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Literature DB >> 21782417

The power of correlative microscopy: multi-modal, multi-scale, multi-dimensional.

Jeffrey Caplan¹, Marc Niethammer, Russell M Taylor, Kirk J Czymmek.

Abstract

Correlative microscopy is a sophisticated approach that combines the capabilities of typically separate, but powerful microscopy platforms: often including, but not limited, to conventional light, confocal and super-resolution microscopy, atomic force microscopy, transmission and scanning electron microscopy, magnetic resonance imaging and micro/nano CT (computed tomography). When targeting rare or specific events within large populations or tissues, correlative microscopy is increasingly being recognized as the method of choice. Furthermore, this multi-modal assimilation of technologies provides complementary and often unique information, such as internal and external spatial, structural, biochemical and biophysical details from the same targeted sample. The development of a continuous stream of cutting-edge applications, probes, preparation methodologies, hardware and software developments will enable realization of the full potential of correlative microscopy.

Entities: CellLine Chemical Disease Gene Species

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Year: 2011 PMID： 21782417 PMCID： PMC3189301 DOI： 10.1016/j.sbi.2011.06.010

Source DB: PubMed Journal: Curr Opin Struct Biol ISSN： 0959-440X Impact factor: 6.809

50 in total

1. FluoroSim: A Visual Problem-Solving Environment for Fluorescence Microscopy.

Authors: Cory W Quammen; Alvin C Richardson; Julian Haase; Benjamin D Harrison; Russell M Taylor; Kerry S Bloom
Journal: Eurographics Workshop Vis Comput Biomed Date: 2008-01-01

2. Dynamics of podosome stiffness revealed by atomic force microscopy.

Authors: Anna Labernadie; Christophe Thibault; Christophe Vieu; Isabelle Maridonneau-Parini; Guillaume M Charrière
Journal: Proc Natl Acad Sci U S A Date: 2010-11-16 Impact factor: 11.205

3. Serial section scanning electron microscopy of adult brain tissue using focused ion beam milling.

Authors: Graham Knott; Herschel Marchman; David Wall; Ben Lich
Journal: J Neurosci Date: 2008-03-19 Impact factor: 6.167

4. Putting super-resolution fluorescence microscopy to work.

Authors: Jennifer Lippincott-Schwartz; Suliana Manley
Journal: Nat Methods Date: 2009-01 Impact factor: 28.547

5. Correlation of 4Pi and electron microscopy to study transport through single Golgi stacks in living cells with super resolution.

Authors: Giuseppe Perinetti; Tobias Müller; Alexander Spaar; Roman Polishchuk; Alberto Luini; Alexander Egner
Journal: Traffic Date: 2009-04 Impact factor: 6.215

6. Correlative fluorescence and transmission electron microscopy: an elegant tool to study the actin cytoskeleton of whole-mount (breast) cancer cells.

Authors: K A Jahn; D A Barton; Y Su; J Riches; E P W Kable; L L Soon; F Braet
Journal: J Microsc Date: 2009-09 Impact factor: 1.758

7. Magnetic resonance virtual histology for embryos: 3D atlases for automated high-throughput phenotyping.

Authors: Jon O Cleary; Marc Modat; Francesca C Norris; Anthony N Price; Sujatha A Jayakody; Juan Pedro Martinez-Barbera; Nicholas D E Greene; David J Hawkes; Roger J Ordidge; Peter J Scambler; Sebastien Ourselin; Mark F Lythgoe
Journal: Neuroimage Date: 2010-07-23 Impact factor: 6.556

8. Correlated fluorescence and 3D electron microscopy with high sensitivity and spatial precision.

Authors: Wanda Kukulski; Martin Schorb; Sonja Welsch; Andrea Picco; Marko Kaksonen; John A G Briggs
Journal: J Cell Biol Date: 2011-01-03 Impact factor: 10.539

9. Counting Synapses Using FIB/SEM Microscopy: A True Revolution for Ultrastructural Volume Reconstruction.

Authors: Angel Merchán-Pérez; José-Rodrigo Rodriguez; Lidia Alonso-Nanclares; Andreas Schertel; Javier Defelipe
Journal: Front Neuroanat Date: 2009-10-05 Impact factor: 3.856

Review 10. Bridging fluorescence microscopy and electron microscopy.

Authors: Ben N G Giepmans
Journal: Histochem Cell Biol Date: 2008-06-25 Impact factor: 4.304

32 in total

1. Multi-modal registration for correlative microscopy using image analogies.

Authors: Tian Cao; Christopher Zach; Shannon Modla; Debbie Powell; Kirk Czymmek; Marc Niethammer
Journal: Med Image Anal Date: 2013-12-18 Impact factor: 8.545

2. Microscopy: Two microscopes are better than one.

Authors: Caitlin Smith
Journal: Nature Date: 2012-12-13 Impact factor: 49.962

3. Cassette series designed for live-cell imaging of proteins and high-resolution techniques in yeast.

Authors: Carissa L Young; David L Raden; Jeffrey L Caplan; Kirk J Czymmek; Anne S Robinson
Journal: Yeast Date: 2012-04-04 Impact factor: 3.239

Review 4. Correlative cryogenic tomography of cells using light and soft x-rays.

Authors: Elizabeth A Smith; Bertrand P Cinquin; Myan Do; Gerry McDermott; Mark A Le Gros; Carolyn A Larabell
Journal: Ultramicroscopy Date: 2013-11-07 Impact factor: 2.689

5. Correlative two-color two-photon (2C2P) excitation STED microscopy.

Authors: Christoph Polzer; Stefan Ness; Mojtaba Mohseni; Thomas Kellerer; Markus Hilleringmann; Joachim Rädler; Thomas Hellerer
Journal: Biomed Opt Express Date: 2019-08-07 Impact factor: 3.732

Review 6. Blue-Light Receptors for Optogenetics.

Authors: Aba Losi; Kevin H Gardner; Andreas Möglich
Journal: Chem Rev Date: 2018-07-09 Impact factor: 60.622

7. Correlative light and electron microscopy of poly(ʟ-lactic acid) spherulites for fast morphological measurements using a convolutional neural network.

Authors: Yuji Konyuba; Hironori Marubayashi; Tomohiro Haruta; Hiroshi Jinnai
Journal: Microscopy (Oxf) Date: 2022-04-01 Impact factor: 1.571