Membrane tethering potency of Rab-family small GTPases is defined by the C-terminal hypervariable regions

Abstract: AbstractMembrane tethering is a crucial step to determine the spatiotemporal specificity of secretory and endocytic trafficking pathways in all eukaryotic endomembrane systems. Recent biochemical studies by a chemically-defined reconstitution approach reveal that, in addition to the structurally-diverse classic tethering factors such as coiled-coil tethering proteins and multisubunit tethering complexes, Rab-family small GTPases also retain the inherent membrane tethering funct… Show more

“…While these assays have been essential to shed light on the mechanisms of membrane tethering, many commonly used biochemical assays rely on indirect measures of tethering. This includes light scattering, turbidity assays and microscopy of liposome clustering, which all monitor the increasing size of vesicle clusters as they are tethered rather than two differentially labeled membranes being held together 24 .…”

A new GUV-based assay to reconstitute membrane tetheringin vitrodemonstrates the vesicle tethering ability of the selective autophagy scaffold Atg11

“…While these assays have been essential to shed light on the mechanisms of membrane tethering, many commonly used biochemical assays rely on indirect measures of tethering. This includes light scattering, turbidity assays and microscopy of liposome clustering, which all monitor the increasing size of vesicle clusters as they are tethered rather than two differentially labeled membranes being held together 24 .…”

A new GUV-based assay to reconstitute membrane tetheringin vitrodemonstrates the vesicle tethering ability of the selective autophagy scaffold Atg11