Published in J Cell Biol on October 20, 1997
The interaction of Arp2/3 complex with actin: nucleation, high affinity pointed end capping, and formation of branching networks of filaments. Proc Natl Acad Sci U S A (1998) 9.33
Arp2/3 complex and actin depolymerizing factor/cofilin in dendritic organization and treadmilling of actin filament array in lamellipodia. J Cell Biol (1999) 8.24
Actin, a central player in cell shape and movement. Science (2009) 7.28
The relationship between force and focal complex development. J Cell Biol (2002) 6.26
Mechanism of filopodia initiation by reorganization of a dendritic network. J Cell Biol (2003) 5.47
Pulsed contractions of an actin-myosin network drive apical constriction. Nature (2008) 5.25
Mechanism of shape determination in motile cells. Nature (2008) 4.90
Mechanical integration of actin and adhesion dynamics in cell migration. Annu Rev Cell Dev Biol (2010) 4.06
Traction force microscopy of migrating normal and H-ras transformed 3T3 fibroblasts. Biophys J (2001) 4.01
A role for Cdc42 in macrophage chemotaxis. J Cell Biol (1998) 3.88
Marching at the front and dragging behind: differential alphaVbeta3-integrin turnover regulates focal adhesion behavior. J Cell Biol (2001) 3.28
Nonmuscle myosin IIb is involved in the guidance of fibroblast migration. Mol Biol Cell (2003) 3.02
Novel roles of formin mDia2 in lamellipodia and filopodia formation in motile cells. PLoS Biol (2007) 3.01
Regulation of actin dynamics in rapidly moving cells: a quantitative analysis. Biophys J (2002) 2.84
Actin- and myosin-driven movement of viruses along filopodia precedes their entry into cells. J Cell Biol (2005) 2.83
Visualization and molecular analysis of actin assembly in living cells. J Cell Biol (1998) 2.70
A role for actin arcs in the leading-edge advance of migrating cells. Nat Cell Biol (2011) 2.68
The Ig superfamily cell adhesion molecule, apCAM, mediates growth cone steering by substrate-cytoskeletal coupling. J Cell Biol (1998) 2.66
Slipping or gripping? Fluorescent speckle microscopy in fish keratocytes reveals two different mechanisms for generating a retrograde flow of actin. Mol Biol Cell (2004) 2.59
Formation of filopodia-like bundles in vitro from a dendritic network. J Cell Biol (2003) 2.44
Myosin II contributes to cell-scale actin network treadmilling through network disassembly. Nature (2010) 2.37
Genetic dissection of the budding yeast Arp2/3 complex: a comparison of the in vivo and structural roles of individual subunits. Proc Natl Acad Sci U S A (1999) 2.29
Filamin A, the Arp2/3 complex, and the morphology and function of cortical actin filaments in human melanoma cells. J Cell Biol (2001) 2.29
Signaling to actin dynamics. J Cell Biol (1999) 2.26
Simultaneous mapping of filamentous actin flow and turnover in migrating cells by quantitative fluorescent speckle microscopy. Proc Natl Acad Sci U S A (2004) 2.25
Molecular architecture of synaptic actin cytoskeleton in hippocampal neurons reveals a mechanism of dendritic spine morphogenesis. Mol Biol Cell (2009) 2.23
The role of myosin II in glioma invasion of the brain. Mol Biol Cell (2008) 2.20
Structural organization of the actin cytoskeleton at sites of clathrin-mediated endocytosis. Curr Biol (2011) 2.18
Actin-myosin network reorganization breaks symmetry at the cell rear to spontaneously initiate polarized cell motility. J Cell Biol (2007) 2.16
Separation of propulsive and adhesive traction stresses in locomoting keratocytes. J Cell Biol (1999) 2.16
Relationship between Arp2/3 complex and the barbed ends of actin filaments at the leading edge of carcinoma cells after epidermal growth factor stimulation. J Cell Biol (1999) 2.14
Arp2/3 complex is important for filopodia formation, growth cone motility, and neuritogenesis in neuronal cells. Mol Biol Cell (2008) 2.11
The Arp2/3 complex mediates actin polymerization induced by the small GTP-binding protein Cdc42. Proc Natl Acad Sci U S A (1998) 2.07
A quantitative analysis of contractility in active cytoskeletal protein networks. Biophys J (2008) 2.05
Growth of branched actin networks against obstacles. Biophys J (2001) 2.05
Electron tomography reveals unbranched networks of actin filaments in lamellipodia. Nat Cell Biol (2010) 2.02
The shape of motile cells. Curr Biol (2009) 2.00
Cofilin dissociates Arp2/3 complex and branches from actin filaments. Curr Biol (2009) 1.98
Distinct roles of frontal and rear cell-substrate adhesions in fibroblast migration. Mol Biol Cell (2001) 1.93
An adhesion-dependent switch between mechanisms that determine motile cell shape. PLoS Biol (2011) 1.90
Actin network architecture can determine myosin motor activity. Science (2012) 1.89
Force transmission in migrating cells. J Cell Biol (2010) 1.89
Synergistic interaction between the Arp2/3 complex and cofilin drives stimulated lamellipod extension. J Cell Sci (2004) 1.89
Tracking retrograde flow in keratocytes: news from the front. Mol Biol Cell (2005) 1.88
Growth velocities of branched actin networks. Biophys J (2003) 1.85
Mathematics of cell motility: have we got its number? J Math Biol (2008) 1.84
MULTISCALE TWO-DIMENSIONAL MODELING OF A MOTILE SIMPLE-SHAPED CELL. Multiscale Model Simul (2005) 1.83
Mesenchymal chemotaxis requires selective inactivation of myosin II at the leading edge via a noncanonical PLCγ/PKCα pathway. Dev Cell (2014) 1.79
Traction forces of fibroblasts are regulated by the Rho-dependent kinase but not by the myosin light chain kinase. Arch Biochem Biophys (2006) 1.76
A point mutation in the motor domain of nonmuscle myosin II-B impairs migration of distinct groups of neurons. Mol Biol Cell (2004) 1.73
Myosin 1c and myosin IIB serve opposing roles in lamellipodial dynamics of the neuronal growth cone. J Cell Biol (2002) 1.73
Keratocytes generate traction forces in two phases. Mol Biol Cell (1999) 1.72
The forces behind cell movement. Int J Biol Sci (2007) 1.66
F-actin buckling coordinates contractility and severing in a biomimetic actomyosin cortex. Proc Natl Acad Sci U S A (2012) 1.65
Intracellular fluid flow in rapidly moving cells. Nat Cell Biol (2009) 1.65
Implications of a poroelastic cytoplasm for the dynamics of animal cell shape. Semin Cell Dev Biol (2008) 1.64
United we stand: integrating the actin cytoskeleton and cell-matrix adhesions in cellular mechanotransduction. J Cell Sci (2012) 1.63
Dicing with dogma: de-branching the lamellipodium. Trends Cell Biol (2010) 1.63
Two components of actin-based retrograde flow in sea urchin coelomocytes. Mol Biol Cell (1999) 1.63
Orientational order of the lamellipodial actin network as demonstrated in living motile cells. Mol Biol Cell (2003) 1.60
Keratocytes pull with similar forces on their dorsal and ventral surfaces. J Cell Biol (1999) 1.60
Phosphoinositides and Rho proteins spatially regulate actin polymerization to initiate and maintain directed movement in a one-dimensional model of a motile cell. Biophys J (2006) 1.58
Model of polarization and bistability of cell fragments. Biophys J (2007) 1.56
Analysis of actin dynamics at the leading edge of crawling cells: implications for the shape of keratocyte lamellipodia. Eur Biophys J (2003) 1.52
Morphology of the lamellipodium and organization of actin filaments at the leading edge of crawling cells. Biophys J (2005) 1.50
Loss of cell adhesion causes hydrocephalus in nonmuscle myosin II-B-ablated and mutated mice. Mol Biol Cell (2007) 1.49
EPLIN regulates actin dynamics by cross-linking and stabilizing filaments. J Cell Biol (2003) 1.48
The role and regulation of blebs in cell migration. Curr Opin Cell Biol (2013) 1.48
Emerging roles for myosin II and cytoplasmic dynein in migrating neurons and growth cones. Trends Cell Biol (2009) 1.45
Gradient of rigidity in the lamellipodia of migrating cells revealed by atomic force microscopy. Biophys J (2005) 1.43
Actin-myosin viscoelastic flow in the keratocyte lamellipod. Biophys J (2009) 1.42
Dynamic and structural signatures of lamellar actomyosin force generation. Mol Biol Cell (2011) 1.40
The cellular context of T cell signaling. Immunity (2009) 1.39
Analysis of turnover dynamics of the submembranous actin cortex. Mol Biol Cell (2013) 1.38
Random walk of processive, quantum dot-labeled myosin Va molecules within the actin cortex of COS-7 cells. Biophys J (2009) 1.37
A contractile and counterbalancing adhesion system controls the 3D shape of crawling cells. J Cell Biol (2014) 1.36
Morphogenetic movements driving neural tube closure in Xenopus require myosin IIB. Dev Biol (2008) 1.34
The role of myosin II motor activity in distributing myosin asymmetrically and coupling protrusive activity to cell translocation. Mol Biol Cell (2006) 1.34
Slow local movements of collagen fibers by fibroblasts drive the rapid global self-organization of collagen gels. J Cell Biol (2002) 1.34
Comparative maps of motion and assembly of filamentous actin and myosin II in migrating cells. Mol Biol Cell (2007) 1.33
End versus side branching by Arp2/3 complex. Biophys J (2004) 1.33
Contractile forces in tumor cell migration. Eur J Cell Biol (2008) 1.31
Retrograde flow and myosin II activity within the leading cell edge deliver F-actin to the lamella to seed the formation of graded polarity actomyosin II filament bundles in migrating fibroblasts. Mol Biol Cell (2008) 1.30
Region-specific microtubule transport in motile cells. J Cell Biol (2000) 1.30
Cell crawling: first the motor, now the transmission. J Cell Biol (1998) 1.30
Acting like actin. The dynamics of the nematode major sperm protein (msp) cytoskeleton indicate a push-pull mechanism for amoeboid cell motility. J Cell Biol (2000) 1.27
Polymerizing microtubules activate site-directed F-actin assembly in nerve growth cones. Mol Biol Cell (1999) 1.25
A mutant of Arp2p causes partial disassembly of the Arp2/3 complex and loss of cortical actin function in fission yeast. Mol Biol Cell (1999) 1.24
Weak dependence of mobility of membrane protein aggregates on aggregate size supports a viscous model of retardation of diffusion. Biophys J (1999) 1.23
Filopodia initiation: focus on the Arp2/3 complex and formins. Cell Adh Migr (2011) 1.23
Protein kinase Cgamma regulates myosin IIB phosphorylation, cellular localization, and filament assembly. Mol Biol Cell (2006) 1.22
Actin cross-link assembly and disassembly mechanics for alpha-Actinin and fascin. J Biol Chem (2010) 1.21
Animal cell hydraulics. J Cell Sci (2009) 1.19
Intestinal restitution: progression of actin cytoskeleton rearrangements and integrin function in a model of epithelial wound healing. Am J Pathol (2000) 1.19
Local photorelease of caged thymosin beta4 in locomoting keratocytes causes cell turning. J Cell Biol (2001) 1.17
Diffusion in cytoplasm: effects of excluded volume due to internal membranes and cytoskeletal structures. Biophys J (2009) 1.17
Forming the cell rear first: breaking cell symmetry to trigger directed cell migration. Nat Cell Biol (2010) 1.16
Visualizing Arp2/3 complex activation mediated by binding of ATP and WASp using structural mass spectrometry. Proc Natl Acad Sci U S A (2007) 1.16
Motor-induced sliding of microtubule and actin bundles. Phys Chem Chem Phys (2009) 1.14
Role of focal adhesions and mechanical stresses in the formation and progression of the lamellipodium-lamellum interface [corrected]. Biophys J (2009) 1.14
Actin-based cell motility and cell locomotion. Cell (1996) 10.30
Actin microfilament dynamics in locomoting cells. Nature (1991) 8.03
Cell motility driven by actin polymerization. Biophys J (1996) 7.29
Actin depolymerizing factor (ADF/cofilin) enhances the rate of filament turnover: implication in actin-based motility. J Cell Biol (1997) 7.10
ELECTRON MICROSCOPE STUDIES ON THE STRUCTURE OF NATURAL AND SYNTHETIC PROTEIN FILAMENTS FROM STRIATED MUSCLE. J Mol Biol (1963) 7.08
Mitosis and intermediate-sized filaments in developing skeletal muscle. J Cell Biol (1968) 5.78
Actin polymerization is induced by Arp2/3 protein complex at the surface of Listeria monocytogenes. Nature (1997) 5.45
The visualization of actin filament polarity in thin sections. Evidence for the uniform polarity of membrane-associated filaments. J Cell Biol (1978) 5.17
Life at the leading edge: the formation of cell protrusions. Annu Rev Cell Biol (1993) 5.15
Traction forces generated by locomoting keratocytes. J Cell Biol (1994) 4.97
Actin-binding protein requirement for cortical stability and efficient locomotion. Science (1992) 4.66
Control of actin polymerization in live and permeabilized fibroblasts. J Cell Biol (1991) 4.16
Human endothelial actin-binding protein (ABP-280, nonmuscle filamin): a molecular leaf spring. J Cell Biol (1990) 3.76
Myosin II filament assemblies in the active lamella of fibroblasts: their morphogenesis and role in the formation of actin filament bundles. J Cell Biol (1995) 3.55
Cell motility and chemotaxis in Dictyostelium amebae lacking myosin heavy chain. Dev Biol (1988) 3.48
Polarity of actin at the leading edge of cultured cells. Nature (1978) 3.40
Identification of novel graded polarity actin filament bundles in locomoting heart fibroblasts: implications for the generation of motile force. J Cell Biol (1997) 3.25
Actin filament organization in the fish keratocyte lamellipodium. J Cell Biol (1995) 3.20
Muscular contraction and cell motility. Nature (1973) 3.17
Structure, subunit topology, and actin-binding activity of the Arp2/3 complex from Acanthamoeba. J Cell Biol (1997) 3.11
Principles of locomotion for simple-shaped cells. Nature (1993) 3.00
Phylogenetic analysis of the myosin superfamily. Cell Motil Cytoskeleton (1993) 2.93
The architecture of actin filaments and the ultrastructural location of actin-binding protein in the periphery of lung macrophages. J Cell Biol (1986) 2.80
Sequences, structural models, and cellular localization of the actin-related proteins Arp2 and Arp3 from Acanthamoeba. J Cell Biol (1995) 2.77
A mechanical function of myosin II in cell motility. J Cell Sci (1995) 2.74
Xenopus actin depolymerizing factor/cofilin (XAC) is responsible for the turnover of actin filaments in Listeria monocytogenes tails. J Cell Biol (1997) 2.66
The ADF/cofilin proteins: stimulus-responsive modulators of actin dynamics. Mol Biol Cell (1995) 2.65
Cytoplasmic structure and contractility: the solation--contraction coupling hypothesis. Philos Trans R Soc Lond B Biol Sci (1982) 2.40
Plectin sidearms mediate interaction of intermediate filaments with microtubules and other components of the cytoskeleton. J Cell Biol (1996) 2.35
Behaviour and structure of the leading lamella in moving fibroblasts. I. Occurrence and centripetal movement of arc-shaped microfilament bundles beneath the dorsal cell surface. J Cell Sci (1983) 2.24
Actin-binding protein promotes the bipolar and perpendicular branching of actin filaments. J Cell Biol (1980) 2.22
Non-sarcomeric mode of myosin II organization in the fibroblast lamellum. J Cell Biol (1993) 2.10
Improved procedures for electron microscopic visualization of the cytoskeleton of cultured cells. J Struct Biol (1996) 1.93
Banding and polarity of actin filaments in interphase and cleaving cells. J Cell Biol (1980) 1.92
Recent quantitative studies of actin filament turnover during cell locomotion. Cell Motil Cytoskeleton (1993) 1.87
Organization and function of stress fibers in cells in vitro and in situ. A review. Cell Muscle Motil (1984) 1.85
The molecular organization of myosin in stress fibers of cultured cells. J Cell Biol (1986) 1.80
Accelerating on a treadmill: ADF/cofilin promotes rapid actin filament turnover in the dynamic cytoskeleton. J Cell Biol (1997) 1.76
Actophorin preferentially binds monomeric ADP-actin over ATP-bound actin: consequences for cell locomotion. FEBS Lett (1994) 1.76
Formation and movement of myosin-containing structures in living fibroblasts. J Cell Biol (1989) 1.72
Coordination of protrusion and translocation of the keratocyte involves rolling of the cell body. J Cell Biol (1996) 1.70
Formation, transport, contraction, and disassembly of stress fibers in fibroblasts. Cell Motil Cytoskeleton (1990) 1.61
The role of solation-contraction coupling in regulating stress fiber dynamics in nonmuscle cells. J Cell Biol (1991) 1.58
Gradients in the concentration and assembly of myosin II in living fibroblasts during locomotion and fiber transport. Mol Biol Cell (1993) 1.52
Polarity sorting of actin filaments in cytochalasin-treated fibroblasts. J Cell Sci (1997) 1.43
Motility of cultured fish epidermal cells in the presence and absence of direct current electric fields. J Cell Biol (1986) 1.38
Direct visualization of bipolar myosin filaments in stress fibers of cultured fibroblasts. Cell Motil Cytoskeleton (1989) 1.37
The nucleation-release model of actin filament dynamics in cell motility. Trends Cell Biol (1992) 1.29
Actin-myosin interactions visualized by the quick-freeze, deep-etch replica technique. J Mol Biol (1983) 1.28
Cell motility: complex dynamics at the leading edge. Curr Biol (1997) 1.25
Myosin II function in non-muscle cells. Bioessays (1996) 1.21
The fish epidermal keratocyte as a model system for the study of cell locomotion. Symp Soc Exp Biol (1993) 1.20
Centripetal flow and directed reassembly of the major sperm protein (MSP) cytoskeleton in the amoeboid sperm of the nematode, Ascaris suum. Cell Motil Cytoskeleton (1991) 1.16
3D analysis of cell movement during normal and myosin-II-null cell morphogenesis in dictyostelium. Dev Biol (1995) 1.09
Control of cell shape and locomotion by external calcium. Exp Cell Res (1984) 0.99
Wet cleaving of cells: a method to introduce macromolecules into the cytoplasm. Application for immunolocalization of cytosol-exposed antigens. Exp Cell Res (1988) 0.96
Molecular evolution of the myosin superfamily: application of phylogenetic techniques to cell biological questions. Soc Gen Physiol Ser (1994) 0.91
The colchicine-binding protein of mammalian brain and its relation to microtubules. Biochemistry (1968) 12.96
The mechanism of action of colchicine. Binding of colchincine-3H to cellular protein. J Cell Biol (1967) 9.66
Arp2/3 complex and actin depolymerizing factor/cofilin in dendritic organization and treadmilling of actin filament array in lamellipodia. J Cell Biol (1999) 8.24
The mechanism of action of colchicine. Colchicine binding to sea urchin eggs and the mitotic apparatus. J Cell Biol (1967) 6.85
Microtubules. Annu Rev Biochem (1973) 6.75
Association of high-molecular-weight proteins with microtubules and their role in microtubule assembly in vitro. Proc Natl Acad Sci U S A (1975) 6.35
Nucleated assembly of microtubules in porcine brain extracts. Science (1972) 6.22
Head-to-tail polymerization of microtubules in vitro. Electron microscope analysis of seeded assembly. J Cell Biol (1980) 5.64
Purification of tubulin and associated high molecular weight proteins from porcine brain and characterization of microtubule assembly in vitro. Ann N Y Acad Sci (1975) 5.26
Structural polarity and directional growth of microtubules of Chlamydomonas flagella. J Mol Biol (1974) 4.80
Chromosomes move poleward in anaphase along stationary microtubules that coordinately disassemble from their kinetochore ends. J Cell Biol (1987) 4.52
The pericentriolar material in Chinese hamster ovary cells nucleates microtubule formation. J Cell Biol (1977) 4.41
Functional coordination of microtubule-based and actin-based motility in melanophores. Curr Biol (1998) 4.03
Self-polarization and directional motility of cytoplasm. Curr Biol (1999) 3.93
Kinetochore microtubule dynamics and the metaphase-anaphase transition. J Cell Biol (1995) 3.86
Microtubule assembly in vitro. Fed Proc (1974) 3.82
Myosin II filament assemblies in the active lamella of fibroblasts: their morphogenesis and role in the formation of actin filament bundles. J Cell Biol (1995) 3.55
Direct observation of microtubule dynamics in living cells. Nature (1988) 3.47
Cytoplasmic filaments and tubules. Fed Proc (1968) 3.22
Centriole cycle in Chinese hamster ovary cells as determined by whole-mount electron microscopy. J Cell Biol (1981) 3.17
Kinetic analysis of microtubule self-assembly in vitro. J Mol Biol (1977) 3.15
Microtubule release from the centrosome. Proc Natl Acad Sci U S A (1997) 2.97
Isolated flagellar apparatus of Chlamydomonas: characterization of forward swimming and alteration of waveform and reversal of motion by calcium ions in vitro. J Cell Sci (1978) 2.91
Phosphoproteins are components of mitotic microtubule organizing centers. Proc Natl Acad Sci U S A (1984) 2.84
Polarity of microtubules nucleated by centrosomes and chromosomes of Chinese hamster ovary cells in vitro. J Cell Biol (1980) 2.75
Polymerization of tubulin in vivo: direct evidence for assembly onto microtubule ends and from centrosomes. J Cell Biol (1985) 2.72
Characterization of microtubule assembly in porcine brain extracts by viscometry. Biochemistry (1973) 2.68
On the mechanisms of cytokinesis in animal cells. J Theor Biol (1983) 2.63
Correlative light and electron microscopy of the cytoskeleton of cultured cells. Methods Enzymol (1998) 2.59
Microtubule dynamics in vivo: a test of mechanisms of turnover. J Cell Biol (1987) 2.56
Injection of anticentromere antibodies in interphase disrupts events required for chromosome movement at mitosis. J Cell Biol (1990) 2.46
Microtubule-nucleating activity of centrosomes in Chinese hamster ovary cells is independent of the centriole cycle but coupled to the mitotic cycle. J Cell Biol (1981) 2.43
Dendritic organization of actin comet tails. Curr Biol (2001) 2.43
Ionic and nucleotide requirements for microtubule polymerization in vitro. Biochemistry (1975) 2.43
Role of tubulin-associated proteins in microtubule nucleation and elongation. J Mol Biol (1977) 2.38
The non-tubulin component of microtubule protein oligomers. Effect on self-association and hydrodynamic properties. J Biol Chem (1978) 2.36
Plectin sidearms mediate interaction of intermediate filaments with microtubules and other components of the cytoskeleton. J Cell Biol (1996) 2.35
Microtubule dynamics and chromosome motion visualized in living anaphase cells. J Cell Biol (1988) 2.31
Microtuble assembly: some possible regulatory mechanisms. J Supramol Struct (1974) 2.21
Differential turnover of tyrosinated and detyrosinated microtubules. Proc Natl Acad Sci U S A (1987) 2.15
Non-sarcomeric mode of myosin II organization in the fibroblast lamellum. J Cell Biol (1993) 2.10
Mode of centriole duplication and distribution. J Cell Biol (1990) 2.07
Identity and polymerization-stimulatory activity of the nontubulin proteins associated with microtubules. Biochemistry (1977) 2.07
Microtubule treadmilling in vivo. Science (1997) 2.05
Polarity of microtubules of the mitotic spindle. J Mol Biol (1978) 2.02
Self-assembly of microtubules in extracts of cultured HeLa cells and the identification of HeLa microtubule-associated proteins. Proc Natl Acad Sci U S A (1979) 1.99
Improved procedures for electron microscopic visualization of the cytoskeleton of cultured cells. J Struct Biol (1996) 1.93
Colcemid inhibition of cell growth and the characterization of a colcemid-binding activity in Saccharomyces cerevisiae. J Cell Biol (1972) 1.89
Microtubule dynamics at the G2/M transition: abrupt breakdown of cytoplasmic microtubules at nuclear envelope breakdown and implications for spindle morphogenesis. J Cell Biol (1996) 1.88
Origin of kinetochore microtubules in Chinese hamster ovary cells. Chromosoma (1980) 1.87
Immunofluorescence localization of HeLa cell microtubule-associated proteins on microtubules in vitro and in vivo. J Cell Biol (1980) 1.87
Microtubules are acetylated in domains that turn over slowly. J Cell Sci (1989) 1.86
Growth and lability of Chaetopterus oocyte mitotic spindles isolated in the presence of porcine brain tubulin. J Cell Biol (1974) 1.85
Centriole distribution during tripolar mitosis in Chinese hamster ovary cells. J Cell Biol (1984) 1.83
Immunostructural evidence for the template mechanism of microtubule nucleation. Nat Cell Biol (2000) 1.81
Widespread distribution of a 210,000 mol wt microtubule-associated protein in cells and tissues of primates. J Cell Biol (1980) 1.74
A rapid method for quantitative determination of microtubule protein using DEAE-cellulose filters. Anal Biochem (1972) 1.70
Removal of the projections from cytoplasmic microtubules in vitro by digestion with trypsin. J Biol Chem (1977) 1.65
Structure of kinetochore fibers: microtubule continuity and inter-microtubule bridges. Chromosoma (1981) 1.64
Centrosomal and non-centrosomal microtubules. Biol Cell (1999) 1.64
Microtubules of the kinetochore fiber turn over in metaphase but not in anaphase. J Cell Biol (1989) 1.64
The attachment of kinetochores to the pro-metaphase spindle in PtK1 cells. Recovery from low temperature treatment. Chromosoma (1981) 1.64
Two components of actin-based retrograde flow in sea urchin coelomocytes. Mol Biol Cell (1999) 1.63
Speckle microscopic evaluation of microtubule transport in growing nerve processes. Nat Cell Biol (1999) 1.60
Self-organization of a propulsive actin network as an evolutionary process. Proc Natl Acad Sci U S A (2001) 1.60
Steady state dynamics of intermediate filament networks. J Cell Biol (1992) 1.59
Proteins of the mammalian mitotic spindle: phosphorylation/dephosphorylation of MAP-4 during mitosis. J Cell Sci (1991) 1.58
Quantitative determination of the proportion of microtubule polymer present during the mitosis-interphase transition. J Cell Sci (1994) 1.57
Cadherin-mediated regulation of microtubule dynamics. Nat Cell Biol (2000) 1.56
Assembly and turnover of detyrosinated tubulin in vivo. J Cell Biol (1987) 1.55
Quantitative initiation of microtubule assembly by chromosomes from Chinese hamster ovary cells. Exp Cell Res (1978) 1.53
Analysis of actin dynamics at the leading edge of crawling cells: implications for the shape of keratocyte lamellipodia. Eur Biophys J (2003) 1.52
Cytoplasmic assembly of microtubules in cultured cells. J Cell Sci (1997) 1.52
Nucleation of microtubules from mitotic centrosomes is modulated by a phosphorylated epitope. J Cell Sci (1990) 1.48
Network contraction model for cell translocation and retrograde flow. Biochem Soc Symp (1999) 1.47
Progressive and spatially differentiated stability of microtubules in developing neuronal cells. J Cell Biol (1989) 1.46
Polarity sorting of actin filaments in cytochalasin-treated fibroblasts. J Cell Sci (1997) 1.43
Contribution of plus and minus end pathways to microtubule turnover. J Cell Sci (1999) 1.43
Dynamic aspects of intermediate filament networks in BHK-21 cells. Proc Natl Acad Sci U S A (1989) 1.40
Microtubule-associated proteins from cultured HeLa cells. Analysis of molecular properties and effects on microtubule polymerization. J Biol Chem (1980) 1.39
Transgenic AEQUORIN reveals organ-specific cytosolic Ca2+ responses to anoxia and Arabidopsis thaliana seedlings. Plant Physiol (1996) 1.38
Detyrosinated (Glu) microtubules are stabilized by an ATP-sensitive plus-end cap. J Cell Sci (2000) 1.38
Detection of single fluorescent microtubules and methods for determining their dynamics in living cells. Cell Motil Cytoskeleton (1988) 1.37
Direct visualization of bipolar myosin filaments in stress fibers of cultured fibroblasts. Cell Motil Cytoskeleton (1989) 1.37
Flagellar coordination in Chlamydomonas reinhardtii: isolation and reactivation of the flagellar apparatus. Science (1975) 1.36
In vitro aggregation of cytoplasmic microtubule subunits. Proc Natl Acad Sci U S A (1972) 1.36
A test of microtubule translocation during neurite elongation. J Cell Biol (1990) 1.35
The role of Xgrip210 in gamma-tubulin ring complex assembly and centrosome recruitment. J Cell Biol (2000) 1.34
Dynamic interactions of fluorescently labeled microtubule-associated proteins in living cells. J Cell Biol (1984) 1.34
Anaphase onset and dephosphorylation of mitotic phosphoproteins occur concomitantly. J Cell Sci (1989) 1.34
Distribution of cytoskeletal proteins sharing a conserved phosphorylated epitope. Eur J Cell Biol (1986) 1.30
Nucleation of microtubules in vitro by isolated spindle pole bodies of the yeast Saccharomyces cerevisiae. J Cell Biol (1978) 1.30
Control of the structural fidelity of microtubules by initiation sites. J Mol Biol (1982) 1.29
Intracellular free calcium and mitosis in mammalian cells: anaphase onset is calcium modulated, but is not triggered by a brief transient. J Cell Biol (1989) 1.28
Progress in protrusion: the tell-tale scar. Trends Biochem Sci (1999) 1.28
Meiosis, egg activation, and nuclear envelope breakdown are differentially reliant on Ca2+, whereas germinal vesicle breakdown is Ca2+ independent in the mouse oocyte. J Cell Biol (1992) 1.26
Detyrosination of alpha tubulin does not stabilize microtubules in vivo. J Cell Biol (1990) 1.26