| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2006PNAS..10310277L |
| P356 | DOI | 10.1073/PNAS.0601045103 |
| P932 | PMC publication ID | 1502448 |
| P698 | PubMed publication ID | 16801551 |
| P5875 | ResearchGate publication ID | 6982255 |
| P50 | author | David G Drubin | Q67213529 |
| P2093 | author name string | Jian Liu | |
| George Oster | |||
| Marko Kaksonen | |||
| P2860 | cites work | Cellular motions and thermal fluctuations: the Brownian ratchet | Q24531501 |
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| Ultrastructure of the yeast actin cytoskeleton and its association with the plasma membrane | Q27937819 | ||
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| Characteristics of a membrane reservoir buffering membrane tension | Q33178981 | ||
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| Snap-shots of clathrin-mediated endocytosis | Q34134438 | ||
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| Force generation by actin polymerization II: the elastic ratchet and tethered filaments | Q34180568 | ||
| Mattress model of lipid-protein interactions in membranes | Q34261688 | ||
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| Seeing is believing: imaging actin dynamics at single sites of endocytosis. | Q35832636 | ||
| Golgi and vacuolar membrane proteins reach the vacuole in vps1 mutant yeast cells via the plasma membrane. | Q36235242 | ||
| DNM1, a dynamin-related gene, participates in endosomal trafficking in yeast | Q36235878 | ||
| Interactions of WASp, myosin-I, and verprolin with Arp2/3 complex during actin patch assembly in fission yeast | Q36320972 | ||
| Yeast actin patches are networks of branched actin filaments. | Q36322528 | ||
| Microfilament or microtubule assembly or disassembly against a force | Q36368172 | ||
| Rapid constriction of lipid bilayers by the mechanochemical enzyme dynamin | Q38516317 | ||
| Effect of lipid characteristics on the structure of transmembrane proteins | Q40128431 | ||
| Endocytosis switch controlled by transmembrane osmotic pressure and phospholipid number asymmetry | Q40165109 | ||
| Three-dimensional visualization of coated vesicle formation in fibroblasts | Q41265279 | ||
| Neural Wiskott Aldrich Syndrome Protein (N-WASP) and the Arp2/3 complex are recruited to sites of clathrin-mediated endocytosis in cultured fibroblasts. | Q42829757 | ||
| Elastic properties of lipid bilayers: theory and possible experiments | Q44282845 | ||
| Adhesive switching of membranes: experiment and theory | Q46740147 | ||
| Generation of coated intermediates of clathrin-mediated endocytosis on protein-free liposomes | Q47802787 | ||
| Imaging coexisting fluid domains in biomembrane models coupling curvature and line tension | Q51808476 | ||
| Shape equations for axisymmetric vesicles: A clarification. | Q52377427 | ||
| Endocytosis and the development of cell polarity in yeast require a dynamic F-actin cytoskeleton. | Q52585063 | ||
| Formation and Interaction of Membrane Tubes | Q57252588 | ||
| P433 | issue | 27 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 10277-10282 | |
| P577 | publication date | 2006-06-26 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Endocytic vesicle scission by lipid phase boundary forces | |
| P478 | volume | 103 |
| Q37268027 | A cost-benefit analysis of the physical mechanisms of membrane curvature |
| Q39254453 | A dynamin-actin interaction is required for vesicle scission during endocytosis in yeast |
| Q27319900 | A feedback loop between dynamin and actin recruitment during clathrin-mediated endocytosis |
| Q37288049 | A possible effector role for the pleckstrin homology (PH) domain of dynamin |
| Q30480259 | ARF1-mediated actin polymerization produces movement of artificial vesicles |
| Q44287050 | Actin polymerization does not provide direct mechanical forces for vesicle fission during clathrin-mediated endocytosis. |
| Q86066307 | Actin-cytoskeleton rearrangement modulates proton-induced uptake |
| Q27930714 | Arp2 links autophagic machinery with the actin cytoskeleton |
| Q35311067 | Association of the endosomal sorting complex ESCRT-II with the Vps20 subunit of ESCRT-III generates a curvature-sensitive complex capable of nucleating ESCRT-III filaments |
| Q37615148 | Bending "on the rocks"--a cocktail of biophysical modules to build endocytic pathways |
| Q92021034 | Biophysics at the coffee shop: lessons learned working with George Oster |
| Q57274167 | Building endocytic pits without clathrin |
| Q27305513 | Cardiolipin's propensity for phase transition and its reorganization by dynamin-related protein 1 form a basis for mitochondrial membrane fission |
| Q61067846 | Chapter 14 Mechanisms of Polarized Sorting of GPI-anchored Proteins in Epithelial Cells |
| Q48048852 | Clathrin polymerization exhibits high mechano-geometric sensitivity. |
| Q33653693 | Clathrin-independent pathways of endocytosis |
| Q27022657 | Clathrin-mediated endocytosis in budding yeast |
| Q37814090 | Cytoskeletal dynamics in fission yeast: a review of models for polarization and division |
| Q42320409 | Design principles for robust vesiculation in clathrin-mediated endocytosis |
| Q35518792 | Determinants of endocytic membrane geometry, stability, and scission. |
| Q27448695 | Determining Biomembrane Bending Rigidities from Simulations of Modest Size |
| Q30525783 | Direct observation of proteolytic cleavage at the S2 site upon forced unfolding of the Notch negative regulatory region |
| Q27311333 | Disruption of microtubule network rescues aberrant actin comets in dynamin2-depleted cells |
| Q27937487 | Dissecting BAR domain function in the yeast Amphiphysins Rvs161 and Rvs167 during endocytosis |
| Q30010243 | Distinct roles for F-BAR proteins Cdc15p and Bzz1p in actin polymerization at sites of endocytosis in fission yeast |
| Q35548941 | Endocytic accessory factors and regulation of clathrin-mediated endocytosis |
| Q35229530 | Endocytic proteins drive vesicle growth via instability in high membrane tension environment |
| Q37686075 | Endocytosis unplugged: multiple ways to enter the cell |
| Q34256333 | Enhancement of cell membrane invaginations, vesiculation and uptake of macromolecules by protonation of the cell surface |
| Q37146947 | Exo70 generates membrane curvature for morphogenesis and cell migration |
| Q37742999 | Experimentalist meets theoretician: a tale of two scientific cultures |
| Q52861898 | Formation and dynamics of endoplasmic reticulum-like lipid nanotube networks. |
| Q42351671 | Friction Mediates Scission of Tubular Membranes Scaffolded by BAR Proteins. |
| Q27015677 | Function and regulation of the endosomal fusion and fission machineries |
| Q47844791 | General neck condition for the limit shape of budding vesicles. |
| Q36844065 | HPV16 and BPV1 infection can be blocked by the dynamin inhibitor dynasore |
| Q37767384 | Hijacking the endocytic machinery by microbial pathogens |
| Q38098817 | How to get out: ssRNA enveloped viruses and membrane fission |
| Q24634367 | Influenza virus M2 protein mediates ESCRT-independent membrane scission |
| Q92099546 | Interaction of Antimicrobial Lipopeptides with Bacterial Lipid Bilayers |
| Q38631692 | Interactions between the yeast SM22 homologue Scp1 and actin demonstrate the importance of actin bundling in endocytosis |
| Q41828407 | Landscape of finite-temperature equilibrium behaviour of curvature-inducing proteins on a bilayer membrane explored using a linearized elastic free energy model |
| Q37970879 | Lessons from yeast for clathrin-mediated endocytosis |
| Q36768730 | Lipid rafts and membrane traffic |
| Q54199238 | Lipid self-assembly and lectin-induced reorganization of the plasma membrane. |
| Q42842944 | Marko Kaksonen: tracking the inner secrets of endocytosis. Interview by Caitlin Sedwick |
| Q41888749 | Massive endocytosis driven by lipidic forces originating in the outer plasmalemmal monolayer: a new approach to membrane recycling and lipid domains. |
| Q37630761 | Mechanical requirements for membrane fission: common facts from various examples |
| Q46396409 | Mechanochemical action of the dynamin protein |
| Q33653535 | Mechanochemical crosstalk during endocytic vesicle formation |
| Q35827395 | Membrane Mechanics of Endocytosis in Cells with Turgor. |
| Q35007633 | Membrane budding |
| Q91596065 | Membrane constriction and thinning by sequential ESCRT-III polymerization |
| Q30400661 | Membrane fission by protein crowding |
| Q45324993 | Membrane vesiculation induced by proteins of the dengue virus envelope studied by molecular dynamics simulations |
| Q34456059 | Membrane-elasticity model of Coatless vesicle budding induced by ESCRT complexes |
| Q34611382 | Mesoscale computational studies of membrane bilayer remodeling by curvature-inducing proteins |
| Q28475440 | Minimal Mesoscale Model for Protein-Mediated Vesiculation in Clathrin-Dependent Endocytosis |
| Q58570548 | Modeling Membrane Curvature Generation due to Membrane⁻Protein Interactions |
| Q37296025 | Modulation of hydrogel nanoparticle intracellular trafficking by multivalent surface engineering with tumor targeting peptide |
| Q57176035 | Molecular mechanisms of force production in clathrin-mediated endocytosis |
| Q35106771 | Multiscale computational models in physical systems biology of intracellular trafficking |
| Q64099544 | Mutation of key lysine residues in the Insert B region of the yeast dynamin Vps1 disrupts lipid binding and causes defects in endocytosis |
| Q58450109 | Myosin VI and branched actin filaments mediate membrane constriction and fission of melanosomal tubule carriers |
| Q95278403 | Nanoparticle elasticity regulates phagocytosis and cancer cell uptake |
| Q28299215 | Nanoscale architecture of integrin-based cell adhesions |
| Q35050633 | On the modeling of endocytosis in yeast. |
| Q29620660 | Pathways of clathrin-independent endocytosis |
| Q37808481 | Physical aspects of COPI vesicle formation. |
| Q27931907 | PtdIns(4,5)P2 turnover is required for multiple stages during clathrin- and actin-dependent endocytic internalization |
| Q30498046 | Punctuated actin contractions during convergent extension and their permissive regulation by the non-canonical Wnt-signaling pathway. |
| Q55053004 | Rab and actomyosin-dependent fission of transport vesicles at the Golgi complex. |
| Q34014645 | Reconstituting ring-rafts in bud-mimicking topography of model membranes. |
| Q36528090 | Role of phosphoinositides at the neuronal synapse |
| Q33364563 | Shape transitions during clathrin-induced endocytosis |
| Q52600921 | Structure Versus Stochasticity-The Role of Molecular Crowding and Intrinsic Disorder in Membrane Fission. |
| Q35156394 | Systems biology and physical biology of clathrin-mediated endocytosis. |
| Q24318446 | The Arp2/3 activator WASH controls the fission of endosomes through a large multiprotein complex |
| Q27327832 | The mechanochemistry of endocytosis |
| Q90466747 | The role of traction in membrane curvature generation |
| Q38182154 | The yeast actin cytoskeleton. |
| Q56811373 | Timing of ESCRT-III protein recruitment and membrane scission during HIV-1 assembly |
| Q30585075 | Ultrastructural imaging of endocytic sites in Saccharomyces cerevisiae by transmission electron microscopy and immunolabeling |
| Q37359629 | Vesicle formation and endocytosis: function, machinery, mechanisms, and modeling |
| Q27000780 | Viral membrane scission |
| Q35170434 | Visualizing the functional architecture of the endocytic machinery. |
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