Add to ORKGThe cytosolic ATPase Get3/TRC40 mediates targeting of tail-anchored (TA) membrane proteins to the endoplasmic reticulum (ER). Get3 functions as a molecular chaperone by binding to transmembrane domains of newly synthesized TA proteins and delivering them to a membrane docking complex in the ER. Previous work have shown that ATP binding and hydrolysis can regulate Get3s function and are essential for the targeting of TA proteins. However, the precise mechanisms by which this is accomplished remain unclear. Using a combination of mechanistic enzymology and biophysical methods, we delineate Get3s ATPase cycle and show that it is required at multiple stages during TA protein targeting. Our data complements previous structural studies a...
The endomembrane system of yeast contains different tail-anchored proteins that are post-translation...
Efficient and accurate localization of membrane proteins requires a complex cascade of interactions ...
Molecular chaperones play key roles in maintaining cellular proteostasis. In addition to preventing ...
The cytosolic ATPase Get3/TRC40 mediates targeting of tail-anchored (TA) membrane proteins to the e...
The cytosolic ATPase Get3/TRC40 mediates targeting of tail-anchored (TA) membrane proteins to the en...
To maintain cellular organization, many chaperones and targeting factors escort nascent proteins to ...
Proper localization of proteins to target membranes is a fundamental cellular process. How the natur...
The localization of tail-anchored (TA) proteins, whose transmembrane domain resides at the extreme C...
Proper localization of proteins to target membranes is a fundamental cellular process. How the natur...
Molecular chaperones play key roles in maintaining cellular proteostasis. In addition to preventing ...
Tail-anchored (TA) membrane proteins are targeted to the endoplasmic reticulum via the post-translat...
Hundreds of proteins are anchored on cellular membranes by a transmembrane domain (TM) at their extr...
The Get3 ATPase directs the delivery of tail-anchored (TA) proteins to the endoplasmic reticulum (ER...
Correct localization of membrane proteins is essential to all cells. Chaperone cascades coordinate t...
The guided entry of tail-anchored protein (GET) pathway, in which the Get3 ATPase delivers an essent...
The endomembrane system of yeast contains different tail-anchored proteins that are post-translation...
Efficient and accurate localization of membrane proteins requires a complex cascade of interactions ...
Molecular chaperones play key roles in maintaining cellular proteostasis. In addition to preventing ...
The cytosolic ATPase Get3/TRC40 mediates targeting of tail-anchored (TA) membrane proteins to the e...
The cytosolic ATPase Get3/TRC40 mediates targeting of tail-anchored (TA) membrane proteins to the en...
To maintain cellular organization, many chaperones and targeting factors escort nascent proteins to ...
Proper localization of proteins to target membranes is a fundamental cellular process. How the natur...
The localization of tail-anchored (TA) proteins, whose transmembrane domain resides at the extreme C...
Proper localization of proteins to target membranes is a fundamental cellular process. How the natur...
Molecular chaperones play key roles in maintaining cellular proteostasis. In addition to preventing ...
Tail-anchored (TA) membrane proteins are targeted to the endoplasmic reticulum via the post-translat...
Hundreds of proteins are anchored on cellular membranes by a transmembrane domain (TM) at their extr...
The Get3 ATPase directs the delivery of tail-anchored (TA) proteins to the endoplasmic reticulum (ER...
Correct localization of membrane proteins is essential to all cells. Chaperone cascades coordinate t...
The guided entry of tail-anchored protein (GET) pathway, in which the Get3 ATPase delivers an essent...
The endomembrane system of yeast contains different tail-anchored proteins that are post-translation...
Efficient and accurate localization of membrane proteins requires a complex cascade of interactions ...
Molecular chaperones play key roles in maintaining cellular proteostasis. In addition to preventing ...