Add to ORKGRab GTPases and their regulatory proteins play a crucial role in vesicle-mediated membrane trafficking. During vesicle membrane tethering Rab GTPases are activated by GEFs (guanine nucleotide exchange factors) and then inactivated by GAPs (GTPase activating proteins). Recent evidence shows that in addition to activating and inactivating Rab GTPases, both Rab GEFs and GAPs directly contribute to membrane tethering events during vesicle traffic. Other studies have extended the range of processes, in which Rabs function, and revealed roles for Rabs and their GAPs in the regulation of autophagy. Here, we will discuss these advances and the emerging relationship between the domain architectures of Rab GEFs and vesicle coat protein complexes link...
This unit describes methods to identify proteins interacting with, and regulating, Rab GTPases. Rabs...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
Activation and inactivation of Rab GTPases by GEFs and GAPs promotes or terminates vesicle tethering...
Rab GTPases and their regulatory proteins play a crucial role in vesicle-mediated membrane trafficki...
Rabs are GTP-binding proteins with conserved functions in membrane trafficking. They are regulated b...
Transport of cargo proteins through the eukaryotic vesicle trafficking system is a highly specific a...
Rab GTPases are master regulators of membrane traffic. By binding to distinct sets of effector prote...
Of the approximately 70 human Rab GTPases, nearly three-quarters are involved in endo-cytic traffick...
Of the approximately 70 human Rab GTPases, nearly three-quarters are involved in endo-cytic traffick...
<p>Rab molecular switches are key players in defining membrane identity and regulating intracellular...
Rab GTPases (>60 members in humans) function as master regulators of intracellular membrane traff...
Rab GTPases (>60 members in humans) function as master regulators of intracellular membrane traff...
Rab proteins are a large family of monomeric GTPases that comprise about 70 members. These proteins ...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
This unit describes methods to identify proteins interacting with, and regulating, Rab GTPases. Rabs...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
Activation and inactivation of Rab GTPases by GEFs and GAPs promotes or terminates vesicle tethering...
Rab GTPases and their regulatory proteins play a crucial role in vesicle-mediated membrane trafficki...
Rabs are GTP-binding proteins with conserved functions in membrane trafficking. They are regulated b...
Transport of cargo proteins through the eukaryotic vesicle trafficking system is a highly specific a...
Rab GTPases are master regulators of membrane traffic. By binding to distinct sets of effector prote...
Of the approximately 70 human Rab GTPases, nearly three-quarters are involved in endo-cytic traffick...
Of the approximately 70 human Rab GTPases, nearly three-quarters are involved in endo-cytic traffick...
<p>Rab molecular switches are key players in defining membrane identity and regulating intracellular...
Rab GTPases (>60 members in humans) function as master regulators of intracellular membrane traff...
Rab GTPases (>60 members in humans) function as master regulators of intracellular membrane traff...
Rab proteins are a large family of monomeric GTPases that comprise about 70 members. These proteins ...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
This unit describes methods to identify proteins interacting with, and regulating, Rab GTPases. Rabs...
Rab proteins are members of the Ras superfamily of GTPases and are key regulators of intracellular v...
Activation and inactivation of Rab GTPases by GEFs and GAPs promotes or terminates vesicle tethering...