Latrunculin resistance mechanism of non‐conventional actin NAP1 uncovered by molecular dynamics simulations

Abstract: Monomeric G‐actin polymerizes into F‐actin to perform various cellular functions. Actin depolymerization drugs, such as latrunculin‐A (Lat‐A), inhibit filament formation and disrupt the cytoskeleton. Interestingly, the green algae Chlamydomonas alternatively produces a non‐conventional actin, NAP1, that responds to inhibition by latrunculin. However, the molecular mechanism underlying latrunculin resistance of NAP1 remains unclear because of the difficulty due to its low in vitro polymerizability. Instead of b… Show more