The Arp2/3 complex, first isolated from Acanthamoeba castellani by affinity chromatography on profilin, consists of seven polypeptides; two actinrelated proteins, Arp2 and Arp3; and five apparently novel proteins, p40, p35, p19, p18, and p14 (Machesky et al., 1994). The complex is homogeneous by hydrodynamic criteria with a Stokes' radius of 5.3 nm by gel filtration, sedimentation coefficient of 8.7 S, and molecular mass of 197 kD by analytical ultracentrifugation. The stoichiometry of the subunits is 1:1:1:1:1:1:1, indicating the purified complex contains one copy each of seven polypeptides. In electron micrographs, the complex has a bilobed or horseshoe shape with outer dimensions of ∼13 × 10 nm, and mathematical models of such a shape and size are consistent with the measured hydrodynamic properties. Chemical cross-linking with a battery of cross-linkers of different spacer arm lengths and chemical reactivities identify the following nearest neighbors within the complex: Arp2 and p40; Arp2 and p35; Arp3 and p35; Arp3 and either p18 or p19; and p19 and p14. By fluorescent antibody staining with anti-p40 and -p35, the complex is concentrated in the cortex of the ameba, especially in linear structures, possibly actin filament bundles, that lie perpendicular to the leading edge. Purified Arp2/3 complex binds actin filaments with a Kd of 2.3 μM and a stoichiometry of approximately one complex molecule per actin monomer. In electron micrographs of negatively stained samples, Arp2/3 complex decorates the sides of actin filaments. EDC/NHS cross-links actin to Arp3, p35, and a low molecular weight subunit, p19, p18, or p14. We propose structural and topological models for the Arp2/3 complex and suggest that affinity for actin filaments accounts for the localization of complex subunits to actinrich regions of Acanthamoeba.
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27 January 1997
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January 27 1997
Structure, Subunit Topology, and Actin-binding Activity of the Arp2/3 Complex from Acanthamoeba
R. Dyche Mullins,
R. Dyche Mullins
*Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205; and ‡Boston Biomedical Research Institute, Boston, Massachusetts 02134
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Walter F. Stafford,
Walter F. Stafford
*Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205; and ‡Boston Biomedical Research Institute, Boston, Massachusetts 02134
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Thomas D. Pollard
Thomas D. Pollard
*Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205; and ‡Boston Biomedical Research Institute, Boston, Massachusetts 02134
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R. Dyche Mullins
*Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205; and ‡Boston Biomedical Research Institute, Boston, Massachusetts 02134
Walter F. Stafford
*Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205; and ‡Boston Biomedical Research Institute, Boston, Massachusetts 02134
Thomas D. Pollard
*Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205; and ‡Boston Biomedical Research Institute, Boston, Massachusetts 02134
Address all correspondence to R. Dyche Mullins, Department of Cell Biology and Anatomy, Johns Hopkins University School of Medicine, 725 N. Wolfe St., Baltimore, Maryland 21205. Tel.: (410) 955-5672. Fax: (410) 955-4129. E-mail: [email protected]
Received:
July 29 1996
Revision Received:
October 02 1996
Online ISSN: 1540-8140
Print ISSN: 0021-9525
1997
J Cell Biol (1997) 136 (2): 331–343.
Article history
Received:
July 29 1996
Revision Received:
October 02 1996
Citation
R. Dyche Mullins, Walter F. Stafford, Thomas D. Pollard; Structure, Subunit Topology, and Actin-binding Activity of the Arp2/3 Complex from Acanthamoeba. J Cell Biol 27 January 1997; 136 (2): 331–343. doi: https://doi.org/10.1083/jcb.136.2.331
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