AbstractMyosin VI can move along actin filaments to serve as a transport motor. It is also thought to anchor vesicles or proteins to actin. How these two diverse activities, which require very different modes of interaction with actin, are mediated is not understood. Using single molecule observations, Altman et al. (2004)([this issue of Cell]) demonstrate that load applied to myosin VI can convert this motor from a transporter to an anchor
ABSTRACT Myosin-VI is a dimeric isoform of unconventional myosins. Single molecule experiments indic...
AbstractMyosin-VI is a dimeric isoform of unconventional myosins. Single molecule experiments indica...
SummaryA recent study has revealed an unexpected change in conformation of the myosin VI converter d...
AbstractMyosin VI is thought to function as both a transporter and an anchor. While in vitro studies...
AbstractMyosin VI is thought to function as both a transporter and an anchor. While in vitro studies...
Mammalian myosin V motors transport cargo processively along actin filaments. Recent biophysical and...
Myosin VI is a molecular motor that harnesses the conformational changes caused by ATP hydrolysis to...
Cargos that are transported along actin frequently switch filaments. New work on single myosin V mot...
A processive molecular motor must coordinate the enzymatic state of its two catalytic domains in ord...
Myosin VI is a two-headed molecular motor that moves along an actin filament in the direction opposi...
International audienceFundamental to cellular processes are directional movements driven by molecula...
International audienceFundamental to cellular processes are directional movements driven by molecula...
AbstractThe recent observation that class VI myosins move in a direction opposite to all other known...
ABSTRACT Myosin VI is a two-headed molecular motor that moves along an actin filament in the directi...
SummaryFundamental to cellular processes are directional movements driven by molecular motors. A com...
ABSTRACT Myosin-VI is a dimeric isoform of unconventional myosins. Single molecule experiments indic...
AbstractMyosin-VI is a dimeric isoform of unconventional myosins. Single molecule experiments indica...
SummaryA recent study has revealed an unexpected change in conformation of the myosin VI converter d...
AbstractMyosin VI is thought to function as both a transporter and an anchor. While in vitro studies...
AbstractMyosin VI is thought to function as both a transporter and an anchor. While in vitro studies...
Mammalian myosin V motors transport cargo processively along actin filaments. Recent biophysical and...
Myosin VI is a molecular motor that harnesses the conformational changes caused by ATP hydrolysis to...
Cargos that are transported along actin frequently switch filaments. New work on single myosin V mot...
A processive molecular motor must coordinate the enzymatic state of its two catalytic domains in ord...
Myosin VI is a two-headed molecular motor that moves along an actin filament in the direction opposi...
International audienceFundamental to cellular processes are directional movements driven by molecula...
International audienceFundamental to cellular processes are directional movements driven by molecula...
AbstractThe recent observation that class VI myosins move in a direction opposite to all other known...
ABSTRACT Myosin VI is a two-headed molecular motor that moves along an actin filament in the directi...
SummaryFundamental to cellular processes are directional movements driven by molecular motors. A com...
ABSTRACT Myosin-VI is a dimeric isoform of unconventional myosins. Single molecule experiments indic...
AbstractMyosin-VI is a dimeric isoform of unconventional myosins. Single molecule experiments indica...
SummaryA recent study has revealed an unexpected change in conformation of the myosin VI converter d...
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