Published in J Cell Biol on July 01, 1992
Cell motility driven by actin polymerization. Biophys J (1996) 7.29
The human Arp2/3 complex is composed of evolutionarily conserved subunits and is localized to cellular regions of dynamic actin filament assembly. J Cell Biol (1997) 4.34
Dynamics of capping protein and actin assembly in vitro: uncapping barbed ends by polyphosphoinositides. J Cell Biol (1996) 3.97
Myosin is involved in postmitotic cell spreading. J Cell Biol (1995) 3.03
Directional actin polymerization associated with spotted fever group Rickettsia infection of Vero cells. Infect Immun (1993) 2.59
Actin-based movement of Listeria monocytogenes: actin assembly results from the local maintenance of uncapped filament barbed ends at the bacterium surface. J Cell Biol (1995) 2.27
How Listeria exploits host cell actin to form its own cytoskeleton. II. Nucleation, actin filament polarity, filament assembly, and evidence for a pointed end capper. J Cell Biol (1992) 2.26
Actin-based motility of intracellular microbial pathogens. Microbiol Mol Biol Rev (2001) 2.17
Polarity in action: asymmetric protein localization in bacteria. J Bacteriol (2001) 2.05
Probing polymerization forces by using actin-propelled lipid vesicles. Proc Natl Acad Sci U S A (2003) 1.92
The isolated comet tail pseudopodium of Listeria monocytogenes: a tail of two actin filament populations, long and axial and short and random. J Cell Biol (1997) 1.69
Yeast mitochondria contain ATP-sensitive, reversible actin-binding activity. Mol Biol Cell (1994) 1.65
Mechanism of Cdc42-induced actin polymerization in neutrophil extracts. J Cell Biol (1998) 1.51
Targeting of Listeria monocytogenes ActA protein to the plasma membrane as a tool to dissect both actin-based cell morphogenesis and ActA function. EMBO J (1995) 1.46
Class VI unconventional myosin is required for spermatogenesis in Drosophila. Mol Biol Cell (1999) 1.43
Arp2/3-mediated actin-based motility: a tail of pathogen abuse. Cell Host Microbe (2013) 1.40
Transcytosis of Listeria monocytogenes across the intestinal barrier upon specific targeting of goblet cell accessible E-cadherin. J Exp Med (2011) 1.36
Polymerizing microtubules activate site-directed F-actin assembly in nerve growth cones. Mol Biol Cell (1999) 1.25
Vinculin proteolysis unmasks an ActA homolog for actin-based Shigella motility. J Cell Biol (1997) 1.14
Intracellular transport of hepatitis B virus. World J Gastroenterol (2007) 1.14
Cleavage of Shigella surface protein VirG occurs at a specific site, but the secretion is not essential for intracellular spreading. J Bacteriol (1995) 1.09
An order of magnitude faster AIP1-associated actin disruption than nucleation by the Arp2/3 complex in lamellipodia. PLoS One (2009) 1.06
Isoforms of alpha-actinin from cardiac, smooth, and skeletal muscle form polar arrays of actin filaments. J Cell Biol (2000) 1.05
Deformations in actin comets from rocketing beads. Biophys J (2006) 1.04
Polarized cells, polar actions. J Bacteriol (1993) 1.03
VASP protects actin filaments from gelsolin: an in vitro study with implications for platelet actin reorganizations. Cell Motil Cytoskeleton (2000) 1.02
Inside view of cell locomotion through single-molecule: fast F-/G-actin cycle and G-actin regulation of polymer restoration. Proc Jpn Acad Ser B Phys Biol Sci (2010) 1.00
Three-dimensional architecture of actin filaments in Listeria monocytogenes comet tails. Proc Natl Acad Sci U S A (2013) 0.92
An analysis of actin delivery in the acrosomal process of thyone. Biophys J (1999) 0.91
Effects of the antioxidant alpha-lipoic acid on human umbilical vein endothelial cells infected with Rickettsia rickettsii. Infect Immun (1998) 0.91
A potential role for the interaction of Wolbachia surface proteins with the Brugia malayi glycolytic enzymes and cytoskeleton in maintenance of endosymbiosis. PLoS Negl Trop Dis (2013) 0.89
Quantitative analysis of actin turnover in Listeria comet tails: evidence for catastrophic filament turnover. Biophys J (2010) 0.87
Control of actin-based motility through localized actin binding. Phys Biol (2013) 0.80
Preparing a discreet escape: Microsporidia reorganize host cytoskeleton prior to non-lytic exit from C. elegans intestinal cells. Worm (2012) 0.78
Host actin polymerization tunes the cell division cycle of an intracellular pathogen. Cell Rep (2015) 0.76
Genome-Wide Analysis of Host Responses to Four Different Types of Microorganisms in Bombyx Mori (Lepidoptera: Bombycidae). J Insect Sci (2016) 0.75
Theory from the Oster Laboratory Leaps Ahead of Experiment in Understanding Actin-Based Cellular Motility. Biophys J (2016) 0.75
Listeria monocytogenes Replicate in Bone Marrow-Derived CD11c(+) Cells but Not in Dendritic Cells Isolated from the Murine Gastrointestinal Tract. J Immunol (2017) 0.75
Actin filaments and the growth, movement, and spread of the intracellular bacterial parasite, Listeria monocytogenes. J Cell Biol (1989) 15.41
Formation of arrowhead complexes with heavy meromyosin in a variety of cell types. J Cell Biol (1969) 13.82
Role of hemolysin for the intracellular growth of Listeria monocytogenes. J Exp Med (1988) 12.95
Organization of an actin filament-membrane complex. Filament polarity and membrane attachment in the microvilli of intestinal epithelial cells. J Cell Biol (1975) 8.97
Reticulum cell sarcoma: an effector cell in antibody-dependent cell-mediated immunity. J Immunol (1975) 7.00
Adoptive transfer of immunity to Listeria monocytogenes. The influence of in vitro stimulation on lymphocyte subset requirements. J Immunol (1987) 6.75
Cell wall replication in Streptococcus pyogenes. Science (1962) 6.05
Listeria monocytogenes moves rapidly through the host-cell cytoplasm by inducing directional actin assembly. Proc Natl Acad Sci U S A (1990) 5.45
Isolation of Listeria monocytogenes small-plaque mutants defective for intracellular growth and cell-to-cell spread. Infect Immun (1990) 4.74
Actin filament destruction by osmium tetroxide. J Cell Biol (1978) 4.66
The organization of actin filaments in the stereocilia of cochlear hair cells. J Cell Biol (1980) 3.64
Actin filament nucleation by the bacterial pathogen, Listeria monocytogenes. J Cell Biol (1990) 2.54
How Listeria exploits host cell actin to form its own cytoskeleton. II. Nucleation, actin filament polarity, filament assembly, and evidence for a pointed end capper. J Cell Biol (1992) 2.26
Mapping of the microvillar 110K-calmodulin complex: calmodulin-associated or -free fragments of the 110-kD polypeptide bind F-actin and retain ATPase activity. J Cell Biol (1988) 1.35
Calcium-regulated cooperative binding of the microvillar 110K-calmodulin complex to F-actin: formation of decorated filaments. J Cell Biol (1987) 1.33
Substructure of the myosin molecule. 3. Preparation of single-headed derivatives of myosin. J Mol Biol (1973) 1.33
Localised insertion of new cell wall in Bacillus subtilis. Nature (1978) 1.31
Characterization of intestinal microvillar membrane disks: detergent-resistant membrane sheets enriched in associated brush border myosin I (110K-calmodulin). J Cell Biol (1989) 1.23
Three-dimensional reconstruction of F-actin, thin filaments and decorated thin filaments. J Mol Biol (1970) 4.82
Reconstruction of three-dimensional images from electron micrographs of structures with helical symmetry. J Mol Biol (1970) 3.89
Isolation, characterization and structure of bacterial flagellar motors containing the switch complex. J Mol Biol (1994) 3.71
F-actin is a helix with a random variable twist. Nature (1982) 3.32
Flagellar hook and hook-associated proteins of Salmonella typhimurium and their relationship to other axial components of the flagellum. J Mol Biol (1990) 2.61
Localization of the Salmonella typhimurium flagellar switch protein FliG to the cytoplasmic M-ring face of the basal body. Proc Natl Acad Sci U S A (1992) 2.57
The bacterial flagellar cap as the rotary promoter of flagellin self-assembly. Science (2000) 2.52
Actin filaments, stereocilia, and hair cells: how cells count and measure. Annu Rev Cell Biol (1992) 2.44
Actin filaments elongate from their membrane-associated ends. J Cell Biol (1981) 2.40
How Listeria exploits host cell actin to form its own cytoskeleton. II. Nucleation, actin filament polarity, filament assembly, and evidence for a pointed end capper. J Cell Biol (1992) 2.26
How actin filaments pack into bundles. Cold Spring Harb Symp Quant Biol (1982) 2.10
Three-dimensional structure of the frozen-hydrated flagellar filament. The left-handed filament of Salmonella typhimurium. J Mol Biol (1987) 2.02
Actin in the inner ear: the remarkable structure of the stereocilium. Nature (1980) 1.99
Evidence for cleft closure in actomyosin upon ADP release. Nat Struct Biol (2000) 1.97
F actin bundles in Drosophila bristles. I. Two filament cross-links are involved in bundling. J Cell Biol (1995) 1.97
Actin filaments, stereocilia, and hair cells of the bird cochlea. II. Packing of actin filaments in the stereocilia and in the cuticular plate and what happens to the organization when the stereocilia are bent. J Cell Biol (1983) 1.97
Mass determination and estimation of subunit stoichiometry of the bacterial hook-basal body flagellar complex of Salmonella typhimurium by scanning transmission electron microscopy. Proc Natl Acad Sci U S A (1992) 1.86
Rotational symmetry of the C ring and a mechanism for the flagellar rotary motor. Proc Natl Acad Sci U S A (1999) 1.86
Climate change and the integrity of science. Science (2010) 1.80
Actin filaments, stereocilia, and hair cells of the bird cochlea. IV. How the actin filaments become organized in developing stereocilia and in the cuticular plate. Dev Biol (1986) 1.64
Structure of bacterial flagellar filaments at 11 A resolution: packing of the alpha-helices. J Mol Biol (1995) 1.63
The wily ways of a parasite: induction of actin assembly by Listeria. Trends Microbiol (1993) 1.62
Image reconstruction of the flagellar basal body of Salmonella typhimurium. J Mol Biol (1989) 1.60
Structures of bacterial flagellar motors from two FliF-FliG gene fusion mutants. J Bacteriol (2001) 1.52
Bacterial flagellar structure and function. Can J Microbiol (1988) 1.51
Structure of the tubular variants of the head of bacteriophage T4 (polyheads). I. Arrangement of subunits in some classes of polyheads. J Mol Biol (1972) 1.51
Structure of F-actin needles from extracts of sea urchin oocytes. J Mol Biol (1981) 1.50
Flagellar hook structures of Caulobacter and Salmonella and their relationship to filament structure. J Mol Biol (1982) 1.46
Image analysis of helical objects: the Brandeis Helical Package. J Struct Biol (1996) 1.44
Formation of actin filament bundles in the ring canals of developing Drosophila follicles. J Cell Biol (1996) 1.41
The variable twist of actin and its modulation by actin-binding proteins. J Cell Biol (1987) 1.33
Automatic measurement of interference photographs from the ultracentrifuge. Anal Biochem (1972) 1.30
Three-dimensional structure of the complex flagellar filament of Rhizobium lupini and its relation to the structure of the plain filament. J Mol Biol (1987) 1.28
Helical disorder and the filament structure of F-actin are elucidated by the angle-layered aggregate. J Mol Biol (1983) 1.27
Evidence for a conformational change in actin induced by fimbrin (N375) binding. J Cell Biol (1997) 1.27
Changes in the organization of actin filaments in the stereocilia of noise-damaged lizard cochleae. Hear Res (1982) 1.26
Actin filaments, stereocilia, and hair cells of the bird cochlea. V. How the staircase pattern of stereociliary lengths is generated. J Cell Biol (1988) 1.21
The organization of the Caulobacter crescentus flagellar filament. J Mol Biol (1989) 1.21
Growth conditions control the size and order of actin bundles in vitro. Biophys J (1991) 1.21
Additional structures associated with bacterial flagellar basal body. J Mol Biol (1990) 1.20
A change in twist of actin provides the force for the extension of the acrosomal process in Limulus sperm: the false-discharge reaction. J Cell Biol (1982) 1.19
Mechanical tuning of free-standing stereociliary bundles and frequency analysis in the alligator lizard cochlea. Hear Res (1983) 1.18
Image analysis shows that variations in actin crossover spacings are random, not compensatory. Biophys J (1992) 1.18
Substructure of the flagellar basal body of Salmonella typhimurium. J Mol Biol (1992) 1.18
Three-dimensional reconstruction of the flagellar filament of Caulobacter crescentus. A flagellin lacking the outer domain and its amino acid sequence lacking an internal segment. J Mol Biol (1988) 1.17
Pairwise perturbation of flagellin subunits. The structural basis for the differences between plain and complex bacterial flagellar filaments. J Mol Biol (1986) 1.16
Membrane events in the acrosomal reaction of Limulus sperm. Membrane fusion, filament-membrane particle attachment, and the source and formation of new membrane surface. J Cell Biol (1979) 1.15
Analysis of a FliM-FliN flagellar switch fusion mutant of Salmonella typhimurium. J Bacteriol (1996) 1.15
Actin filaments, stereocilia, and hair cells of the bird cochlea. III. The development and differentiation of hair cells and stereocilia. Dev Biol (1986) 1.11
Domain organization of the subunit of the Salmonella typhimurium flagellar hook. J Mol Biol (1993) 1.10
Three-dimensional reconstruction of an actin bundle. J Cell Biol (1988) 1.10
Actin crosslinking protein EF-1a of Dictyostelium discoideum has a unique bonding rule that allows square-packed bundles. J Struct Biol (1993) 1.08
Methods to visualize actin polymerization associated with bacterial invasion. Methods Enzymol (1994) 1.05
A Caulobacter gene involved in polar morphogenesis. J Bacteriol (1990) 1.03
The actin filament content of hair cells of the bird cochlea is nearly constant even though the length, width, and number of stereocilia vary depending on the hair cell location. J Cell Biol (1988) 1.03
The distribution of hair cell bundle lengths and orientations suggests an unexpected pattern of hair cell stimulation in the chick cochlea. Hear Res (1987) 1.01
Actin filaments, stereocilia and hair cells of the bird cochlea. VI. How the number and arrangement of stereocilia are determined. Development (1992) 1.01
Image reconstruction of the flagellar basal body of Caulobacter crescentus. J Mol Biol (1989) 1.01
Movement of the actin filament bundle in Mytilus sperm: a new mechanism is proposed. J Cell Biol (1987) 1.00
Functional organization of the cytoskeleton. Hear Res (1986) 1.00
How to build a bend into an actin bundle. J Mol Biol (1984) 0.99
The structure of plasmodesmata as revealed by plasmolysis, detergent extraction, and protease digestion. J Cell Biol (1991) 0.97
The form and function of actin. A product of its unique design. Cell Muscle Motil (1984) 0.97
A molecular switch: subunit rotations involved in the right-handed to left-handed transitions of Salmonella typhimurium flagellar filaments. J Mol Biol (1991) 0.96
Size of the export channel in the flagellar filament of Salmonella typhimurium. Ultramicroscopy (1993) 0.95
Movement generated by interactions between the dense material at the ends of microtubles and non-actin-containing microfilaments in Sticholonche zanclea. J Cell Biol (1977) 0.94
Angular disorder in actin: is it consistent with general principles of protein structure? J Mol Biol (1991) 0.94
Observations on how actin filaments become organized in cells. J Cell Biol (1984) 0.93
Reconstruction of symmetry deviations: a procedure to analyze partially decorated F-actin and other incomplete structures. Ultramicroscopy (1998) 0.92
Macromolecular assemblages. Sizing things up. Curr Opin Struct Biol (1997) 0.92
Evidence for fascin cross-links between the actin filaments in coelomocyte filopodia. Exp Cell Res (1980) 0.91
The distribution of plasmodesmata and its relationship to morphogenesis in fern gametophytes. Development (1990) 0.90
A three-start helical sheath on the flagellar filament of Caulobacter crescentus. J Bacteriol (1992) 0.87
Non-helical perturbations of the flagellar filament: Salmonella typhimurium SJW117 at 9.6 A resolution. J Mol Biol (1998) 0.86
A polymorphism peculiar to bipolar actin bundles. Biophys J (1990) 0.86
Structure of the tubular variants of the head of bacteriophage T4 (polyheads). II. Structural transition from a hexamer to a 6+1 morphological unit. J Mol Biol (1972) 0.85
A low resolution electron-density map of lipoyl transsuccinylase, the core of the -ketoglutarate dehydrogenase complex. Cold Spring Harb Symp Quant Biol (1972) 0.83
alpha-Ketoglutarate dehydrogenase complex may be heterogeneous in quaternary structure. J Mol Biol (1983) 0.83
The cytoskeleton of protozoan parasites. Curr Opin Cell Biol (1996) 0.82
New observations on the stereocilia of hair cells of the chick cochlea. Hear Res (1988) 0.82
Enzyme complexes. A farewell to arms. Nature (1992) 0.78
Conformational switching in the flagellar filament of Salmonella typhimurium. J Mol Biol (1992) 0.77
A double-helical structure found on the re-aggregation of the protein of barley stripe mosaic virus. J Mol Biol (1969) 0.77
Electron diffraction of helical particles. Ultramicroscopy (1994) 0.76
Visible viruses and geodesic domes. Nature (1999) 0.75
Particle weight of turnip yellow mosaic virus. J Mol Biol (1966) 0.75
Positions of ribosomal subunits. Science (1969) 0.75
Scanning transmission electron microscopic study of alpha-ketoglutarate dehydrogenase complex from Escherichia coli. J Biol Chem (1987) 0.75