From mosaic to patchwork: Matching lipids and proteins in membrane organization

被引:22
作者
Mueller, Nikola S. [1 ]
Wedlich-Soeldner, Roland [1 ]
Spira, Felix [1 ]
机构
[1] Max Planck Inst Biochem, D-82152 Martinsried, Germany
来源
MOLECULAR MEMBRANE BIOLOGY | 2012年 / 29卷 / 05期
关键词
Plasma membrane; membrane model; membrane structure; yeast; YEAST PLASMA-MEMBRANE; GPI-ANCHORED PROTEINS; CELL-MEMBRANES; SACCHAROMYCES-CEREVISIAE; HYDROPHOBIC MISMATCH; MASS-SPECTROMETRY; SURFACE-CHARGE; TRANSMEMBRANE PEPTIDES; EPITHELIAL-CELLS; MODEL MEMBRANES;
D O I
10.3109/09687688.2012.687461
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Biological membranes encompass and compartmentalize cells and organelles and are a prerequisite to life as we know it. One defining feature of membranes is an astonishing diversity of building blocks. The mechanisms and principles organizing the thousands of proteins and lipids that make up membrane bilayers in cells are still under debate. Many terms and mechanisms have been introduced over the years to account for certain phenomena and aspects of membrane organization and function. Recently, the different viewpoints - focusing on lipids vs. proteins or physical vs. molecular driving forces for membrane organization - are increasingly converging. Here we review the basic properties of biological membranes and the most common theories for lateral segregation of membrane components before discussing an emerging model of a self-organized, multi-domain membrane or 'patchwork membrane'.
引用
收藏
页码:186 / 196
页数:11
相关论文
共 123 条
[1]   Domain formation in membranes caused by lipid wetting of protein [J].
Akimov, Sergey A. ;
Frolov, Vladimir A. J. ;
Kuzmin, Peter I. ;
Zimmerberg, Joshua ;
Chizmadzhev, Yuri A. ;
Cohen, Fredric S. .
PHYSICAL REVIEW E, 2008, 77 (05)
[2]   Membrane surface charge dictates the structure and function of the epithelial Na+/H+ exchanger [J].
Alexander, Robert Todd ;
Jaumouille, Valentin ;
Yeung, Tony ;
Furuya, Wendy ;
Peltekova, Iskra ;
Boucher, Annie ;
Zasloff, Michael ;
Orlowski, John ;
Grinstein, Sergio .
EMBO JOURNAL, 2011, 30 (04) :679-691
[3]   Mapping the human membrane proteome: a majority of the human membrane proteins can be classified according to function and evolutionary origin [J].
Almen, Markus Sallman ;
Nordstrom, Karl J. V. ;
Fredriksson, Robert ;
Schioth, Helgi B. .
BMC BIOLOGY, 2009, 7 :50
[4]  
Alvarez Francisco J, 2009, Commun Integr Biol, V2, P76
[5]   Bilayer thickness and membrane protein function: An energetic perspective [J].
Andersen, Olaf S. ;
Koeppe, Roger E., II .
ANNUAL REVIEW OF BIOPHYSICS AND BIOMOLECULAR STRUCTURE, 2007, 36 :107-130
[6]   Cell biology - A role for lipid shells in targeting proteins to caveolae, rafts, and other lipid domains [J].
Anderson, RGW ;
Jacobson, K .
SCIENCE, 2002, 296 (5574) :1821-1825
[7]   CAVEOLAE - WHERE INCOMING AND OUTGOING MESSENGERS MEET [J].
ANDERSON, RGW .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1993, 90 (23) :10909-10913
[8]   Computational analysis of membrane proteins: the largest class of drug targets [J].
Arinaminpathy, Yalini ;
Khurana, Ekta ;
Engelman, Donald M. ;
Gerstein, Mark B. .
DRUG DISCOVERY TODAY, 2009, 14 (23-24) :1130-1135
[9]   Raft composition at physiological temperature and pH in the absence of detergents [J].
Ayuyan, Artern G. ;
Cohen, Fredric S. .
BIOPHYSICAL JOURNAL, 2008, 94 (07) :2654-2666
[10]   An outlook on organization of lipids in membranes: Searching for a realistic connection with the organization of biological membranes [J].
Bagatolli, Luis A. ;
Ipsen, John H. ;
Simonsen, Adam C. ;
Mouritsen, Ole G. .
PROGRESS IN LIPID RESEARCH, 2010, 49 (04) :378-389
12345678910