scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0960-9822(01)00097-5 |
P698 | PubMed publication ID | 11267868 |
P50 | author | Igor Weber | Q41625182 |
Richard I. Tuxworth | Q42250312 | ||
P2093 | author name string | D R Soll | |
G Gerisch | |||
M A Titus | |||
D Wessels | |||
G C Addicks | |||
P2860 | cites work | Defective myosin VIIA gene responsible for Usher syndrome type 1B | Q24314638 |
A 130-kDa plasma membrane glycoprotein involved in Dictyostelium phagocytosis | Q71591182 | ||
Three-dimensional dynamics of pseudopod formation and the regulation of turning during the motility cycle of Dictyostelium | Q72459112 | ||
Discrete interactions in cell adhesion measured by single-molecule force spectroscopy | Q73897136 | ||
G protein signaling events are activated at the leading edge of chemotactic cells | Q77431001 | ||
Expression in cochlea and retina of myosin VIIa, the gene product defective in Usher syndrome type 1B | Q24562934 | ||
Vezatin, a novel transmembrane protein, bridges myosin VIIA to the cadherin-catenins complex | Q24597349 | ||
Actin-based cell motility and cell locomotion | Q28276582 | ||
The FERM domain: a unique module involved in the linkage of cytoplasmic proteins to the membrane | Q28284187 | ||
Interaction of plasma membrane fibronectin receptor with talin--a transmembrane linkage | Q28285095 | ||
Molecular cloning and domain structure of human myosin-VIIa, the gene product defective in Usher syndrome 1B | Q28294301 | ||
Improved green fluorescence | Q28307219 | ||
A type VII myosin encoded by the mouse deafness gene shaker-1 | Q28512902 | ||
Mechanisms of phagocytosis in macrophages | Q29618100 | ||
Directed actin polymerization is the driving force for epithelial cell-cell adhesion | Q29618861 | ||
Myosin I overexpression impairs cell migration | Q30176635 | ||
ERM proteins in cell adhesion and membrane dynamics | Q33632981 | ||
Molecular motors: sensing a function for myosin-VIIa | Q33780811 | ||
Subcellular localization of moesin in dynamic filopodia, retraction fibers, and other structures involved in substrate exploration, attachment, and cell-cell contacts | Q34301673 | ||
Mechanism of phagocytosis in Dictyostelium discoideum: phagocytosis is mediated by different recognition sites as disclosed by mutants with altered phagocytotic properties | Q36203754 | ||
Generation and characterization of Dictyostelium cells deficient in a myosin I heavy chain isoform | Q36223137 | ||
Dictyostelium discoideum mutants with temperature-sensitive defects in endocytosis | Q36234762 | ||
Ezrin promotes morphogenesis of apical microvilli and basal infoldings in retinal pigment epithelium | Q36326132 | ||
Perturbation of cell adhesion and microvilli formation by antisense oligonucleotides to ERM family members | Q36534860 | ||
Dynamics of antigenic membrane sites relating to cell aggregation in Dictyostelium discoideum | Q41165329 | ||
Disruption of the talin gene compromises focal adhesion assembly in undifferentiated but not differentiated embryonic stem cells | Q41815268 | ||
Studies on the mechanism of phagocytosis. I. Requirements for circumferential attachment of particle-bound ligands to specific receptors on the macrophage plasma membrane | Q41867175 | ||
A talin homologue of Dictyostelium rapidly assembles at the leading edge of cells in response to chemoattractant | Q42019044 | ||
DAip1, a Dictyostelium homologue of the yeast actin-interacting protein 1, is involved in endocytosis, cytokinesis, and motility | Q42173274 | ||
Talin-null cells of Dictyostelium are strongly defective in adhesion to particle and substrate surfaces and slightly impaired in cytokinesis | Q42815465 | ||
A transformation vector for dictyostelium discoideum with a new selectable marker bsr. | Q43169667 | ||
Radixin is a component of hepatocyte microvilli in situ | Q46381117 | ||
Mariner is defective in myosin VIIA: a zebrafish model for human hereditary deafness | Q47073772 | ||
A class VII unconventional myosin is required for phagocytosis | Q50123403 | ||
Image processing for combined bright-field and reflection interference contrast video microscopy. | Q52263677 | ||
Phg1p is a nine-transmembrane protein superfamily member involved in dictyostelium adhesion and phagocytosis. | Q52540497 | ||
Myosin IB null mutants of Dictyostelium exhibit abnormalities in motility. | Q52862344 | ||
A micromethod for routine measurement of cell agglutination and dissociation | Q53890642 | ||
Myosin I is located at the leading edges of locomoting Dictyostelium amoebae | Q59087387 | ||
The dissociation of the attachment and ingestion phases of phagocytosis by macrophages | Q69993112 | ||
Coronin involved in phagocytosis: dynamics of particle-induced relocalization visualized by a green fluorescent protein Tag | Q70787193 | ||
A Dictyostelium myosin I plays a crucial role in regulating the frequency of pseudopods formed on the substratum | Q71574861 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cell adhesion | Q187640 |
P304 | page(s) | 318-329 | |
P577 | publication date | 2001-03-01 | |
P1433 | published in | Current Biology | Q1144851 |
P1476 | title | A role for myosin VII in dynamic cell adhesion | |
P478 | volume | 11 |
Q30476015 | A Rab21/LIM-only/CH-LIM complex regulates phagocytosis via both activating and inhibitory mechanisms |
Q28211256 | A human homologue of Drosophila kelch associates with myosin-VIIa in specialized adhesion junctions |
Q50973038 | A minimal physical model captures the shapes of crawling cells. |
Q30482736 | A myosin motor that selects bundled actin for motility |
Q28505722 | Abnormal phagocytosis by retinal pigmented epithelium that lacks myosin VIIa, the Usher syndrome 1B protein |
Q30494552 | An unconventional myosin required for cell polarization and chemotaxis |
Q30500494 | Anatomical and molecular design of the Drosophila antenna as a flagellar auditory organ |
Q51981447 | Assessment of myosin II, Va, VI and VIIa loss of function on endocytosis and endocytic vesicle motility in bone marrow-derived dendritic cells. |
Q33819253 | Blebbistatin and blebbistatin-inactivated myosin II inhibit myosin II-independent processes in Dictyostelium. |
Q58599192 | Brush border protocadherin CDHR2 promotes the elongation and maximized packing of microvilli in vivo |
Q35941444 | Caenorhabditis elegans UNC-98, a C2H2 Zn finger protein, is a novel partner of UNC-97/PINCH in muscle adhesion complexes |
Q39646226 | Calreticulin and calnexin in the endoplasmic reticulum are important for phagocytosis |
Q34258478 | Cell adhesion: ushering in a new understanding of myosin VII. |
Q27312435 | Cell substratum adhesion during early development of Dictyostelium discoideum |
Q39278356 | Characterization of a myosin VII MyTH/FERM domain. |
Q35010878 | Conserved features of endocytosis in Dictyostelium |
Q27333700 | Creatine kinase-mediated ATP supply fuels actin-based events in phagocytosis |
Q35801852 | Cryptococcus neoformans virulence is enhanced after growth in the genetically malleable host Dictyostelium discoideum |
Q30155912 | Curvature recognition and force generation in phagocytosis. |
Q35210316 | Dictyostelium discoideum adhesion and motility under shear flow: experimental and theoretical approaches |
Q30160385 | Drosophila crinkled, mutations of which disrupt morphogenesis and cause lethality, encodes fly myosin VIIA. |
Q78572354 | Dynamic localization of myosin-I to endocytic structures in Acanthamoeba |
Q33957022 | Dynamics of the Dictyostelium Arp2/3 complex in endocytosis, cytokinesis, and chemotaxis. |
Q37188107 | Endocytosis and the actin cytoskeleton in Dictyostelium discoideum |
Q24677668 | Filopodia act as phagocytic tentacles and pull with discrete steps and a load-dependent velocity. |
Q28279460 | Filopodia: molecular architecture and cellular functions |
Q73096785 | GFP-fusion proteins as fluorescent reporters to study organelle and cytoskeleton dynamics in chemotaxis and phagocytosis |
Q30475930 | Glycoprotein gp130 of dictyostelium discoideum influences macropinocytosis and adhesion |
Q37107569 | Insights into the origin of metazoan filopodia and microvilli |
Q41048804 | Kinetic adaptation of human Myo19 for active mitochondrial transport to growing filopodia tips |
Q49428526 | Leptin affects filopodia and cofilin in NK-92 cells in a dose- and time-dependent manner |
Q47190656 | Loss of FrmB results in increased size of developmental structures during the multicellular development of Dictyostelium cells |
Q52118712 | MAX-1, a novel PH/MyTH4/FERM domain cytoplasmic protein implicated in netrin-mediated axon repulsion. |
Q62577130 | Macrophages release plasma membrane-derived particles rich in accessible cholesterol |
Q50335861 | May the force be with you: Myosin-X in phagocytosis. |
Q37515120 | MyTH4-FERM myosins have an ancient and conserved role in filopod formation |
Q39005661 | MyTH4-FERM myosins in the assembly and maintenance of actin-based protrusions |
Q36957296 | Myosin MyTH4-FERM structures highlight important principles of convergent evolution. |
Q36119767 | Myosin VI and vinculin cooperate during the morphogenesis of cadherin cell cell contacts in mammalian epithelial cells |
Q30500423 | Myosin VIIA defects, which underlie the Usher 1B syndrome in humans, lead to deafness in Drosophila |
Q24337137 | Myosin VIIa, harmonin and cadherin 23, three Usher I gene products that cooperate to shape the sensory hair cell bundle |
Q28114999 | Myosin X is a downstream effector of PI(3)K during phagocytosis |
Q33222230 | Myosin domain evolution and the primary divergence of eukaryotes |
Q34985570 | Myosin motor function: the ins and outs of actin-based membrane protrusions. |
Q30416190 | Myosin-1c regulates the dynamic stability of E-cadherin-based cell-cell contacts in polarized Madin-Darby canine kidney cells. |
Q42365129 | Myosin-7b Promotes Distal Tip Localization of the Intermicrovillar Adhesion Complex |
Q87929283 | Myosin-Driven Intracellular Transport |
Q24299253 | Myosin-X is a molecular motor that functions in filopodia formation |
Q34115035 | Myosin-X is an unconventional myosin that undergoes intrafilopodial motility. |
Q34322246 | Myosin-X provides a motor-based link between integrins and the cytoskeleton. |
Q35576442 | Myosin-X: a MyTH-FERM myosin at the tips of filopodia |
Q24306338 | Myosin16b: The COOH-tail region directs localization to the nucleus and overexpression delays S-phase progression |
Q41982961 | Myosins 1 and 6, myosin light chain kinase, actin and microtubules cooperate during antibody-mediated internalisation and trafficking of membrane-expressed viral antigens in feline infectious peritonitis virus infected monocytes |
Q35117861 | Myosins and cell dynamics in cellular slime molds |
Q42088086 | Nonmuscle myosin II is required for cell proliferation, cell sheet adhesion and wing hair morphology during wing morphogenesis |
Q90702016 | Optimized filopodia formation requires myosin tail domain cooperation |
Q34015217 | Phagocytosis and host-pathogen interactions in Dictyostelium with a look at macrophages. |
Q34493089 | Phagocytosis and innate immunity |
Q37032022 | Phg2, a kinase involved in adhesion and focal site modeling in Dictyostelium. |
Q34197708 | Possible involvement of myosin‐X in intercellular adhesion: Importance of serial pleckstrin homology regions for intracellular localization |
Q41047666 | ROS induced distribution of mitochondria to filopodia by Myo19 depends on a class specific tryptophan in the motor domain. |
Q40802715 | Regulation of Rap1 activity by RapGAP1 controls cell adhesion at the front of chemotaxing cells |
Q34155214 | Requirement of a vasodilator-stimulated phosphoprotein family member for cell adhesion, the formation of filopodia, and chemotaxis in dictyostelium |
Q35709644 | Role of the cytoskeleton during leukocyte responses |
Q36325574 | SadA, a novel adhesion receptor in Dictyostelium |
Q74424114 | Studying cytoskeletal dynamics in living cells using green fluorescent protein |
Q36017033 | Talin influences the dynamics of the myosin VII-membrane interaction. |
Q37802193 | The FERM domain: organizing the structure and function of FAK. |
Q27640950 | The SH3 domain of a M7 interacts with its C-terminal proline-rich region |
Q45073728 | The Shaker-1 Mouse Myosin VIIa Deafness Mutation Results in a Severely Reduced Rate of the ATP Hydrolysis Step |
Q30477234 | The bundling activity of vasodilator-stimulated phosphoprotein is required for filopodium formation |
Q28202993 | The lamellipodium: where motility begins |
Q27005972 | The many different cellular functions of MYO7A in the retina |
Q27011868 | The myosin superfamily at a glance. |
Q30159715 | Thirteen is enough: the myosins of Dictyostelium discoideum and their light chains |
Q37406695 | Toward the structure of dynamic membrane-anchored actin networks: an approach using cryo-electron tomography. |
Q46179836 | Transport to the photoreceptor outer segment by myosin VIIa and kinesin II. |
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