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Literature DB >> 25520545

Going beyond 2D: Following membrane diffusion and topography in the IgE-Fc[Epsilon]RI system using 3-dimensional tracking microscopy.

Nathan P Wells¹, Guillaume A Lessard¹, Mary E Phipps¹, Peter M Goodwin¹, Diane S Lidke², Bridget S Wilson², James H Werner¹.

Abstract

The ability to follow and observe single molecules as they function in live cells represents a major milestone for molecular-cellular biology. Here we present a tracking microscope that is able to track quantum dots in three dimensions and simultaneously record time-resolved emission statistics from a single dot. This innovative microscopy approach is based on four spatial filters and closed loop feedback to constantly keep a single quantum dot in the focal spot. Using this microscope, we demonstrate the ability to follow quantum dot labeled IgE antibodies bound to FcεRI membrane receptors in live RBL-2H3 cells. The results are consistent with prior studies of two dimensional membrane diffusion (Andrews et al., Nat. Cell Biol., 10, 955, 2008). In addition, the microscope captures motion in the axial (Z) direction, which permits tracking of diffusing receptors relative to the "hills and valleys" of the dynamically changing membrane landscape. This approach is uniquely capable of following single molecule dynamics on live cells with three dimensional spatial resolution.

Entities: CellLine Chemical Disease Gene Species

Keywords: Fluorescence; IgE; Live Cell; Membrane Signaling; Microscopy; Particle Tracking; Quantum Dot; RBL-2H3

Year: 2009 PMID： 25520545 PMCID： PMC4266560 DOI： 10.1117/12.809412

Source DB: PubMed Journal: Proc SPIE Int Soc Opt Eng ISSN： 0277-786X

35 in total

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Journal: J Mol Biol Date: 2000-05-12 Impact factor: 5.469

Review 2. Paradigm shift of the plasma membrane concept from the two-dimensional continuum fluid to the partitioned fluid: high-speed single-molecule tracking of membrane molecules.

Authors: Akihiro Kusumi; Chieko Nakada; Ken Ritchie; Kotono Murase; Kenichi Suzuki; Hideji Murakoshi; Rinshi S Kasai; Junko Kondo; Takahiro Fujiwara
Journal: Annu Rev Biophys Biomol Struct Date: 2005

3. Chromatin dynamics in interphase cells revealed by tracking in a two-photon excitation microscope.

Authors: Valeria Levi; QiaoQiao Ruan; Matthew Plutz; Andrew S Belmont; Enrico Gratton
Journal: Biophys J Date: 2005-09-08 Impact factor: 4.033

4. Studying slow membrane dynamics with continuous wave scanning fluorescence correlation spectroscopy.

Authors: Jonas Ries; Petra Schwille
Journal: Biophys J Date: 2006-06-16 Impact factor: 4.033

Review 5. Investigating membrane protein dynamics in living cells.

Authors: Ian R Bates; Paul W Wiseman; John W Hanrahan
Journal: Biochem Cell Biol Date: 2006-12 Impact factor: 3.626

6. Compartmentalization of the Type I Fc epsilon receptor and MAFA on mast cell membranes.

Authors: B George Barisas; Steven M Smith; Jingjing Liu; Jinming Song; Guy M Hagen; Israel Pecht; Deborah A Roess
Journal: Biophys Chem Date: 2006-06-21 Impact factor: 2.352

7. New concepts for fluorescence correlation spectroscopy on membranes.

Authors: Jonas Ries; Petra Schwille
Journal: Phys Chem Chem Phys Date: 2008-03-27 Impact factor: 3.676

8. Confocal, three-dimensional tracking of individual quantum dots in high-background environments.

Authors: Nathan P Wells; Guillaume A Lessard; James H Werner
Journal: Anal Chem Date: 2008-12-15 Impact factor: 6.986

9. Actin restricts FcepsilonRI diffusion and facilitates antigen-induced receptor immobilization.

Authors: Nicholas L Andrews; Keith A Lidke; Janet R Pfeiffer; Alan R Burns; Bridget S Wilson; Janet M Oliver; Diane S Lidke
Journal: Nat Cell Biol Date: 2008-07-20 Impact factor: 28.824

10. Stimulated release of fluorescently labeled IgE fragments that efficiently accumulate in secretory granules after endocytosis in RBL-2H3 mast cells.

Authors: K Xu; R M Williams; D Holowka; B Baird
Journal: J Cell Sci Date: 1998-08 Impact factor: 5.285

9 in total

Review 1. Probing cellular events, one quantum dot at a time.

Authors: Fabien Pinaud; Samuel Clarke; Assa Sittner; Maxime Dahan
Journal: Nat Methods Date: 2010-03-30 Impact factor: 28.547

2. Time-resolved three-dimensional molecular tracking in live cells.

Authors: Nathan P Wells; Guillaume A Lessard; Peter M Goodwin; Mary E Phipps; Patrick J Cutler; Diane S Lidke; Bridget S Wilson; James H Werner
Journal: Nano Lett Date: 2010-11-10 Impact factor: 11.189

3. Improving z-tracking accuracy in the two-photon single-particle tracking microscope.

Authors: C Liu; Y-L Liu; E P Perillo; N Jiang; A K Dunn; H-C Yeh
Journal: Appl Phys Lett Date: 2015-10-12 Impact factor: 3.791

4. Three dimensional time-gated tracking of non-blinking quantum dots in live cells.

Authors: Matthew S DeVore; Dominik G Stich; Aaron M Keller; Yagnaseni Ghosh; Peter M Goodwin; Mary E Phipps; Michael H Stewart; Cédric Cleyrat; Bridget S Wilson; Diane S Lidke; Jennifer A Hollingsworth; James H Werner
Journal: Proc SPIE Int Soc Opt Eng Date: 2015-03-12