Add to ORKGPropagating actin waves are dynamic supramolecular structures formed by the self-assembly of proteins within living cells. They are built from actin filaments together with single-headed myosin, the Arp2/3 complex, and coronin in a defined three-dimensional order. The function of these waves in structuring the cell cortex is studied on the substrate-attached surface of Dictyostelium cells by the use of total internal reflection fluorescence (TIRF) microscopy. Actin waves separate two areas of the cell cortex from each other, which are distinguished by the arrangement of actin filaments. The Arp2/3 complex dominates in the area enclosed by a wave, where it has the capacity of building dendritic structures, while the proteins prevailing in th...
The membrane and actin cortex of a motile cell can autonomously differentiate into two states, one t...
Multi-color fluorescence imaging experiments of wave forming Dictyostelium cells have revealed that ...
Actin networks in certain single-celled organisms exhibit a complex pattern-forming dynamics that st...
AbstractBackground: In the cortical region of motile cells, the actin network rapidly reorganizes as...
BACKGROUND: In the cortical region of motile cells, the actin network rapidly reorganizes as require...
Actin polymerization is typically initiated at specific sites in a cell by membrane-bound protein co...
AbstractActin polymerization is typically initiated at specific sites in a cell by membrane-bound pr...
Plasma membrane and underlying actin network are connected to a functional unit that by non-linear i...
Actin waves are complex dynamical patterns of the dendritic network of filamentous actin in eukaryot...
At the leading edge of a motile cell, actin polymerizes in close apposition to the plasma membrane. ...
Actin filaments and associated proteins undergo wave-like movement in various cell types. Recent stu...
AbstractAt the leading edge of a motile cell, actin polymerizes in close apposition to the plasma me...
Actin filaments and associated proteins undergo wave-like movement in various cell types. Recent stu...
AbstractThe crawling locomotion and shape of eukaryotic cells have been associated with the stochast...
<div><p>Actin waves are complex dynamical patterns of the dendritic network of filamentous actin in ...
The membrane and actin cortex of a motile cell can autonomously differentiate into two states, one t...
Multi-color fluorescence imaging experiments of wave forming Dictyostelium cells have revealed that ...
Actin networks in certain single-celled organisms exhibit a complex pattern-forming dynamics that st...
AbstractBackground: In the cortical region of motile cells, the actin network rapidly reorganizes as...
BACKGROUND: In the cortical region of motile cells, the actin network rapidly reorganizes as require...
Actin polymerization is typically initiated at specific sites in a cell by membrane-bound protein co...
AbstractActin polymerization is typically initiated at specific sites in a cell by membrane-bound pr...
Plasma membrane and underlying actin network are connected to a functional unit that by non-linear i...
Actin waves are complex dynamical patterns of the dendritic network of filamentous actin in eukaryot...
At the leading edge of a motile cell, actin polymerizes in close apposition to the plasma membrane. ...
Actin filaments and associated proteins undergo wave-like movement in various cell types. Recent stu...
AbstractAt the leading edge of a motile cell, actin polymerizes in close apposition to the plasma me...
Actin filaments and associated proteins undergo wave-like movement in various cell types. Recent stu...
AbstractThe crawling locomotion and shape of eukaryotic cells have been associated with the stochast...
<div><p>Actin waves are complex dynamical patterns of the dendritic network of filamentous actin in ...
The membrane and actin cortex of a motile cell can autonomously differentiate into two states, one t...
Multi-color fluorescence imaging experiments of wave forming Dictyostelium cells have revealed that ...
Actin networks in certain single-celled organisms exhibit a complex pattern-forming dynamics that st...
