A new class of NLSs targeting membrane proteins off the beaten path

Dr. Gino Cingolani
Thomas Jefferson University
Wednesday, February 11, 2015 - 3:00pm
CCBR Red Room
Invited Speaker Seminar
Abstract: 
Targeting of Endoplasmic Reticulum (ER)-synthesized membrane proteins to the Inner Nuclear Membrane (INM) has long been explained by the 'diffusion-retention model'. However, several INM proteins contain long basic sequences that, in a few instances, have been shown to promote importin a/b and Ran-dependent translocation to the INM. Here, using structural, biochemical and in vivo studies we have identified a novel non-classical Nuclear Localization Signal (NLS) in the prototypical yeast INM proteins Heh1 and Heh2. These NLSs associate intimately with the minor NLS-binding pocket of yeast importin a and unlike classical NLSs efficiently displace the IBB-domain in the absence of importin b. Thus, h2/h1NLSs delineate a novel class of IBB-like membrane protein NLSs distinct from classical NLSs found in soluble cargos and of general interest in biology.
Host: 
Dr. Alan Davidson
Department of Molecular Genetics