| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1000061892 |
| P356 | DOI | 10.1038/341549A0 |
| P698 | PubMed publication ID | 2797182 |
| P5875 | ResearchGate publication ID | 20359427 |
| P2093 | author name string | Spudich JA | |
| Elson EL | |||
| Pasternak C | |||
| P2860 | cites work | Endocytosis: relation to capping and cell locomotion | Q28272518 |
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| Ligand-induced changes in the location of actin, myosin, 95K (alpha-actinin), and 120K protein in amebae of Dictyostelium discoideum | Q41475078 | ||
| A Dictyostelium mutant deficient in severin, an F-actin fragmenting protein, shows normal motility and chemotaxis | Q41565554 | ||
| Differential arrest of secretory protein transport in cultured rat hepatocytes by azide treatment | Q41581524 | ||
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| Aeronautics before 1919 | Q59067272 | ||
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| P433 | issue | 6242 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 549-551 | |
| P577 | publication date | 1989-10-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Capping of surface receptors and concomitant cortical tension are generated by conventional myosin | |
| P478 | volume | 341 |
| Q49068831 | A Xenopus nonmuscle myosin heavy chain isoform is phosphorylated by cyclin-p34cdc2 kinase during meiosis |
| Q36716347 | A mechanosensory system controls cell shape changes during mitosis |
| Q34173609 | A micromechanic study of cell polarity and plasma membrane cell body coupling in Dictyostelium |
| Q41063648 | A myosin family reunion. |
| Q36237094 | A novel member of the rho family of small GTP-binding proteins is specifically required for cytokinesis |
| Q33965265 | A novel positive selection for identifying cold-sensitive myosin II mutants in Dictyostelium |
| Q33938133 | A novel regulatory myosin light chain gene distinguishes pre-B cell subsets and is IL-7 inducible |
| Q36548632 | A novel role for clathrin in cytokinesis |
| Q48011459 | A soft cortex is essential for asymmetric spindle positioning in mouse oocytes |
| Q28276582 | Actin-based cell motility and cell locomotion |
| Q41662799 | Actin-binding proteins involved in the capping of epidermal growth factor receptors in A431 cells |
| Q37907280 | Actin-binding proteins. Cytoskeletal ups and downs |
| Q41078462 | Activation of Dictyostelium myosin light chain kinase A by phosphorylation of Thr166. |
| Q36378501 | Active, motor-driven mechanics in a DNA gel |
| Q74781621 | Aluminum Induces Rigor within the Actin Network of Soybean Cells |
| Q37340768 | An active biopolymer network controlled by molecular motors. |
| Q33695859 | Anisotropies in cortical tension reveal the physical basis of polarizing cortical flows |
| Q37558134 | Association of a cellular myosin II with anionic phospholipids and the neuronal plasma membrane |
| Q33762694 | Asymmetric distribution of myosin IIB in migrating endothelial cells is regulated by a rho-dependent kinase and contributes to tail retraction |
| Q31053965 | Atomic force microscopy of height fluctuations of fibroblast cells |
| Q30475908 | Balance of actively generated contractile and resistive forces controls cytokinesis dynamics |
| Q36530229 | Biophysical properties and microfilament assembly in neutrophils: modulation by cyclic AMP |
| Q33819253 | Blebbistatin and blebbistatin-inactivated myosin II inhibit myosin II-independent processes in Dictyostelium. |
| Q34375763 | Cell division: Biochemically controlled mechanics |
| Q35610670 | Cell elasticity is regulated by the tropomyosin isoform composition of the actin cytoskeleton |
| Q37760346 | Cell locomotion: new research tests old ideas on membrane and cytoskeletal flow |
| Q37876444 | Cell migration in multicellular environments |
| Q27860682 | Cell migration: a physically integrated molecular process |
| Q38038091 | Cell migration: regulation of cytoskeleton by Rap1 in Dictyostelium discoideum |
| Q34128776 | Cell-substrate interactions and locomotion of Dictyostelium wild-type and mutants defective in three cytoskeletal proteins: a study using quantitative reflection interference contrast microscopy |
| Q41495078 | Characterization of isoform diversity among smooth muscle and nonmuscle myosin heavy chains |
| Q36529305 | Chicken nonmuscle myosin heavy chains: differential expression of two mRNAs and evidence for two different polypeptides |
| Q31146671 | Cloning of the cDNA encoding a neuronal myosin heavy chain from mammalian brain and its differential expression within the central nervous system |
| Q38362111 | Cloning of the cDNA encoding rat myosin heavy chain-A and evidence for the absence of myosin heavy chain-B in cultured rat mast (RBL-2H3) cells. |
| Q46258686 | Conditional loss-of-myosin-II-function mutants reveal a position in the tail that is critical for filament nucleation |
| Q72722412 | Contraction of reconstituted Dictyostelium cytoskeletons: an apparent role for higher order associations among myosin filaments |
| Q34123394 | Cortical mechanics and meiosis II completion in mammalian oocytes are mediated by myosin-II and Ezrin-Radixin-Moesin (ERM) proteins |
| Q36119362 | Cracking up: symmetry breaking in cellular systems |
| Q27933611 | Cytokinesis depends on the motor domains of myosin-II in fission yeast but not in budding yeast |
| Q27687452 | Cytokinesis mechanics and mechanosensing |
| Q35210324 | Dictyostelium cytokinesis: from molecules to mechanics |
| Q41172022 | Dictyostelium discoideum essential myosin light chain: Gene structure and characterization |
| Q36236763 | Dictyostelium mutants lacking multiple classic myosin I isoforms reveal combinations of shared and distinct functions |
| Q33233220 | Dictyostelium myosin II mechanochemistry promotes active behavior of the cortex on long time scales |
| Q36573526 | Dictyostelium myosin II null mutant can still cap Con A receptors |
| Q36236412 | Dictyostelium myosin heavy chain kinase A regulates myosin localization during growth and development |
| Q73456292 | Dictyostelium myosin heavy chain kinase A subdomains. Coiled-coil and wd repeat roles in oligomerization and substrate targeting |
| Q46832088 | Dictyostelium myosin heavy chain phosphorylation sites regulate myosin filament assembly and localization in vivo |
| Q40758123 | Dynacortin is a novel actin bundling protein that localizes to dynamic actin structures |
| Q30909065 | Dynacortin, a genetic link between equatorial contractility and global shape control discovered by library complementation of a Dictyostelium discoideum cytokinesis mutant |
| Q37188107 | Endocytosis and the actin cytoskeleton in Dictyostelium discoideum |
| Q48599686 | Energy depletion protects Candida albicans against antimicrobial peptides by rigidifying its cell membrane |
| Q41151632 | Expression of the catalytic domain of myosin light chain kinase increases paracellular permeability |
| Q34222303 | F-actin and myosin II binding domains in supervillin |
| Q42481638 | Fibroblast Contractility without an Increase in Basal Myosin Light Chain Phosphorylation in Wild Type Cells and Cells Expressing the Catalytic Domain of Myosin Light Chain Kinase |
| Q38541062 | Forcing cells into shape: the mechanics of actomyosin contractility |
| Q74250937 | Formation of F-actin aggregates in cells treated with actin stabilizing drugs |
| Q72149300 | Functional analysis of a cardiac myosin rod in Dictyostelium discoideum |
| Q34680405 | Genetic suppression of a phosphomimic myosin II identifies system-level factors that promote myosin II cleavage furrow accumulation |
| Q33851004 | Genetically engineered truncated myosin in Dictyostelium: the carboxyl-terminal regulatory domain is not required for the developmental cycle |
| Q28297410 | Getting membrane flow and the cytoskeleton to cooperate in moving cells |
| Q34994182 | How a cell crawls and the role of cortical myosin II |
| Q30491144 | How well can an amoeba climb? |
| Q29029215 | Identification of Novel Graded Polarity Actin Filament Bundles in Locomoting Heart Fibroblasts: Implications for the Generation of Motile Force |
| Q24677581 | Identification of the surfactant protein A receptor 210 as the unconventional myosin 18A. |
| Q30483276 | In vivo observations of myosin II dynamics support a role in rear retraction |
| Q30481813 | Interactions between myosin and actin crosslinkers control cytokinesis contractility dynamics and mechanics |
| Q37384360 | Investigation of the mechanism of retraction of the cell margin and rearward flow of nodules during mitotic cell rounding |
| Q48061503 | Isolation and characterization of a novel cytokinesis-deficient mutant in Dictyostelium discoideum |
| Q42665478 | Leukocyte polarization in cell migration and immune interactions |
| Q36776699 | Localization of myosin heavy chain A in the human pathogen Entamoeba histolytica. |
| Q36633933 | MLCK-A, an unconventional myosin light chain kinase from Dictyostelium, is activated by a cGMP-dependent pathway |
| Q34186278 | Mechanotransduction in development: a growing role for contractility |
| Q39408781 | Membrane tension maintains cell polarity by confining signals to the leading edge during neutrophil migration |
| Q77159611 | Membrane traffic during cell locomotion |
| Q42080692 | Modeling the Mechanosensitivity of Neutrophils Passing through a Narrow Channel |
| Q24683747 | Moesin interacts with the cytoplasmic region of intercellular adhesion molecule-3 and is redistributed to the uropod of T lymphocytes during cell polarization |
| Q33921445 | Molecular biological approaches to study myosin functions in cytokinesis of Dictyostelium |
| Q37137650 | Molecular genetic approaches to the cytoskeleton in Dictyostelium |
| Q37460148 | Multi-scale mechanics from molecules to morphogenesis |
| Q35952748 | Multiple parallelisms in animal cytokinesis. |
| Q34171189 | Myosin I contributes to the generation of resting cortical tension |
| Q73209664 | Myosin II can be localized to the cleavage furrow and to the posterior region of Dictyostelium amoebae without control by phosphorylation of myosin heavy and light chains |
| Q41279298 | Myosin II filament assemblies in the active lamella of fibroblasts: their morphogenesis and role in the formation of actin filament bundles |
| Q42925480 | Myosin II is essential for the spatiotemporal organization of traction forces during cell motility |
| Q30452816 | Myosin II is involved in capping and uroid formation in the human pathogen Entamoeba histolytica |
| Q44424986 | Myosin II is present in gastric parietal cells and required for lamellipodial dynamics associated with cell activation. |
| Q42207770 | Myosin IIA is essential for Shigella flexneri cell-to-cell spread. |
| Q40648720 | Myosin IIB Is Unconventionally Conventional |
| Q33629199 | Myosin dynamics in live Dictyostelium cells |
| Q37235310 | Myosin light chain kinase (MLCK) gene disruption in Dictyostelium: a role for MLCK-A in cytokinesis and evidence for multiple MLCKs |
| Q46622965 | Myosin reorganization in activated RBL cells correlates temporally with stimulated secretion |
| Q28207779 | Myosin superfamily evolutionary history |
| Q41207865 | Myosin-based cortical tension in Dictyostelium resolved into heavy and light chain-regulated components |
| Q35117861 | Myosins and cell dynamics in cellular slime molds |
| Q34283682 | Myosins in protists |
| Q33866577 | Myosins: a diverse superfamily |
| Q71555226 | NDP kinase can modulate contraction of Dictyostelium cytoskeletons |
| Q24322418 | Neuronal cell expression of inserted isoforms of vertebrate nonmuscle myosin heavy chain II-B |
| Q34570315 | Neuronal migration illuminated: a look under the hood of the living neuron |
| Q36383250 | Non-sarcomeric mode of myosin II organization in the fibroblast lamellum |
| Q28512682 | Nonmuscle myosin IIA and IIB have distinct functions in the exocytosis-dependent process of cell membrane repair |
| Q36949652 | On the role of myosin-II in cytokinesis: division of Dictyostelium cells under adhesive and nonadhesive conditions |
| Q36294769 | PAKa, a putative PAK family member, is required for cytokinesis and the regulation of the cytoskeleton in Dictyostelium discoideum cells during chemotaxis |
| Q74134303 | Phosphorylation of the Dictyostelium myosin II heavy chain is necessary for maintaining cellular polarity and suppressing turning during chemotaxis |
| Q37342286 | Physical model of cellular symmetry breaking |
| Q42771841 | Ponticulin plays a role in the positional stabilization of pseudopods |
| Q40297212 | Pseudopod projection and cell spreading of passive leukocytes in response to fluid shear stress |
| Q24802328 | Quantitation of the distribution and flux of myosin-II during cytokinesis |
| Q36118074 | Rap1 controls cell adhesion and cell motility through the regulation of myosin II. |
| Q28574546 | Rat myr 4 defines a novel subclass of myosin I: identification, distribution, localization, and mapping of calmodulin-binding sites with differential calcium sensitivity |
| Q36235081 | Regulation of Dictyostelium myosin II by phosphorylation: what is essential and what is important? |
| Q39760218 | Reversible membrane pearling in live cells upon destruction of the actin cortex |
| Q28262083 | Role of cortical tension in bleb growth |
| Q35210321 | Signaling pathways regulating Dictyostelium myosin II. |
| Q43107728 | Spatial and temporal control of nonmuscle myosin localization: identification of a domain that is necessary for myosin filament disassembly in vivo |
| Q30477540 | Spatially regulated recruitment of clathrin to the plasma membrane during capping and cell translocation |
| Q35925606 | Spatio-temporal analysis of eukaryotic cell motility by improved force cytometry |
| Q36530289 | Stopped-flow measurement of cytoskeletal contraction: Dictyostelium myosin II is specifically required for contraction of amoeba cytoskeletons |
| Q28305452 | Structural analysis of myosin heavy chain kinase A from Dictyostelium. Evidence for a highly divergent protein kinase domain, an amino-terminal coiled-coil domain, and a domain homologous to the beta-subunit of heterotrimeric G proteins |
| Q36222497 | Structure and function of the cytoskeleton of a Dictyostelium myosin-defective mutant |
| Q68086807 | Surface particle transport mechanism independent of myosin II in Dictyostelium |
| Q30489233 | T cell antigen receptor signaling and immunological synapse stability require myosin IIA |
| Q36234997 | Targeted disruption of the Dictyostelium RMLC gene produces cells defective in cytokinesis and development |
| Q36535690 | The 95F unconventional myosin is required for proper organization of the Drosophila syncytial blastoderm |
| Q38481180 | The Dictyostelium LIM domain-containing protein LIM2 is essential for proper chemotaxis and morphogenesis |
| Q43108127 | The distribution of myosin II in Dictyostelium discoideum slug cells |
| Q37353918 | The effects of extracellular calcium on motility, pseudopod and uropod formation, chemotaxis, and the cortical localization of myosin II in Dictyostelium discoideum |
| Q34450548 | The identification of pats1, a novel gene locus required for cytokinesis in Dictyostelium discoideum |
| Q34746903 | The internal phosphodiesterase RegA is essential for the suppression of lateral pseudopods during Dictyostelium chemotaxis |
| Q28299173 | The intracellular cytoplasmic domain of the Alzheimer's disease amyloid precursor protein interacts with phosphotyrosine-binding domain proteins in the yeast two-hybrid system |
| Q35758989 | The role of myosin I and II in cell motility |
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| Q36091986 | The stress and strain of cytokinesis |
| Q40365389 | The unconventional myosin encoded by the myoA gene plays a role in Dictyostelium motility |
| Q42556625 | Three-dimensional balance of cortical tension and axial contractility enables fast amoeboid migration |
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| Q40820223 | Toward a new concept of cell motility: cytoskeletal dynamics in amoeboid movement and cell division |
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| Q36936897 | Transport of myosin II to the equatorial region without its own motor activity in mitotic Dictyostelium cells. |
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| Q36880723 | Virulence and functions of myosin II are inhibited by overexpression of light meromyosin in Entamoeba histolytica |
| Q36964220 | Visualizing myosin-actin interaction with a genetically-encoded fluorescent strain sensor. |
| Q36237235 | Xenopus nonmuscle myosin heavy chain isoforms have different subcellular localizations and enzymatic activities |
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