| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/BF01952099 |
| P698 | PubMed publication ID | 8988243 |
| P50 | author | Howard Riezman | Q28321917 |
| María Isabel Geli | Q58387065 | ||
| P2093 | author name string | L Hicke | |
| A Munn | |||
| P2860 | cites work | Coronin involved in phagocytosis: dynamics of particle-induced relocalization visualized by a green fluorescent protein Tag | Q70787193 |
| The epidermal growth factor receptor is covalently linked to ubiquitin | Q70851358 | ||
| The yeast multidrug transporter Pdr5 of the plasma membrane is ubiquitinated prior to endocytosis and degradation in the vacuole | Q70869179 | ||
| Involvement of endocytosis in catabolite inactivation of the transport systems in Saccharomyces cerevisiae | Q70869619 | ||
| Mechanism of down-regulation of c-kit receptor. Roles of receptor tyrosine kinase, phosphatidylinositol 3'-kinase, and protein kinase C | Q71661337 | ||
| Endocytosis and degradation of the yeast uracil permease under adverse conditions | Q72331973 | ||
| Differential localization of alpha-actinin and the 30 kD actin-bundling protein in the cleavage furrow, phagocytic cup, and contractile vacuole of Dictyostelium discoideum | Q72407312 | ||
| A protein-binding domain, EH, identified in the receptor tyrosine kinase substrate Eps15 and conserved in evolution | Q24563263 | ||
| Cholesterol controls the clustering of the glycophospholipid-anchored membrane receptor for 5-methyltetrahydrofolate | Q24678627 | ||
| Binding of α-factor pheromone to yeast a cells: Chemical and genetic evidence for an α-factor receptor | Q27929509 | ||
| The ABC-transporter Ste6 accumulates in the plasma membrane in a ubiquitinated form in endocytosis mutants. | Q27931357 | ||
| Endocytosis in yeast: evidence for the involvement of a small GTP-binding protein (Ypt7p) | Q27933262 | ||
| Actin cytoskeleton and budding pattern are altered in the yeast rvs161 mutant: the Rvs161 protein shares common domains with the brain protein amphiphysin | Q27934241 | ||
| Role of type I myosins in receptor-mediated endocytosis in yeast | Q27934380 | ||
| Transport through the yeast endocytic pathway occurs through morphologically distinct compartments and requires an active secretory pathway and Sec18p/N-ethylmaleimide-sensitive fusion protein | Q27934568 | ||
| Endocytosis is required for the growth of vacuolar H(+)-ATPase-defective yeast: identification of six new END genes | Q27934841 | ||
| Role of three rab5-like GTPases, Ypt51p, Ypt52p, and Ypt53p, in the endocytic and vacuolar protein sorting pathways of yeast | Q27935177 | ||
| end5, end6, and end7: mutations that cause actin delocalization and block the internalization step of endocytosis in Saccharomyces cerevisiae | Q27936750 | ||
| end3 and end4: two mutants defective in receptor-mediated and fluid-phase endocytosis in Saccharomyces cerevisiae | Q27938116 | ||
| Calcium-independent calmodulin requirement for endocytosis in yeast | Q27939244 | ||
| Partial purification and characterization of early and late endosomes from yeast. Identification of four novel proteins. | Q27939954 | ||
| Phosphatidylinositol 3-kinase encoded by yeast VPS34 gene essential for protein sorting | Q27940116 | ||
| A new vital stain for visualizing vacuolar membrane dynamics and endocytosis in yeast | Q28131611 | ||
| Autoimmunity in stiff-Man syndrome with breast cancer is targeted to the C-terminal region of human amphiphysin, a protein similar to the yeast proteins, Rvs167 and Rvs161 | Q28247444 | ||
| A role of amphiphysin in synaptic vesicle endocytosis suggested by its binding to dynamin in nerve terminals | Q28272772 | ||
| Signal-induced site-specific phosphorylation targets I kappa B alpha to the ubiquitin-proteasome pathway | Q28615706 | ||
| Dynamin self-assembles into rings suggesting a mechanism for coated vesicle budding | Q29616586 | ||
| Ubiquitination of a yeast plasma membrane receptor signals its ligand-stimulated endocytosis | Q29617390 | ||
| The ubiquitin-proteasome proteolytic pathway | Q29618638 | ||
| Induction of mutant dynamin specifically blocks endocytic coated vesicle formation | Q29620182 | ||
| Tubular membrane invaginations coated by dynamin rings are induced by GTP-gamma S in nerve terminals | Q29620183 | ||
| VPS27 controls vacuolar and endocytic traffic through a prevacuolar compartment in Saccharomyces cerevisiae | Q29620184 | ||
| Synthetic-lethal interactions identify two novel genes, SLA1 and SLA2, that control membrane cytoskeleton assembly in Saccharomyces cerevisiae | Q29620454 | ||
| Actin and fimbrin are required for the internalization step of endocytosis in yeast | Q29620527 | ||
| The END3 gene encodes a protein that is required for the internalization step of endocytosis and for actin cytoskeleton organization in yeast | Q29620819 | ||
| Signal-dependent membrane protein trafficking in the endocytic pathway | Q29622948 | ||
| Identification and molecular characterization of a yeast myosin I. | Q30193767 | ||
| A proline-rich protein, verprolin, involved in cytoskeletal organization and cellular growth in the yeast Saccharomyces cerevisiae | Q30194734 | ||
| Alteration of a yeast SH3 protein leads to conditional viability with defects in cytoskeletal and budding patterns | Q30194877 | ||
| Disruption of genes encoding subunits of yeast vacuolar H(+)-ATPase causes conditional lethality | Q33568063 | ||
| Characterization of genes required for protein sorting and vacuolar function in the yeast Saccharomyces cerevisiae | Q33569803 | ||
| Cell surface control of the multiubiquitination and deubiquitination of high-affinity immunoglobulin E receptors | Q34044055 | ||
| Potocytosis: Sequestration and Transport of Small Molecules by Caveolae | Q34233280 | ||
| Inhibition of apical but not basolateral endocytosis of ricin and folate in Caco-2 cells by cytochalasin D. | Q34317746 | ||
| Identification of a novel sequence mediating regulated endocytosis of the G protein-coupled alpha-pheromone receptor in yeast | Q34436938 | ||
| Metabolic instability and constitutive endocytosis of STE6, the a-factor transporter of Saccharomyces cerevisiae | Q34445875 | ||
| Endocytosis: what goes in and how? | Q35512533 | ||
| Protein transport to the vacuole and receptor-mediated endocytosis by clathrin heavy chain-deficient yeast | Q36218564 | ||
| Detection of an intermediate compartment involved in transport of alpha-factor from the plasma membrane to the vacuole in yeast | Q36223059 | ||
| Yeast clathrin has a distinctive light chain that is important for cell growth | Q36223581 | ||
| Protein kinase C activators inhibit receptor-mediated potocytosis by preventing internalization of caveolae | Q36233754 | ||
| Dictyostelium discoideum mutants with conditional defects in phagocytosis | Q36234424 | ||
| Dictyostelium discoideum mutants with temperature-sensitive defects in endocytosis | Q36234762 | ||
| Quantification and localization of phosphorylated myosin I isoforms in Acanthamoeba castellanii | Q36235873 | ||
| DNM1, a dynamin-related gene, participates in endosomal trafficking in yeast | Q36235878 | ||
| Dictyostelium myosin I double mutants exhibit conditional defects in pinocytosis | Q36236243 | ||
| Dictyostelium mutants lacking multiple classic myosin I isoforms reveal combinations of shared and distinct functions | Q36236763 | ||
| Tyrosine phosphorylation is required for Fc receptor-mediated phagocytosis in mouse macrophages | Q36361230 | ||
| Clathrin heavy chain is required for pinocytosis, the presence of large vacuoles, and development in Dictyostelium | Q36531861 | ||
| Clathrin facilitates the internalization of seven transmembrane segment receptors for mating pheromones in yeast | Q36534814 | ||
| The G protein beta subunit is essential for multiple responses to chemoattractants in Dictyostelium | Q36535746 | ||
| Endocytosis and vacuolar degradation of the plasma membrane-localized Pdr5 ATP-binding cassette multidrug transporter in Saccharomyces cerevisiae. | Q36555589 | ||
| Direct evidence for ligand-induced internalization of the yeast alpha-factor pheromone receptor | Q36669283 | ||
| Characterization of VPS34, a gene required for vacuolar protein sorting and vacuole segregation in Saccharomyces cerevisiae | Q36775602 | ||
| Endocytosis without clathrin (a minireview). | Q37324831 | ||
| Clathrin, adaptors, and sorting | Q37902930 | ||
| p34Cdc28-mediated control of Cln3 cyclin degradation | Q40021429 | ||
| The unconventional myosin encoded by the myoA gene plays a role in Dictyostelium motility | Q40365389 | ||
| The emergence of clathrin-independent pinocytic pathways. | Q40380617 | ||
| Molecular motors, membrane movements and physiology: emerging roles for myosins | Q40380628 | ||
| Signal propagation and regulation in the mating pheromone response pathway of the yeast Saccharomyces cerevisiae | Q40564659 | ||
| Regulation and function of the Rho subfamily of small GTPases | Q40757570 | ||
| Endocytosis and intracellular transport of protein toxins | Q40773756 | ||
| Life at the leading edge: the formation of cell protrusions | Q40800590 | ||
| Ubiquitination of the G1 cyclin Cln2p by a Cdc34p-dependent pathway. | Q40805517 | ||
| The ubiquitin conjugation system is required for ligand-induced endocytosis and degradation of the growth hormone receptor. | Q41076100 | ||
| Role of coated vesicles, microfilaments, and calmodulin in receptor-mediated endocytosis by cultured B lymphoblastoid cells | Q41274754 | ||
| Regulated internalization of caveolae | Q41418184 | ||
| Ligand-dependent polyubiquitination of c-kit gene product: a possible mechanism of receptor down modulation in M07e cells | Q41507534 | ||
| Ligand-induced internalization of the epidermal growth factor receptor is mediated by multiple endocytic codes analogous to the tyrosine motif found in constitutively internalized receptors | Q41527421 | ||
| Actin microfilaments play a critical role in endocytosis at the apical but not the basolateral surface of polarized epithelial cells | Q41576870 | ||
| A role for MARCKS, the alpha isozyme of protein kinase C and myosin I in zymosan phagocytosis by macrophages | Q41681324 | ||
| Novel proteins mediate an interaction between clathrin-coated vesicles and polymerizing actin filaments | Q41721865 | ||
| Ca(2+)-independent F-actin assembly and disassembly during Fc receptor-mediated phagocytosis in mouse macrophages. | Q42148799 | ||
| The tyrosine kinase substrate eps15 is constitutively associated with the plasma membrane adaptor AP-2 | Q42243078 | ||
| Regulation of inositol transport in Saccharomyces cerevisiae involves inositol-induced changes in permease stability and endocytic degradation in the vacuole | Q42488985 | ||
| Ubiquitination mediated by the Npi1p/Rsp5p ubiquitin-protein ligase is required for endocytosis of the yeast uracil permease | Q42517714 | ||
| Cis- and trans-acting functions required for endocytosis of the yeast pheromone receptors | Q42769697 | ||
| Sequestration of GPI-anchored proteins in caveolae triggered by cross-linking | Q42797660 | ||
| Two yeast mutants defective in endocytosis are defective in pheromone response | Q44214127 | ||
| The carboxy-terminal segment of the yeast alpha-factor receptor is a regulatory domain | Q46258852 | ||
| NPl1, an essential yeast gene involved in induced degradation of Gap1 and Fur4 permeases, encodes the Rsp5 ubiquitin-protein ligase | Q48070002 | ||
| Yeast Ypt51p and mammalian Rab5: counterparts with similar function in the early endocytic pathway. | Q52518895 | ||
| Myosin IB null mutants of Dictyostelium exhibit abnormalities in motility. | Q52862344 | ||
| Down regulation of the alpha-factor pheromone receptor in S. cerevisiae. | Q54424900 | ||
| Involvement of Ypt7p, a small GTPase, in traffic from late endosome to the vacuole in yeast | Q57179731 | ||
| Three clathrin-dependent budding steps and cell polarity | Q57179732 | ||
| Endocytosis in yeast: Several of the yeast secretory mutants are defective in endocytosis | Q57179748 | ||
| Macropinocytosis | Q58323386 | ||
| Myosin I is located at the leading edges of locomoting Dictyostelium amoebae | Q59087387 | ||
| Activation-induced ubiquitination of the T cell antigen receptor | Q67493859 | ||
| Ligand-induced polyubiquitination of the platelet-derived growth factor beta-receptor | Q67843215 | ||
| P433 | issue | 12 | |
| P304 | page(s) | 1033-1041 | |
| P577 | publication date | 1996-12-01 | |
| P1433 | published in | Experientia | Q21385347 |
| P1476 | title | Actin-, myosin- and ubiquitin-dependent endocytosis | |
| P478 | volume | 52 |
| Q36255680 | A large PEST-like sequence directs the ubiquitination, endocytosis, and vacuolar degradation of the yeast a-factor receptor |
| Q52533290 | A syntaxin homolog encoded by VAM3 mediates down-regulation of a yeast G protein-coupled receptor. |
| Q36914877 | A yeast t-SNARE involved in endocytosis |
| Q38670988 | ATP-dependent membrane assembly of F-actin facilitates membrane fusion |
| Q40826364 | Actin assembly plays a variable, but not obligatory role in receptor-mediated endocytosis in mammalian cells |
| Q47894804 | Actin microfilaments are essential for the cytological positioning and morphology of the Golgi complex |
| Q27940203 | Apg7p/Cvt2p is required for the cytoplasm-to-vacuole targeting, macroautophagy, and peroxisome degradation pathways |
| Q44956273 | Calmodulin transmitted through gap junctions stimulates endocytic incorporation of yolk precursors in insect oocytes |
| Q39673983 | Cofilin, but not profilin, is required for myosin-I-induced actin polymerization and the endocytic uptake in yeast |
| Q27939191 | Computationally driven, quantitative experiments discover genes required for mitochondrial biogenesis |
| Q27939843 | Distinct functions of calmodulin are required for the uptake step of receptor-mediated endocytosis in yeast: the type I myosin Myo5p is one of the calmodulin targets |
| Q27935469 | Functional interactions between the p35 subunit of the Arp2/3 complex and calmodulin in yeast |
| Q40397311 | Fusion between phagosomes, early and late endosomes: a role for actin in fusion between late, but not early endocytic organelles. |
| Q36080765 | Increased protein kinase or decreased PP2A activity bypasses sphingoid base requirement in endocytosis |
| Q37492524 | Independent trafficking of Ig-alpha/Ig-beta and mu-heavy chain is facilitated by dissociation of the B cell antigen receptor complex |
| Q52590334 | Internalization of tenecin 3 by a fungal cellular process is essential for its fungicidal effect on Candida albicans. |
| Q37387755 | Involvement of the cytoskeletal elements in articular cartilage homeostasis and pathology |
| Q41833065 | LUCID: A Quantitative Assay of ESCRT-Mediated Cargo Sorting into Multivesicular Bodies |
| Q45182655 | Modulation of the actin cytoskeleton via gelsolin regulates vacuolar H+-ATPase recycling |
| Q41670724 | Molecular mechanisms of endocytosis |
| Q32062433 | Molecular mechanisms underlying endocytosis and sorting of ErbB receptor tyrosine kinases |
| Q34201680 | Molecular requirements for the internalisation step of endocytosis: insights from yeast |
| Q30475781 | Morphology and dynamics of the endocytic pathway in Dictyostelium discoideum |
| Q36850044 | Morphology of the yeast endocytic pathway |
| Q27936376 | Mot3 is a transcriptional repressor of ergosterol biosynthetic genes and is required for normal vacuolar function in Saccharomyces cerevisiae |
| Q30483614 | Multiple functions for actin during filamentous growth of Saccharomyces cerevisiae |
| Q41747201 | Nonclassical protein sorting to the yeast vacuole |
| Q34004248 | Pathogenic mycobacteria disrupt the macrophage actin filament network |
| Q57179714 | Protein traffic in the yeast endocytic and vacuolar protein sorting pathways |
| Q42449969 | Regulated vacuole fusion and fission in Schizosaccharomyces pombe: an osmotic response dependent on MAP kinases |
| Q33637955 | Regulation of endosome fusion. |
| Q36924691 | Rho kinase-dependent CCL20 induced by dynamic compression of human chondrocytes. |
| Q27936332 | Rvs161p interacts with Fus2p to promote cell fusion in Saccharomyces cerevisiae |
| Q39488102 | Shotgun proteomics and network analysis of ubiquitin-related proteins from human breast carcinoma epithelial cells |
| Q36940667 | Specific sterols required for the internalization step of endocytosis in yeast |
| Q28365517 | Sphingoid base signaling via Pkh kinases is required for endocytosis in yeast |
| Q24642969 | Syndapin I, a synaptic dynamin-binding protein that associates with the neural Wiskott-Aldrich syndrome protein |
| Q24670221 | Syndapin isoforms participate in receptor-mediated endocytosis and actin organization |
| Q39687439 | Syndapins integrate N-WASP in receptor-mediated endocytosis. |
| Q24544126 | The BAR domain proteins: molding membranes in fission, fusion, and phagy |
| Q59285731 | The Chondrocyte Cytoskeleton in Mature Articular Cartilage: Structure and Distribution of Actin, Tubulin, and Vimentin Filaments |
| Q27938195 | The Vps4 C-terminal helix is a critical determinant for assembly and ATPase activity and has elements conserved in other members of the meiotic clade of AAA ATPases |
| Q27938721 | The WASP/Las17p-interacting protein Bzz1p functions with Myo5p in an early stage of endocytosis. |
| Q27933396 | The WASp homologue Las17p functions with the WIP homologue End5p/verprolin and is essential for endocytosis in yeast |
| Q35096685 | The Wiskott-Aldrich syndrome protein: forging the link between actin and cell activation |
| Q27318386 | The antimicrobial peptide histatin-5 causes a spatially restricted disruption on the Candida albicans surface, allowing rapid entry of the peptide into the cytoplasm |
| Q33890732 | The itinerary of a vesicle component, Aut7p/Cvt5p, terminates in the yeast vacuole via the autophagy/Cvt pathways |
| Q28146189 | Ubiquitin-related proteins regulate interaction of vimentin intermediate filaments with the plasma membrane |
| Q27938062 | Vacuole biogenesis in Saccharomyces cerevisiae: protein transport pathways to the yeast vacuole |
| Q36642347 | Vestiges of Ent3p/Ent5p function in the giardial epsin homolog |
| Q43452567 | Vps4 regulates a subset of protein interactions at the multivesicular endosome |
| Q90270739 | Yeast as a Model to Understand Actin-Mediated Cellular Functions in Mammals-Illustrated with Four Actin Cytoskeleton Proteins |
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