• Title of article

    Probing the structure of F-actin: cross-links constrain atomic models and modify actin dynamics

  • Author/Authors

    Albina Orlova، نويسنده , , Vitold E. Galkin، نويسنده , , Margaret S. VanLoock، نويسنده , , Eldar Kim، نويسنده , , Alexander Shvetsov، نويسنده , , Emil Reisler، نويسنده , , Edward H Egelman، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2001
  • Pages
    12
  • From page
    95
  • To page
    106
  • Abstract
    Cross-links between protomers in F-actin can be used as a very sensitive probe of both the dynamics and structure of F-actin. We have characterized filaments formed from a previously described yeast actin Q41C mutant, where disulfide bonds can be formed between the Cys41 that is introduced into subdomain-2 and Cys374 on an adjacent protomer. We find that the distribution of cross-linked n-mers shows no cooperativity and corresponds to a random probability cross-linking reaction. The random distribution suggests that disulfide formation does not cause a significant perturbation of the F-actin structure. Consistent with this lack of perturbation, three-dimensional reconstructions of extensively cross-linked filaments, using a new approach to helical image analysis, show very small structural changes with respect to uncross-linked filaments. This finding is in conflict with refined models but in agreement with the original Holmes et al. model for F-actin. Under conditions where 94 % of the protomers are linked by disulfide bonds, the distribution of filament twist becomes more heterogeneous with respect to control filaments. A molecular model suggests that strain, introduced by the disulfide, is relieved by increasing the twist of the long-pitch actin helices. Disulfide formation makes yeast actin filaments ∼three times less flexible in terms of bending and similar, in this respect, to vertebrate skeletal muscle F-actin. These observations support previous reports that the rigidity of F-actin can be controlled by the position of subdomain-2, and that this region is more flexible in yeast F-actin than in skeletal muscle F-actin.
  • Keywords
    F-actin , Image analysis , Electron microscopy
  • Journal title
    Journal of Molecular Biology
  • Serial Year
    2001
  • Journal title
    Journal of Molecular Biology
  • Record number

    1241056