubes in intercellular communication. | Q42020402 | ||
| Myo10 is a key regulator of TNT formation in neuronal cells. | Q44631398 | ||
| Fluorescence lifetime imaging: association of cortical actin with a PIP3-rich membrane compartment. | Q50640526 | ||
| Possible role of flexible red blood cell membrane nanodomains in the growth and stability of membrane nanotubes. | Q50696169 | ||
| Membrane nanotubes in myeloid cells in the adult mouse cornea represent a novel mode of immune cell interaction. | Q50775904 | ||
| Curvature-induced accumulation of anisotropic membrane components and raft formation in cylindrical membrane protrusions. | Q51323734 | ||
| PtdIns(3,4,5)P₃ is a regulator of myosin-X localization and filopodia formation. | Q52604153 | ||
| Rafts defined: a report on the Keystone Symposium on Lipid Rafts and Cell Function. | Q55041886 | ||
| Actin is not required for nanotubular protrusions of primary astrocytes grown on metal nano-lawn | Q57373122 | ||
| Tunneling nanotubes: Emerging view of their molecular components and formation mechanisms | Q58450854 | ||
| On the role of membrane anisotropy and BAR proteins in the stability of tubular membrane structures | Q63979839 | ||
| Quantitative imaging of membrane lipid order in cells and organisms | Q82893043 | ||
| Hen or egg?: some thoughts on tunneling nanotubes | Q84758737 | ||
| Imaging lipid lateral organization in membranes with C-laurdan in a confocal microscope | Q34106567 | ||
| Prominin: a story of cholesterol, plasma membrane protrusions and human pathology. | Q34180122 | ||
| Protein-Lipid Interplay in Fusion and Fission of Biological Membranes | Q34267537 | ||
| Nanotubular highways for intercellular organelle transport | Q34298770 | ||
| Implications of lipid microdomains for membrane curvature, budding and fission | Q34309080 | ||
| The emerging field of lipidomics | Q34438156 | ||
| Phosphoinositides, key molecules for regulation of actin cytoskeletal organization and membrane traffic from the plasma membrane | Q34455391 | ||
| Lipid rafts and insulin signaling | Q34460792 | ||
| Shiga toxin induces tubular membrane invaginations for its uptake into cells | Q34719609 | ||
| Macrophage bridging conduit trafficking of HIV-1 through the endoplasmic reticulum and Golgi network | Q35083192 | ||
| Tunneling-nanotube development in astrocytes depends on p53 activation | Q35092637 | ||
| Mechanisms of membrane deformation | Q35189394 | ||
| Membrane organization and lipid rafts | Q35230032 | ||
| Lipid imaging with time-of-flight secondary ion mass spectrometry (ToF-SIMS). | Q35421692 | ||
| The role of actin bundling proteins in the assembly of filopodia in epithelial cells | Q35556999 | ||
| Cutting edge: Membrane nanotubes in vivo: a feature of MHC class II+ cells in the mouse cornea. | Q36083315 | ||
| Tunneling nanotubes: a new route for the exchange of components between animal cells | Q36791177 | ||
| Membrane lipid domains and rafts: current applications of fluorescence lifetime spectroscopy and imaging. | Q37250576 | ||
| Fluorescence correlation spectroscopy in membrane structure elucidation | Q37272797 | ||
| Cytoskeleton-membrane interactions in membrane raft structure | Q37445559 | ||
| Quantitative microscopy: protein dynamics and membrane organisation. | Q37470921 | ||
| Regulation of the actin cytoskeleton-plasma membrane interplay by phosphoinositides | Q37677924 | ||
| Intercellular nanotubes: insights from imaging studies and beyond | Q37694410 | ||
| Plasmodesmata viewed as specialised membrane adhesion sites | Q37799567 | ||
| Imaging plasmodesmata | Q37808961 | ||
| Curvature-driven lipid sorting in biomembranes | Q37855340 | ||
| Membrane shaping by the Bin/amphiphysin/Rvs (BAR) domain protein superfamily | Q37902570 | ||
| Plasmodesmata - membrane tunnels with attitude | Q37912664 | ||
| Applications of fluorescence lifetime spectroscopy and imaging to lipid domains in vivo | Q37977542 | ||
| Wiring through tunneling nanotubes--from electrical signals to organelle transfer | Q37991687 | ||
| Lipids of plant membrane rafts | Q38007229 | ||
| The lipid raft hypothesis revisited--new insights on raft composition and function from super-resolution fluorescence microscopy | Q38018567 | ||
| Signal transduction pathways involving phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate: convergences and divergences among eukaryotic kingdoms. | Q38043793 | ||
| Effects of phosphoinositides and their derivatives on membrane morphology and function | Q38053951 | ||
| Membrane domains and the "lipid raft" concept | Q38059721 | ||
| Tunneling nanotubes, an emerging intercellular communication route in development | Q38068038 | ||
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 504 | |
| P577 | publication date | 2013-12-10 | |
| P1433 | published in | Frontiers in Plant Science | Q27723840 |
| P1476 | title | Exploring the role of lipids in intercellular conduits: breakthroughs in the pipeline | |
| P478 | volume | 4 |
| Q36965212 | Drosophila cells use nanotube-like structures to transfer dsRNA and RNAi machinery between cells |
| Q38865440 | Identification and Characterization of Tunneling Nanotubes for Intercellular Trafficking |
| Q41874671 | Specialized membrane domains of plasmodesmata, plant intercellular nanopores |
| Q52837507 | Specific membrane lipid composition is important for plasmodesmata function in Arabidopsis. |
| Q48210238 | Sterols Modulate Cell-to-Cell Connectivity at Plasmodesmata |
| Q34995815 | Trypanosoma cruzi invasion is associated with trogocytosis |
| Q45723587 | Tunneling Nanotubes and Gap Junctions-Their Role in Long-Range Intercellular Communication during Development, Health, and Disease Conditions |
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