Membrane protein
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- Intracellular Protein Degradation Mark Hochstrasser Yale University, New Haven, CT
- Coming Together to Define Membrane Contact Sites
- Biophysical Approaches to Membrane Protein Structure Determination Ashish Arora and Lukas K Tamm*
- Lecture 16: Membrane Proteins
- Crystallization of Apoa1 and Apoe4 Nanolipoprotein Particles and Initial XFEL-Based Structural Studies
- Title PS Membrane Asymmetry Influences the Folding and Insertion of a Transmembrane Helix
- Sphingolipid Effects on the Plasma Membrane Produced by Addition Of
- Structural Biology and Structure–Function Relationships of Membrane Proteins
- Peripheral Membrane Proteins: Promising Therapeutic Targets Across Domains of Life
- Handout 18 Membrane Lipids & Sphingolipids
- Lipid Domains Control Myelin Basic Protein Adsorption and Membrane Interactions Between Model Myelin Lipid Bilayers
- Integration and Topology of Membrane Proteins
- Adaptation of Proteasomes and Lysosomes to Cellular Environments
- Lipid Domains Control Myelin Basic Protein Adsorption and Membrane Interactions Between Model Myelin Lipid Bilayers
- ERAD of Proteins Containing Aberrant Transmembrane Domains Requires Ubiquitylation of Cytoplasmic Lysine Residues
- Sphingolipid Homeostasis in the Endoplasmic Reticulum and Beyond
- Why Do Tethered-Bilayer Lipid Membranes Suit for Functional Membrane Protein Reincorporation?
- Changes in Membrane Protein Structural Biology