References
- Wallin E, von Heijne G. Genome-wide analysis of integral membrane proteins from eubacterial, archean, and eukaryotic organisms. Prot Sci 1998; 7: 1029–1038
- Cornelius F. Modulation of Na,K-ATPase and Na-ATPase activity by phospholipids and cholesterol. I. Steady-state kinetics. Biochemistry 2001; 40: 8842–8851
- Starling AP, Khan YM, East JM, Lee AG. Characterization of the single Ca2 + -binding site on the Ca2 + -ATPase reconstituted with short-chain or long-chain phosphatidylcholines. Biochem J 1994; 304: 569–575
- Sunshine C, McNamee MG. Lipid modulation of nicotinic acetylcholine-receptor function – the role of membrane lipid-composition and fluidity. Biochim Biophys Acta 1994; 1191: 59–64
- Baldwin PA, Hubbell WL. Effects of lipid environment on the light-induced conformational-changes of rhodopsin.1. Absence of metarhodopsin-II production in dimyristoylphosphatidylcholine recombinant membranes. Biochemistry 1985; 24: 2624–2632
- Baldwin PA, Hubbell WL. Effects of lipid environment on the light-induced conformational-changes of rhodopsin. 2. Roles of lipid chain-length, unsaturation, and phase state. Biochemistry 1985; 24: 2633–2639
- Caffrey M, Feigenson GW. Fluorescence quenching in model membranes. 3. Relationship between calcium adenosine-triphosphatase enzyme-activity and the affinity of the protein for phosphatidylcholines with different acyl chain characteristics. Biochemistry 1981; 20: 1949–1961
- Lee AG. How lipids affect the activities of integral membrane proteins. Biochim Biophys Acta 2004; 1666: 62–87
- Lange C, Nett JH, Trumpower BL, Hunte C. Specific roles of protein-phospholipid interactions in the yeast cytochrome bc(1) complex structure. EMBO J 2001; 20: 6591–6600
- Fyfe PK, Isaacs NW, Cogdell RJ, Jones MR. Disruption of a specific molecular interaction with a bound lipid affects the thermal stability of the purple bacterial reaction centre. Biochim Biophys Acta 2004; 1608: 11–22
- Fyfe PK, McAuley KE, Roszak AW, Isaacs NW, Codgell RJ, Jones MR. Probing the interface between membrane proteins and membrane lipids by X-ray crystallography. Trends Biochem Sci 2001; 26: 106–112
- Hunte C, Richers S. Lipids and membrane protein structures. Curr Opin Struct Biol 2008; 18: 406–411
- Feller SE, Gawrisch K, Woolf TB. Rhodopsin exhibits a preference for solvation by polyunsaturated docosohexaenoic acid. J Am Chem Soc 2003; 125: 4434–4435
- Grossfield A, Feller SE, Pitman MC. A role for direct interactions in the modulation of rhodopsin by omega-3 polyunsaturated lipids. Proc Natl Acad Sci USA 2006; 103: 4888–4893
- Grossfield A, Feller SE, Pitman MC. Convergence of molecular dynamics simulations of membrane proteins. Proteins: Struct Func Bioinf 2007; 67: 31–40
- Marrink SJ, de Vries AH, Mark AE. Coarse grained model for semiquantitative lipid simulations. J Phys Chem B 2004; 108: 750–760
- Marrink SJ, Risselada J, Yefimov S, Tieleman DP, de Vries AH. The MARTINI forcefield: coarse grained model for biomolecular simulations. J Phys Chem B 2007; 111: 7812–7824
- Monticelli L, Kandasamy SK, Periole X, Larson RG, Tieleman DP, Marrink SJ. The MARTINI coarse grained force field: extension to proteins. J Chem Theor Comp 2008; 4: 819–834
- Basyn F, Charloteaux B, Thomas A, Brasseur R. Prediction of membrane protein orientation in lipid bilayers: a theoretical approach. J Mol Graphics Modelling 2001; 20: 235–244
- Basyn F, Spies B, Bouffioux O, Thomas A, Brasseur R. Insertion of X-ray structures of proteins in membranes. J Mol Graphics Modelling 2003; 22: 11–21
- Ducarme P, Rahman N, Brasseur R. IMPALA: a simple restraint field to simulate the biological membrane in structure studies. Prot Struct Func Genet 1998; 30: 357–371
- Im W, Feig M, Brooks CL. An implicit membrane generalized Born theory for the study of structure, stability, and interactions of membrane proteins. Biophys J 2003; 85: 2900–2918
- Ulmschneider MB, Sansom MSP, Di Nola A. Properties of integral membrane protein structures: derivation of an implicit membrane potential. Proteins: Struct Funct Bioinf 2005; 59: 252–265
- Ulmschneider MB, Sansom MSP, Di Nola A. Evaluating tilt angles of membrane-associated helices: comparison of computational and NMR techniques. Biophys J 2006; 90: 1650–1660
- Sansom MSP, Scott KA, Bond PJ. Coarse grained simulation: a high throughput computational approach to membrane proteins. Biochem Soc Transac 2008; 36: 27–32
- Scott KA, Bond PJ, Ivetac A, Chetwynd AP, Khalid S, Sansom MSP. Coarse-grained MD simulations of membrane protein-bilayer self-assembly. Structure 2008; 16: 621–630
- Andersen OS, Koeppe RE. Bilayer thickness and membrane protein function: an energetic perspective. Ann Rev Biophys Biomol Struct 2007; 36: 107–130
- Powl AM, East JM, Lee AG. Different effects of lipid chain length on the two sides of a membrane and the lipid annulus of MscL. Biophys J 2007; 93: 113–122
- Dixon RAF, Diehl RE, Opas E, Rands E, Vickers PJ, Evans JF, Gillard JW, Miller DK. Requirement of a 5-lipoxygenase-activating protein for leukotriene synthesis. Nature 1990; 343: 282–284
- Miller DK, Gillard JW, Vickers PJ, Sadowski S, Leveille C, Mancini JA, Charleson P, Dixon RAF, Fordhutchinson AW, Fortin R, Gauthier JY, Rodkey J, Rosen R, Rouzer C, Sigal IS, Strader CD, Evans JF. Identification and isolation of a membrane-protein necessary for leukotriene production. Nature 1990; 343: 278–281
- Steinbacher S, Bass R, Strop P, Rees DC. 2007. Structures of the prokaryotic mechanosensitive channels MscL and MscS. In: Mechanosensitive Ion Channels, Part A pp 1–24.
- Edwards MD, Booth IR, Miller S. Gating the bacterial mechanosensitive channels: MscS a new paradigm?. Curr Opin Microbiol 2004; 7: 163–167
- Ferguson AD, McKeever BM, Xu SH, Wisniewski D, Miller DK, Yamin TT, Spencer RH, Chu L, Ujjainwalla F, Cunningham BR, Evans JF, Becker JW. Crystal structure of inhibitor-bound human 5-lipoxygenase-activating protein. Science 2007; 317: 510–512
- Jiang Y, Lee A, Chen J, Ruta V, Cadene M, Chait BT, Mackinnon R. X-ray structure of a voltage-dependent K+ channel. Nature 2003; 423: 33–41
- Ramsey IS, Moran MM, Chong JHA, Clapham DE. A voltage-gated proton-selective channel lacking the pore domain. Nature 2006; 440: 1213–1216
- Schmidt D, Jiang QX, MacKinnon R. Phospholipids and the origin of cationic gating charges in voltage sensors. Nature 2006; 444: 775–779
- Freites JA, Tobias DJ, von Heijne G, White SH. Interface connections of a transmembrane voltage sensor. Proc Natl Acad Sci USA 2005; 102: 15059–15064
- Treptow W, Tarek M. Environment of the gating charges in the Kv1.2 Shaker potassium channel. Biophys J 2006; 90: L64–66
- Bond PJ, Sansom MSP. Bilayer deformation by the Kv channel voltage sensor domain revealed by self-assembly simulations. Proc Natl Acad Sci USA 2007; 104: 2631–2636
- Sands ZA, Sansom MSP. How does a voltage-sensor interact with a lipid bilayer? Simulations of a potassium channel domain. Structure 2007; 15: 235–244
- Jogini V, Roux B. Dynamics of the Kv1.2 voltage-gated K+ channel in a membrane environment. Biophys J 2007; 93: 3070–3082
- Bond PJ, Sansom MSP. Insertion and assembly of membrane proteins via simulation. J Amer Chem Soc 2006; 128: 2697–2704
- Lindahl E, Hess B, van der Spoel D. GROMACS 3.0: a package for molecular simulation and trajectory analysis. J Molec Model 2001; 7: 306–317
- Berendsen HJC, Postma JPM, van Gunsteren WF, DiNola A, Haak JR. Molecular dynamics with coupling to an external bath. J Chem Phys 1984; 81: 3684–3690
- Granseth E, von Heijne G, Elofsson A. A study of the membrane-water interface region of membrane proteins. J Mol Biol 2005; 346: 377–385
- Long SB, Tao X, Campbell EB, MacKinnon R. Atomic structure of a voltage-dependent K+ channel in a lipid membrane-like environment. Nature 2007; 450: 376–382
- Periole X, Huber T, Marrink SJ, Sakmar TP. G protein-coupled receptors self-assemble in dynamics simulations of model bilayers. J Am Chem Soc 2007; 129: 10126–10132
- Yeagle PL, Bennett M, Lemaitre V, Watts A. Transmembrane helices of membrane proteins may flex to satisfy hydrophobic mismatch. Biochim Biophys Acta 2007; 1768: 530–537
- Atilgan AR, Durell SR, Jernigan RL, Demirel MC, Keskin O, Bahar I. Anisotropy of fluctuation dynamics of proteins with an elastic network model. Biophys J 2001; 80: 505–515
- Hilf RJC, Dutzler R. X-ray structure of a prokaryotic pentameric ligand-gated ion channel. Nature 2008; 452: 375–379