Literature DB >> 12524293

Lowering the barriers to random walks on the cell surface.

Qing Tang1, Michael Edidin.   

Abstract

We used fluorescence recovery after photobleaching (FRAP) and single particle tracking (SPT) techniques to compare diffusion of class I major histocompatibility complex molecules (MHC) on normal and alpha-spectrin-deficient murine erythroleukemia (MEL) cells. Because the cytoskeleton mesh acts as a barrier to lateral mobility of membrane proteins, we expected that diffusion of membrane proteins in alpha-spectrin-deficient MEL cells would differ greatly from that in normal MEL cells. In the event, diffusion coefficients derived from either FRAP or SPT analysis were similar for alpha-spectrin-deficient and normal MEL cells, differing by a factor of approximately 2, on three different timescales: tens of seconds, 1-10 s, and 100 ms. SPT analysis showed that the diffusion of most class I MHC molecules was confined on both cell types. On the normal MEL cells, the mean diagonal length of the confined area was 330 nm with a mean residency time of 40s. On the alpha-spectrin-deficient MEL cells, the mean diagonal length was 650 nm with a mean residency time of 45s. Thus there are fewer barriers to lateral diffusion on cytoskeleton mutant MEL cells than on normal MEL cells, but this difference does not strongly affect lateral diffusion on the scales measured here.

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Year:  2003        PMID: 12524293      PMCID: PMC1302621          DOI: 10.1016/S0006-3495(03)74860-7

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  37 in total

Review 1.  Shrinking patches and slippery rafts: scales of domains in the plasma membrane.

Authors:  M Edidin
Journal:  Trends Cell Biol       Date:  2001-12       Impact factor: 20.808

2.  Anomalous subdiffusion in fluorescence photobleaching recovery: a Monte Carlo study.

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Journal:  Biophys J       Date:  2001-10       Impact factor: 4.033

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Journal:  Biochim Biophys Acta       Date:  1976-04-16

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Journal:  Science       Date:  1976-02-06       Impact factor: 47.728

Review 5.  Rotational and lateral diffusion of membrane proteins.

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Journal:  Biochim Biophys Acta       Date:  1979-12-20

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Journal:  Biophys J       Date:  1976-09       Impact factor: 4.033

7.  Effect of bleaching light on measurements of lateral diffusion in cell membranes by the fluorescence photobleaching recovery method.

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Journal:  Proc Natl Acad Sci U S A       Date:  1980-04       Impact factor: 11.205

8.  Modulation of membrane protein lateral mobility by polyphosphates and polyamines.

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Journal:  Proc Natl Acad Sci U S A       Date:  1980-03       Impact factor: 11.205

9.  Phospholipids undergo hop diffusion in compartmentalized cell membrane.

Authors:  Takahiro Fujiwara; Ken Ritchie; Hideji Murakoshi; Ken Jacobson; Akihiro Kusumi
Journal:  J Cell Biol       Date:  2002-06-10       Impact factor: 10.539

10.  Lateral mobility of band 3 in the human erythrocyte membrane studied by fluorescence photobleaching recovery: evidence for control by cytoskeletal interactions.

Authors:  D E Golan; W Veatch
Journal:  Proc Natl Acad Sci U S A       Date:  1980-05       Impact factor: 11.205
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  18 in total

1.  Persistence of zinc-binding bacterial superantigens at the surface of antigen-presenting cells contributes to the extreme potency of these superantigens as T-cell activators.

Authors:  Dorothy D Pless; Gordon Ruthel; Emily K Reinke; Robert G Ulrich; Sina Bavari
Journal:  Infect Immun       Date:  2005-09       Impact factor: 3.441

2.  Sources of anomalous diffusion on cell membranes: a Monte Carlo study.

Authors:  Dan V Nicolau; John F Hancock; Kevin Burrage
Journal:  Biophys J       Date:  2006-12-22       Impact factor: 4.033

3.  Altered membrane dynamics of quantum dot-conjugated integrins during osteogenic differentiation of human bone marrow derived progenitor cells.

Authors:  Hongfeng Chen; Igor Titushkin; Michael Stroscio; Michael Cho
Journal:  Biophys J       Date:  2006-11-17       Impact factor: 4.033

4.  Revealing the topography of cellular membrane domains by combined atomic force microscopy/fluorescence imaging.

Authors:  D J Frankel; J R Pfeiffer; Z Surviladze; A E Johnson; J M Oliver; B S Wilson; A R Burns
Journal:  Biophys J       Date:  2006-01-13       Impact factor: 4.033

5.  High-Resolution Models of Motion of Macromolecules in Cell Membranes.

Authors:  Karin Leiderman; Stanly Steinberg
Journal:  Math Comput Simul       Date:  2008-04-04       Impact factor: 2.463

6.  Increased mobility of major histocompatibility complex I-peptide complexes decreases the sensitivity of antigen recognition.

Authors:  Jean-Manuel Segura; Philippe Guillaume; Silke Mark; Danijel Dojcinovic; Alexandre Johannsen; Giovanna Bosshard; Georgi Angelov; Daniel F Legler; Horst Vogel; Immanuel F Luescher
Journal:  J Biol Chem       Date:  2008-06-25       Impact factor: 5.157

7.  Flotillin microdomains interact with the cortical cytoskeleton to control uropod formation and neutrophil recruitment.

Authors:  Alexander Ludwig; Grant P Otto; Kirsi Riento; Emily Hams; Padraic G Fallon; Ben J Nichols
Journal:  J Cell Biol       Date:  2010-11-08       Impact factor: 10.539

8.  The membrane skeleton controls diffusion dynamics and signaling through the B cell receptor.

Authors:  Bebhinn Treanor; David Depoil; Aitor Gonzalez-Granja; Patricia Barral; Michele Weber; Omer Dushek; Andreas Bruckbauer; Facundo D Batista
Journal:  Immunity       Date:  2010-02-18       Impact factor: 31.745

9.  Single-particle tracking of membrane protein diffusion in a potential: simulation, detection, and application to confined diffusion of CFTR Cl- channels.

Authors:  Songwan Jin; Peter M Haggie; A S Verkman
Journal:  Biophys J       Date:  2007-05-04       Impact factor: 4.033

Review 10.  Regulation from within: the cytoskeleton in transmembrane signaling.

Authors:  Khuloud Jaqaman; Sergio Grinstein
Journal:  Trends Cell Biol       Date:  2012-08-20       Impact factor: 20.808
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