Sort by
Refine Your Search
-
Category
-
Program
-
Employer
-
macromolecular systems? Join our single-molecule lab to study co-translational folding and chaperone function. Your job We are working at the interface of biochemistry, molecular biology and biophysics to follow
-
macromolecular systems? Join our single-molecule lab to study co-translational folding and chaperone function. Your job We are working at the interface of biochemistry, molecular biology and biophysics to follow
-
. These studies have shown how the ribosome and molecular chaperones counter misfolding and help large, multi-domain proteins attain their functional structures. The group is now combining mechanical manipulation
-
. These studies have shown how the ribosome and molecular chaperones counter misfolding and help large, multi-domain proteins attain their functional structures. The group is now combining mechanical manipulation
-
of molecular events that underlie chaperone functions, and are invisible with other methods. Here you will focus on a new frontier: how chaperones and ribosomes work together to synthesize and fold multi-protein
-
of molecular events that underlie chaperone functions, and are invisible with other methods. Here you will focus on a new frontier: how chaperones and ribosomes work together to synthesize and fold multi-protein
-
of the most complex cellular processes that are vital to life. Our research group has been at the vanguard of studying chaperone-protein systems using singe-molecule techniques. We’ve revealed