2008
DOI: 10.1016/j.jmb.2008.05.055
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Cofilin Increases the Bending Flexibility of Actin Filaments: Implications for Severing and Cell Mechanics

Abstract: We determined the flexural (bending) rigidities of actin and cofilactin filaments from a cosine correlation function analysis of their thermally driven, two-dimensional fluctuations in shape. The persistence length of actin filaments is 9.8 µm, corresponding to a flexural rigidity of 0.040 pN µm 2 . Cofilin binding lowers the persistence length ∼5-fold to a value of 2.2 µm and the filament flexural rigidity to 0.0091 pN µm 2 . That cofilin-decorated filaments are more flexible than native filaments despite an … Show more

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Cited by 210 publications
(289 citation statements)
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References 45 publications
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“…For example, filament severing by the ADF/cofilin homolog actophorin occurs more readily at points of high curvature (23), consistent with a recently elucidated mechanism for severing by cofilin that depends on a mechanism that takes advantage of the mechanical instability at the border between two structural states of F-actin (25). However, it is not yet known whether cofilin binding or the cooperativity of cofilin binding is affected by local filament curvature, although it has been shown that its binding lowers the persistence length of actin (52) and that its binding is enhanced by tension on F-actin (53). Nor have other proteins that modify the persistence length of actin, such as drebrin (54) or tropomyosin (40), been tested for sensitivity to F-actin curvature.…”
Section: Discussionsupporting
confidence: 76%
“…For example, filament severing by the ADF/cofilin homolog actophorin occurs more readily at points of high curvature (23), consistent with a recently elucidated mechanism for severing by cofilin that depends on a mechanism that takes advantage of the mechanical instability at the border between two structural states of F-actin (25). However, it is not yet known whether cofilin binding or the cooperativity of cofilin binding is affected by local filament curvature, although it has been shown that its binding lowers the persistence length of actin (52) and that its binding is enhanced by tension on F-actin (53). Nor have other proteins that modify the persistence length of actin, such as drebrin (54) or tropomyosin (40), been tested for sensitivity to F-actin curvature.…”
Section: Discussionsupporting
confidence: 76%
“…We evaluated the salt dependence of actin filament flexural rigidity by directly visualizing filaments undergoing thermally driven fluctuations in shape and calculating their bending persistence lengths (L p ) from the average angular correlation along their contour length (34,35). Because filament contour lengths are comparable to L p , small changes in filament rigidity yield readily detectable changes in filament shape (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Microscope slides were cleaned with absolute ethanol then 0.1 M KOH, followed by extensive rinsing with MilliQ water. The actin filament L p values were determined from an angular correlation analysis of digitized filament images (>20 images, n = 200-500 individual filaments) using a custom MATLAB script as described in detail (11,12,19,27).…”
Section: Methodsmentioning
confidence: 99%
“…Alteration of WT yeast actin filament flexibility and severing by yeast cofilin must originate from E167-and stiffness cation-independent perturbations. However, the severing activities of both yeast and vertebrate cofilins correlate with the ability to alter filament mechanical properties (12), favoring a shared mechanical mechanism for severing (5,11,12,15,19,41). These differences among cofilin orthologs are presumably explained by their relatively low sequence identity (∼40%), which may afford yeast cofilin with additional or distinct (yeast) actin interactions from vertebrate cofilin (42).…”
Section: Significancementioning
confidence: 99%
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