Dynamic, yet structured: The cell membrane three decades after the Singer–Nicolson model
10.1073/pnas.1332550100
Crossref journal-article
Proceedings of the National Academy of Sciences
Proceedings of the National Academy of Sciences (341)
Abstract

The fluid mosaic membrane model proved to be a very useful hypothesis in explaining many, but certainly not all, phenomena taking place in biological membranes. New experimental data show that the compartmentalization of membrane components can be as important for effective signal transduction as is the fluidity of the membrane. In this work, we pay tribute to the Singer–Nicolson model, which is near its 30th anniversary, honoring its basic features, “mosaicism” and “diffusion,” which predict the interspersion of proteins and lipids and their ability to undergo dynamic rearrangement via Brownian motion. At the same time, modifications based on quantitative data are proposed, highlighting the often genetically predestined, yet flexible, multilevel structure implementing a vast complexity of cellular functions. This new “dynamically structured mosaic model” bears the following characteristics: emphasis is shifted from fluidity to mosaicism, which, in our interpretation, means nonrandom codistribution patterns of specific kinds of membrane proteins forming small-scale clusters at the molecular level and large-scale clusters (groups of clusters, islands) at the submicrometer level. The cohesive forces, which maintain these assemblies as principal elements of the membranes, originate from within a microdomain structure, where lipid–lipid, protein–protein, and protein–lipid interactions, as well as sub- and supramembrane (cytoskeletal, extracellular matrix, other cell) effectors, many of them genetically predestined, play equally important roles. The concept of fluidity in the original model now is interpreted as permissiveness of the architecture to continuous, dynamic restructuring of the molecular- and higher-level clusters according to the needs of the cell and as evoked by the environment.

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Vereb, G., Szöllősi, J., Matkó, J., Nagy, P., Farkas, T., Vígh, L., Mátyus, L., Waldmann, T. A., & Damjanovich, S. (2003). Dynamic, yet structured: The cell membrane three decades after the Singer–Nicolson model. Proceedings of the National Academy of Sciences, 100(14), 8053–8058.

Authors 9
  1. G. Vereb (first)
  2. J. Szöllősi (additional)
  3. J. Matkó (additional)
  4. P. Nagy (additional)
  5. T. Farkas (additional)
  6. L. Vígh (additional)
  7. L. Mátyus (additional)
  8. T. A. Waldmann (additional)
  9. S. Damjanovich (additional)
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Dates
Type When
Created 22 years, 1 month ago (July 8, 2003, 3:18 p.m.)
Deposited 2 years, 3 months ago (April 26, 2023, 1:02 p.m.)
Indexed 3 days ago (Aug. 23, 2025, 12:59 a.m.)
Issued 22 years, 1 month ago (June 27, 2003)
Published 22 years, 1 month ago (June 27, 2003)
Published Online 22 years, 1 month ago (June 27, 2003)
Published Print 22 years, 1 month ago (July 8, 2003)
Funders 0

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@article{Vereb_2003, title={Dynamic, yet structured: The cell membrane three decades after the Singer–Nicolson model}, volume={100}, ISSN={1091-6490}, url={http://dx.doi.org/10.1073/pnas.1332550100}, DOI={10.1073/pnas.1332550100}, number={14}, journal={Proceedings of the National Academy of Sciences}, publisher={Proceedings of the National Academy of Sciences}, author={Vereb, G. and Szöllősi, J. and Matkó, J. and Nagy, P. and Farkas, T. and Vígh, L. and Mátyus, L. and Waldmann, T. A. and Damjanovich, S.}, year={2003}, month=jun, pages={8053–8058} }