| Q90297418 | Analog Retinal Redshifts Visible Absorption of QuasAr Transmembrane Voltage Sensors into Near-infrared |
| Q39810882 | Architectural and thermodynamic principles underlying intramembrane protease function |
| Q88233126 | Bicelle size modulates the rate of bacteriorhodopsin folding |
| Q50087493 | Comparing side chain packing in soluble proteins, protein-protein interfaces, and transmembrane proteins |
| Q47433501 | Comparison of NMR and crystal structures of membrane proteins and computational refinement to improve model quality |
| Q35840004 | Constructing and validating initial Cα models from subnanometer resolution density maps with pathwalking |
| Q42030075 | Contribution of hydrophobic interactions to protein stability |
| Q89635717 | De novo protein design, a retrospective |
| Q38718401 | Design of self-assembling transmembrane helical bundles to elucidate principles required for membrane protein folding and ion transport |
| Q41101237 | Documentation of an Imperative To Improve Methods for Predicting Membrane Protein Stability |
| Q38213282 | Forces stabilizing proteins |
| Q30404635 | Fragment-based phase extension for three-dimensional structure determination of membrane proteins by electron crystallography |
| Q26851573 | Gaining insight into membrane protein structure using isotope-edited FTIR |
| Q64461228 | How much do van der Waals dispersion forces contribute to molecular recognition in solution? |
| Q35560700 | Interactions between ionizable amino acid side chains at a lipid bilayer-water interface |
| Q42059304 | Knowledge-based potential for positioning membrane-associated structures and assessing residue-specific energetic contributions |
| Q24623930 | Lessons from the lysozyme of phage T4 |
| Q35846068 | Marginally hydrophobic transmembrane α-helices shaping membrane protein folding |
| Q48181804 | Multi-spectroscopic and theoretical analyses on the diphenyl ether-tert-butyl alcohol complex in the electronic ground and electronically excited state |
| Q37681352 | Protein folding in membranes. |
| Q92297296 | Redshifted and Near-infrared Active Analog Pigments Based upon Archaerhodopsin-3 |
| Q39425995 | Reversible folding of human peripheral myelin protein 22, a tetraspan membrane protein |
| Q38543418 | Role of Lipids in Folding, Misfolding and Function of Integral Membrane Proteins |
| Q35180786 | Stable folding core in the folding transition state of an alpha-helical integral membrane protein. |
| Q51248958 | Steric interactions determine side-chain conformations in protein cores. |
| Q42424697 | Structural differences between thermophilic and mesophilic membrane proteins |
| Q43503107 | The Contribution of a Covalently Bound Cofactor to the Folding and Thermodynamic Stability of an Integral Membrane Protein |
| Q48199202 | The Structure of Diphenyl Ether-Methanol in the Electronically Excited and Ionic Ground States: A Combined IR/UV Spectroscopic and Theoretical Study. |
| Q30371974 | The membrane- and soluble-protein helix-helix interactome: similar geometry via different interactions. |
| Q38270911 | The safety dance: biophysics of membrane protein folding and misfolding in a cellular context |
| Q40851291 | Thermodynamic stability of bacteriorhodopsin mutants measured relative to the bacterioopsin unfolded state. |
| Q56753250 | Tuning the coordination chemistry of cyclotriveratrylene ligand pairs through alkyl chain aggregation |
| Q48679629 | Ultra light-sensitive and fast neuronal activation with the Ca²+-permeable channelrhodopsin CatCh |
| Q38541409 | Viroporins, Examples of the Two-Stage Membrane Protein Folding Model |