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Literature DB >> 19754448

The 'super-resolution' revolution.

Abstract

We are currently in the midst of an exciting revolution in microscopy. In many ways, this has been happening for several decades, but it is the rate of development of new methods that has increased recently. The last few years have seen an impressive proliferation of new instruments for imaging at higher resolution, imaging single molecules and faster and more sensitive multidimensional live cell imaging. These include light sheet microscopy, stimulated emission depletion, structured illumination and live cell imaging on the OMX (optical microscopy experimental) platform. However, new probes and image analysis methods have also been crucial for the development of these revolutionary methods.

Entities: Chemical Disease Species

Mesh：

Substances：
Fluorescent Dyes

Year: 2009 PMID： 19754448 PMCID： PMC3227731 DOI： 10.1042/BST0371042

Source DB: PubMed Journal: Biochem Soc Trans ISSN： 0300-5127 Impact factor: 5.407

13 in total

1. I5M: 3D widefield light microscopy with better than 100 nm axial resolution.

Authors: M G Gustafsson; D A Agard; J W Sedat
Journal: J Microsc Date: 1999-07 Impact factor: 1.758

2. Fluorescence microscopy with diffraction resolution barrier broken by stimulated emission.

Authors: T A Klar; S Jakobs; M Dyba; A Egner; S W Hell
Journal: Proc Natl Acad Sci U S A Date: 2000-07-18 Impact factor: 11.205

Review 3. How the confocal laser scanning microscope entered biological research.

Authors: W B Amos; J G White
Journal: Biol Cell Date: 2003-09 Impact factor: 4.458

4. Optical sectioning deep inside live embryos by selective plane illumination microscopy.

Authors: Jan Huisken; Jim Swoger; Filippo Del Bene; Joachim Wittbrodt; Ernst H K Stelzer
Journal: Science Date: 2004-08-13 Impact factor: 47.728

5. Nonlinear structured-illumination microscopy: wide-field fluorescence imaging with theoretically unlimited resolution.

Authors: Mats G L Gustafsson
Journal: Proc Natl Acad Sci U S A Date: 2005-09-02 Impact factor: 11.205

6. Imaging intracellular fluorescent proteins at nanometer resolution.

Authors: Eric Betzig; George H Patterson; Rachid Sougrat; O Wolf Lindwasser; Scott Olenych; Juan S Bonifacino; Michael W Davidson; Jennifer Lippincott-Schwartz; Harald F Hess
Journal: Science Date: 2006-08-10 Impact factor: 47.728

7. Three-dimensional resolution doubling in wide-field fluorescence microscopy by structured illumination.

Authors: Mats G L Gustafsson; Lin Shao; Peter M Carlton; C J Rachel Wang; Inna N Golubovskaya; W Zacheus Cande; David A Agard; John W Sedat
Journal: Biophys J Date: 2008-03-07 Impact factor: 4.033

8. Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure.

Authors: Gleb Shtengel; James A Galbraith; Catherine G Galbraith; Jennifer Lippincott-Schwartz; Jennifer M Gillette; Suliana Manley; Rachid Sougrat; Clare M Waterman; Pakorn Kanchanawong; Michael W Davidson; Richard D Fetter; Harald F Hess
Journal: Proc Natl Acad Sci U S A Date: 2009-02-06 Impact factor: 11.205

9. 4Pi-confocal microscopy provides three-dimensional images of the microtubule network with 100- to 150-nm resolution.

Authors: M Nagorni; S W Hell
Journal: J Struct Biol Date: 1998-11 Impact factor: 2.867

10. Three-dimensional architecture of a polytene nucleus.

Authors: D A Agard; J W Sedat
Journal: Nature Date: 1983-04-21 Impact factor: 49.962

6 in total

Review 1. Measurement of single-cell dynamics.

Authors: David G Spiller; Christopher D Wood; David A Rand; Michael R H White
Journal: Nature Date: 2010-06-10 Impact factor: 49.962