Member Login

Biochemistry of Membrane Traffic: Secretory and Endocytic Pathways

Membrance Traffic Banner

Overview

PfefferMalhotra
Dr. Pfeffer and Dr. Malhotra

LOCATION: Granlibakken Conference Center and Lodge, Tahoe City, CA
DATE: Oct. 28 - Oct. 31, 2010

ORGANIZERS:
  Suzanne Pfeffer, Stanford University School of Medicine
Vivek Malhotra, Centre for Genomic Regulation in Barcelona, Spain



Abstract Submission Has Ended and Program Notifications Have Been Sent

KEY DEADLINES


September 24, 2010- Registration Closes
July 30, 2010- Early Registration Closes ($100 Savings)
July 1, 2010
- Talk and Poster Abstract Submissions Due 

 
Abstract Submission RegisterButton flier2 meeting article
Meeting Housing Meeting Program

Questions? E-mail meetings@asbmb.org.

 

 

 

 

MEETING SUMMARY

This meeting is supported through generous contributions by:

Allergan    Amgen    Genentech     Nature Cell Biology     Wiley Blackwell  


     

Although more than 30% of human genes encode for proteins that traverse the secretory pathway, many mysteries remain about how proteins traverse this route.  There is outstanding biochemistry being carried out with the goal of defining the precise molecular events that drive the transport of membrane proteins from one compartment to another in eukaryotic cells. We seek to bring together those interested in understanding how molecules drive the secretory and endocytic pathways, with focus on molecular mechanism, to share recent breakthroughs and discuss current controversies.  This area of research is describing entirely new biochemical processes, and represents quantitative molecular analysis of three dimensional, cellular events.

With focus on molecules, do we really understand cargo sorting into vesicles, vesicle formation, vesicle motility, docking and fusion? What is the molecular basis for formation of the Golgi and how does it accommodate large cargoes such as collagen?  How are regulated secretory products packaged into transport vesicles that are distinct from those carrying cell surface receptors? How are receptors to be down-regulated actually segregated into the lumens of multivesicular endosomes?  How does autophagy link various compartments of the secretory and endocytic pathways?  How do viruses hijack these processes? By defining these events in precise molecular detail, we hope to identify novel and precise targets for future intervention in a number of pathological states.