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Membrane Protein Folding

Gordon Research Conference

Folding Biophysics, Design, and Stabilization with Applications to Disease

June 4 - 9, 2017

Chair

Vice Chair

Stonehill College

320 Washington Street

Easton, Massachusetts, United States

Venue and Travel Information

Conference Description

An understanding of protein folding is essential for most of the major quests of structural biology, including learning how to predict structure, how proteins evolve, how mutations cause disease and how to design novel proteins. As a result, protein folding has been a major field of investigation for the past 50 years. In this effort, however, membrane proteins have been largely ignored. In-depth folding experiments on membrane proteins have lagged behind their soluble counterparts not because membrane proteins are unimportant, but because they are simply hard to study. This conference will bring together cellular, biophysical and computational investigations of membrane protein folding and design with the purpose of sharing expertise and solutions to this challenging problem.

Conference Program

Sunday
2:00 pm - 9:00 pm	Arrival and Check-in
6:00 pm - 7:00 pm	Dinner
7:30 pm - 7:40 pm	Introductory Comments by GRC Site Staff / Welcome from the GRC Chair
7:40 pm - 9:30 pm	Membrane Integration and Removal of Helical Membrane Proteins Discussion Leader:
7:40 pm - 7:45 pm	Opening Remarks
7:45 pm - 8:10 pm	"Translocon Recognition and Membrane Stability of Transmembrane Helices"
8:10 pm - 8:20 pm	Discussion
8:20 pm - 8:45 pm	"In-Situ Observation of Membrane Protein Insertion and Folding During Cell-Free Expression by SEIRAS"
8:45 pm - 8:55 pm	Discussion
8:55 pm - 9:20 pm	"Mechanism of ER-Associated Protein Degradation (ERAD)"
9:20 pm - 9:30 pm	Discussion
Monday
7:30 am - 8:30 am	Breakfast
8:30 am - 9:00 am	Group Photo
9:00 am - 12:30 pm	Biophysics of Helical Membrane Protein Folding Discussion Leader:
9:00 am - 9:25 am	"Folding Alpha Helical Membrane Proteins: Thermodynamics, Lipid Bilayer Mechanics and Co-Translational Folding"
9:25 am - 9:35 am	Discussion
9:35 am - 9:45 am	"BLaTM, a Genetic Tool to Measure Homo- and Heterotypic Parallel and Antiparallel Transmembrane Helix-Helix Interactions"
9:45 am - 9:50 am	Discussion
9:50 am - 10:15 am	"Observing the Insertase-Assisted Insertion and Folding Steps of Single Membrane Proteins"
10:15 am - 10:25 am	Discussion
10:25 am - 10:35 am	"Folding of ClC Chloride Transporter Retains Memory of Its Evolutionary History"
10:35 am - 10:40 am	Discussion
10:40 am - 11:05 am	Coffee Break
11:05 am - 11:30 am	"Hidden Dynamics in the Unfolding of Individual Bacteriorhodopsin Proteins"
11:30 am - 11:40 am	Discussion
11:40 am - 11:50 am	"Mechanism by Which Lipids Shape Reaction Coordinates of Rhomboid Proteases"
11:50 am - 11:55 am	Discussion
11:55 am - 12:20 pm	"Biophysical and Biochemical Insights into Caveolin-1"
12:20 pm - 12:30 pm	Discussion
12:30 pm - 1:30 pm	Lunch
1:30 pm - 4:00 pm	Free Time
3:00 pm - 4:00 pm	Power Hour The GRC Power Hour is an optional informal gathering open to all meeting participants. It is designed to help address the challenges women face in science and support the professional growth of women in our communities by providing an open forum for discussion and mentoring. Organizer:
4:00 pm - 6:00 pm	Poster Session
6:00 pm - 7:00 pm	Dinner
7:30 pm - 9:30 pm	Membrane Protein Structure Prediction and Design Discussion Leader:
7:30 pm - 7:55 pm	"Simulating Membrane Protein Folding from Limited Experimental Data"
7:55 pm - 8:05 pm	Discussion
8:05 pm - 8:30 pm	"An Energy Function for Design and Structure Prediction in Membrane Proteins"
8:30 pm - 8:40 pm	Discussion
8:40 pm - 8:50 pm	"Enhancing Membrane Protein Structure Prediction and Design with Explicit Solvent-Protein Interactions"
8:50 pm - 8:55 pm	Discussion
8:55 pm - 9:20 pm	"Predictive Energy Landscapes for Folding Membrane Proteins"
9:20 pm - 9:30 pm	Discussion
Tuesday
7:30 am - 8:30 am	Breakfast
9:00 am - 12:30 pm	Membrane Protein Folding in Disease Discussion Leader:
9:00 am - 9:25 am	"Elucidation of Bottlenecks in the Quality Control and Cellular Trafficking of PMP22"
9:25 am - 9:35 am	Discussion
9:35 am - 9:45 am	"NMR Methods to Study the Structure and Folding of GPCRs"
9:45 am - 9:50 am	Discussion
9:50 am - 10:15 am	"Rational Design of Membrane Curvature Sensors"
10:15 am - 10:25 am	Discussion
10:25 am - 10:35 am	"Refolding of E. coli Expressed GPCR into Nanodisks Using Amphipols"
10:35 am - 10:40 am	Discussion
10:40 am - 11:05 am	Coffee Break
11:05 am - 11:30 am	"Structural and Proteostatic Determinants of CFTR Functional Expression at the Cell Surface"
11:30 am - 11:40 am	Discussion
11:40 am - 11:50 am	"smFRET Reveals Structural Basis for Conformational Misfolding of a Cystic Fibrosis Mutation in CFTR"
11:50 am - 11:55 am	Discussion
11:55 am - 12:20 pm	"Correcting CFTR Protein Processing and Trafficking to Treat the Underlying Cause of Cystic Fibrosis"
12:20 pm - 12:30 pm	Discussion
12:30 pm - 1:30 pm	Lunch
1:30 pm - 4:00 pm	Free Time
4:00 pm - 6:00 pm	Poster Session
6:00 pm - 7:00 pm	Dinner
7:30 pm - 9:30 pm	Membrane Protein Stabilization Discussion Leader:
7:30 pm - 7:55 pm	"Novel Detergent Tools for GPCR Structural Study"
7:55 pm - 8:05 pm	Discussion
8:05 pm - 8:30 pm	"Protein-Surfactant Interactions Do Determine Fold"
8:30 pm - 8:40 pm	Discussion
8:40 pm - 8:50 pm	"An Improved Rosetta Energy Function for Predicting Mutation-Induced Stability Changes in Membrane Proteins"
8:50 pm - 8:55 pm	Discussion
8:55 pm - 9:20 pm	"Stabilizing GPCRs"
9:20 pm - 9:30 pm	Discussion
Wednesday
7:30 am - 8:30 am	Breakfast
9:00 am - 12:30 pm	Folding of Beta Barrels and Others Discussion Leader:
9:00 am - 9:25 am	"Driving Forces for Sorting and Folding of Outer Membrane Proteins"
9:25 am - 9:35 am	Discussion
9:35 am - 9:45 am	"Systematic Analysis of Symmetry in Membrane Proteins"
9:45 am - 9:50 am	Discussion
9:50 am - 10:15 am	"The Biogenesis and Quality Control of Beta Barrel Outer Membrane Proteins as Explored in Living Cells"
10:15 am - 10:25 am	Discussion
10:25 am - 10:35 am	"Synthetic Molecular Evolution of Membrane Active Peptides"
10:35 am - 10:40 am	Discussion
10:40 am - 11:05 am	Coffee Break
11:05 am - 11:30 am	"Interface Energetics and Beta Barrel Folding"
11:30 am - 11:40 am	Discussion
11:40 am - 11:50 am	"Dynamic Protein-Membrane Complexes: NMR and Simulation Studies on Transmembrane Receptors and Ras GTPases"
11:50 am - 11:55 am	Discussion
11:55 am - 12:20 pm	"Mechanistic Insights into Outer Membrane Protein Folding"
12:20 pm - 12:30 pm	Discussion
12:30 pm - 1:30 pm	Lunch
1:30 pm - 4:00 pm	Free Time
4:00 pm - 6:00 pm	Poster Session
6:00 pm - 7:00 pm	Dinner
7:00 pm - 7:30 pm	Business Meeting Nominations for the Next Vice Chair; Fill in Conference Evaluation Forms; Discuss Future Site and Scheduling Preferences; Election of the Next Vice Chair
7:30 pm - 9:30 pm	Membrane Protein Folding in Amyloid Disease Discussion Leader:
7:30 pm - 7:55 pm	"Amyloid Proteins - Membrane Interactions: The Influence of the Lipid Composition on the Kinetics of Aggregation"
7:55 pm - 8:05 pm	Discussion
8:05 pm - 8:30 pm	"Mechanisms of Abnormal Aggregation and Toxicity of Alzheimer's Amyloid Beta-Protein on Neuronal Membranes"
8:30 pm - 8:40 pm	Discussion
8:40 pm - 8:50 pm	"Isoleucine-Rich Amphipathic Peptides Bind Significantly Better to Lipid Bilayers than Leucine-Rich Peptides"
8:50 pm - 8:55 pm	Discussion
8:55 pm - 9:20 pm	"Membrane Interactions and Amyloid Formation of α-Synuclein"
9:20 pm - 9:30 pm	Discussion
Thursday
7:30 am - 8:30 am	Breakfast
9:00 am - 12:30 pm	Assembly of Membrane Protein Complexes Discussion Leader:
9:00 am - 9:25 am	"The Role of pH in Modulating Membrane Protein Structure and Function"
9:25 am - 9:35 am	Discussion
9:35 am - 9:45 am	"Screening and Crystallographic Analysis of Intramembrane Helix Interactions Using Lipidic Cubic Phase (LCP) Techniques"
9:45 am - 9:50 am	Discussion
9:50 am - 10:15 am	"Resolving the Dimerization Interface of Visual Opsins with PIE-FCCS"
10:15 am - 10:25 am	Discussion
10:25 am - 10:45 am	Coffee Break
10:45 am - 11:10 am	"Peptide-Based Approaches to Inhibiting Protein-Protein Interactions in Membranes"
11:10 am - 11:20 am	Discussion
11:20 am - 11:45 am	"Probing Membrane Protein-Lipid Interactions by Native Ion Mobility Mass Spectrometry"
11:45 am - 11:55 am	Discussion
11:55 am - 12:20 pm	"Understanding Transmembrane Signal Transduction in Bacterial Histidine Kinases"
12:20 pm - 12:30 pm	Discussion
12:30 pm - 1:30 pm	Lunch
1:30 pm - 4:00 pm	Free Time
4:00 pm - 6:00 pm	Poster Session
6:00 pm - 7:00 pm	Dinner
7:30 pm - 9:30 pm	Membrane Protein Design for Disease Therapy Discussion Leader:
7:30 pm - 7:55 pm	"Building Transmembrane Proteins with Minimal Chemical Complexity"
7:55 pm - 8:05 pm	Discussion
8:05 pm - 8:30 pm	"Heterodimerization of Receptor Tyrosine Kinases in Health and Disease"
8:30 pm - 8:40 pm	Discussion
8:40 pm - 8:50 pm	"Thermodynamics of Transmembrane Domains Can Be Exploited to Manipulate TNF Receptor Function"
8:50 pm - 8:55 pm	Discussion
8:55 pm - 9:20 pm	"pHLIP®: Uses in Measuring Cell Surface pH, Imaging Tumors, and Delivering Therapeutics"
9:20 pm - 9:30 pm	Discussion
Friday
7:30 am - 8:30 am	Breakfast
9:00 am	Departure

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