Lamellar phase of stacked two-dimensional rafts of actin filaments
Physical review letters, 2003•APS
We examined liquid crystalline phases of the cytoskeletal polyelectrolyte filamentous (F-)
actin in the presence of multivalent counterions. As a function of increasing ion
concentration, the F-actin rods in either an isotropic or a nematic phase will transform into a
new and unexpected lamellar phase of cross-linked rafts (LXR phase), before condensing
into a bundled phase of parallel, close-packed rods. This behavior is generic for alkali earth
divalent ions M g 2+, C a 2+, S r 2+, and B a 2+, and the structural transitions are achieved …
actin in the presence of multivalent counterions. As a function of increasing ion
concentration, the F-actin rods in either an isotropic or a nematic phase will transform into a
new and unexpected lamellar phase of cross-linked rafts (LXR phase), before condensing
into a bundled phase of parallel, close-packed rods. This behavior is generic for alkali earth
divalent ions M g 2+, C a 2+, S r 2+, and B a 2+, and the structural transitions are achieved …
We examined liquid crystalline phases of the cytoskeletal polyelectrolyte filamentous (F-)actin in the presence of multivalent counterions. As a function of increasing ion concentration, the F-actin rods in either an isotropic or a nematic phase will transform into a new and unexpected lamellar phase of cross-linked rafts ( phase), before condensing into a bundled phase of parallel, close-packed rods. This behavior is generic for alkali earth divalent ions , , , and , and the structural transitions are achieved without any architecture-specific actin-binding linker proteins.
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