eLife (Feb 2023)

Structural insights into actin isoforms

  • Amandeep S Arora,
  • Hsiang-Ling Huang,
  • Ramanpreet Singh,
  • Yoshie Narui,
  • Andrejus Suchenko,
  • Tomoyuki Hatano,
  • Sarah M Heissler,
  • Mohan K Balasubramanian,
  • Krishna Chinthalapudi

DOI
https://doi.org/10.7554/eLife.82015
Journal volume & issue
Vol. 12

Abstract

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Actin isoforms organize into distinct networks that are essential for the normal function of eukaryotic cells. Despite a high level of sequence and structure conservation, subtle differences in their design principles determine the interaction with myosin motors and actin-binding proteins. Therefore, identifying how the structure of actin isoforms relates to function is important for our understanding of normal cytoskeletal physiology. Here, we report the high-resolution structures of filamentous skeletal muscle α-actin (3.37 Å), cardiac muscle α-actin (3.07 Å), ß-actin (2.99 Å), and γ-actin (3.38 Å) in the Mg2+·ADP state with their native post-translational modifications. The structures revealed isoform-specific conformations of the N-terminus that shift closer to the filament surface upon myosin binding, thereby establishing isoform-specific interfaces. Collectively, the structures of single-isotype, post-translationally modified bare skeletal muscle α-actin, cardiac muscle α-actin, ß-actin, and γ-actin reveal general principles, similarities, and differences between isoforms. They complement the repertoire of known actin structures and allow for a comprehensive understanding of in vitro and in vivo functions of actin isoforms.

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