Primary Citation of Related Structures: 2Q1N, 2Q31, 2Q36
PubMed Abstract:
The structure of actin in its monomeric form is known at high resolution, while the structure of filamentous F-actin is only understood at considerably lower resolution. Knowing precisely how the monomers of actin fit together would lead to a deeper understanding of the dynamic behavior of the actin filament ...
The structure of actin in its monomeric form is known at high resolution, while the structure of filamentous F-actin is only understood at considerably lower resolution. Knowing precisely how the monomers of actin fit together would lead to a deeper understanding of the dynamic behavior of the actin filament. Here, a series of crystal structures of actin dimers are reported which were prepared by cross-linking in either the longitudinal or the lateral direction in the filament state. Laterally cross-linked dimers, comprised of monomers belonging to different protofilaments, are found to adopt configurations in crystals that are not related to the native structure of filamentous actin. In contrast, multiple structures of longitudinal dimers consistently reveal the same interface between monomers within a single protofilament. The reappearance of the same longitudinal interface in multiple crystal structures adds weight to arguments that the interface visualized is similar to that in actin filaments. Highly conserved atomic interactions involving residues 199-205 and 287-291 are highlighted.
Related Citations:
The crystal structure of a cross-linked actin dimer suggests a detailed molecular interface in F-actin. Kudryashov, D.S., Sawaya, M.R., Adisetiyo, H., Norcross, T., Hegyi, G., Reisler, E., Yeates, T.O. (2005) Proc Natl Acad Sci U S A 102: 13105
Organizational Affiliation:
UCLA Department of Chemistry and Biochemistry, Los Angeles, CA 90095-1569, USA.
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