• home
  • research
  • LCP resources
  • publications
  • members
  • links
  • contact


  • INTRO
  • LCP Equations
  • LCP Lipids
  • LCP Protocols
    • Lipid Mixing
    • Reconstitution in LCP
    • Manual Crystallization
    • Harvesting
  • LCP Tools
    • Syringe Lipid Mixer
    • Repeating Syringe Dispenser
    • Glass Sandwich Plate
    • Crystallization Robot
    • Automatic Incubator/ Imager
    • LCP-FRAP Station
  • Crystal Gallery
  • Structures from LCP
  • LCP Publications
    • Lipids LCP
    • Mechanism LCP
    • Reviews LCP
    • Structures LCP
    • Technology LCP
  • LCP Links

LCP Publications:

  • Lipids LCP>>
  • Mechanism LCP>>
  • Reviews LCP >>
  • Structures LCP >>
  • Technology LCP >>

LCP Publications >> Lipids LCP
1 J. Briggs, H. Chung and M. Caffrey (1996) The temperature-composition phase diagram and mesophase structure characterization of the monoolein/water system Journal de Physique II 6: 723-751 ;
2 H. Qiu and M. Caffrey (1998) Lyotropic and Thermotropic Phase Behavior of Hydrated Monoacylglycerols: Structure Characterization of Monovaccenin Journal of Physical Chemistry B 102: 4819-4829 ;
3 X. Ai and M. Caffrey (2000) Membrane protein crystallization in lipidic mesophases: detergent effects Biophys J 79: 394-405 ;
4 H. Qiu and M. Caffrey (2000) The phase diagram of the monoolein/water system: metastability and equilibrium aspects Biomaterials 21: 223-34 ;
5 V. Cherezov, H. Fersi and M. Caffrey (2001) Crystallization screens: compatibility with the lipidic cubic phase for in meso crystallization of membrane proteins Biophys J 81: 225-42 ;
6 V. Cherezov, J. Clogston, Y. Misquitta, W. Abdel-Gawad and M. Caffrey (2002) Membrane protein crystallization in meso: lipid type-tailoring of the cubic phase Biophys J 83: 3393-407 ;
7 Y. Misquitta and M. Caffrey (2003) Detergents destabilize the cubic phase of monoolein: implications for membrane protein crystallization Biophys J 85: 3084-96 ;
8 C. Sennoga, A. Heron, J. M. Seddon, R. H. Templer and B. Hankamer (2003) Membrane-protein crystallization in cubo: temperature-dependent phase behaviour of monoolein-detergent mixtures Acta Crystallogr D Biol Crystallogr 59: 239-46 ;
9 L. V. Misquitta, Y. Misquitta, V. Cherezov, O. Slattery, J. M. Mohan, D. Hart, M. Zhalnina, W. A. Cramer and M. Caffrey (2004) Membrane protein crystallization in lipidic mesophases with tailored bilayers Structure 12: 2113-2124 ;
10 Y. Misquitta, V. Cherezov, F. Havas, S. Patterson, J. M. Mohan, A. J. Wells, D. J. Hart and M. Caffrey (2004) Rational design of lipid for membrane protein crystallization J Struct Biol 148: 169-75 ;
11 R. Vargas, L. Mateu and A. Romero (2004) The effect of increasing concentrations of precipitating salts used to crystallize proteins on the structure of the lipidic Q224 cubic phase Chem Phys Lipids 127: 103-11 ;
12 R. Efremov, G. Shiryaeva, G. Bueldt, A. Islamov, A. Kuklin, L. Yaguzhinsky, G. Fragneto-Cusani and V. Gordeliy (2005) SANS investigations of the lipidic cubic phase behavior in course of bacteriorhodopsin crystallization Journal of Crystal Growth 275: e1453-e1459 ;
13 P. Wadsten, A. B. Wohri, A. Snijder, G. Katona, A. T. Gardiner, R. J. Cogdell, R. Neutze and S. Engstrom (2006) Lipidic sponge phase crystallization of membrane proteins J Mol Biol 364: 44-53 ;
14 J. Yamashita, M. Shiono and M. Hato (2008) New Lipid Family That Forms Inverted Cubic Phases in Equilibrium with Excess Water: Molecular Structure - Aqueous Phase Structure Relationship for Lipids with 5,9,13,17-Tetramethyloctadecyl and 5,9,13,17-Tetramethyloctadecanoyl Chains The Journal of Physical Chemistry B 112: 12286-12296 ;
15 M. Caffrey, J. Lyons, T. Smyth and D. J. Hart (2009) Monoacylglycerols: the workhorse lipids for crystallizing membrane proteins in mesophases Curr. Top. Membr. 63: 83-108 ;
16 M. Hato, J. Yamashita and M. Shiono (2009) Aqueous phase behavior of lipids with isoprenoid type hydrophobic chains J Phys Chem B 113: 10196-209 ;
17 V. Borshchevskiy, E. Moiseeva, A. Kuklin, G. Buldt, M. Hato and V. Gordeliy (2010) Isoprenoid-chained lipid beta-XylOC(16+4)-A novel molecule for in meso membrane protein crystallization Journal of Crystal Growth 312: 3326-3330 ;
18 Y. Fu, Y. Weng, W. X. Hong and Q. Zhang (2010) Efficient Synthesis of Unsaturated 1-Monoacyl Glycerols for in meso Crystallization of Membrane Proteins Synlett 2011: 809-812 ;
19 J. S. Joseph, W. Liu, J. Kunken, T. M. Weiss, H. Tsuruta and V. Cherezov (2011) Characterization of lipid matrices for membrane protein crystallization by high-throughput small angle X-ray scattering Methods 55: 342-9 ;
20 D. Li, J. Lee and M. Caffrey (2011) Crystallizing Membrane Proteins in Lipidic Mesophases. A Host Lipid Screen Cryst Growth Des 11: 530-537 ;

<< back to top next >> << prev

CONTACT US: USC | Cherezov Lab | cherezov@usc.edu