Correlative Light and Electron Microscopy V
- 1st Edition, Volume 187 - April 30, 2024
- Latest edition
- Editors: Thomas Müller-Reichert, Paul Verkade
- Language: English
Correlative Light and Electron Microscopy V, Volume 187 in the Methods in Cell Biology series, highlights advances in the field, with this new volume presenting interesting c… Read more
Correlative Light and Electron Microscopy V, Volume 187 in the Methods in Cell Biology series, highlights advances in the field, with this new volume presenting interesting chapters on timely topics, including Orthotopic brain tumor models derived from glioblastoma stem-like cells, RNA sequencing in hematopoietic stem cells, Generation of inducible pluripotent stem cells from human dermal fibroblasts, In vitro preparation of dental pulp stem cell grafts combined with biocompatible scaffolds for tissue engineering, Gene expression knockdown in chronic myeloid leukemia stem cells, Identification and isolation of slow-cycling GSCs, Assessment of CD133, EpCAM, and much more.
- Provides the authority and expertise of leading contributors from an international board of authors
- Presents the latest release in the Methods in Cell Biology series
- Includes the latest information on the topic of development, characterization and applications in CAR T Cells
Academic, researchers, government and industrial sectors
1. How to Apply the Broad Toolbox of Correlative Light and Electron Microscopy to Address a Specific Biological Question
Thomas Müller-Reichert, Erin M. Tranfield, Gunar Fabig and Thomas Kurth
2. Some tips and tricks for a correlative light electron microscopy workflow using stable expression of fluorescent proteins
Paul Verkade
3. Targeting membrane receptors with fluoronanogold probes for high resolution correlative microscopy.
Monica Fernandez Monreal
4. Correlative light and electron microscopy at defined cell cycle stages in a controlled environment
Shotaro Otsuka
5. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV2) culture and sample preparation for correlative light electron microscopy
Paul Verkade, Maximillian Erdmann, Isobel Web, Lorna Hodgson and Andrew Davidson
6. Tissue CLEM
Christine Longin
7. Array tomography of in vivo labeled synaptic receptors
Christian Stigloher and Sebastian Britz
8. Correlative cryo-microscopy pipelines for in situ cellular studies
Anna Sartori and Chiara Zurzolo
9. Building a super-resolution fluorescence cryomicroscope
Thom Sharp
10. Analysis of super resolution CLEM data
Thom Sharp
11. Nanometer targeting using cryo super resolution
Laura Carolina Zanetti-Domingues
12. Laboratory Based Correlative Cryo-Soft X-Ray Tomography and Cryo-Fluorescence Microscopy
Kenneth Fahy
Thomas Müller-Reichert, Erin M. Tranfield, Gunar Fabig and Thomas Kurth
2. Some tips and tricks for a correlative light electron microscopy workflow using stable expression of fluorescent proteins
Paul Verkade
3. Targeting membrane receptors with fluoronanogold probes for high resolution correlative microscopy.
Monica Fernandez Monreal
4. Correlative light and electron microscopy at defined cell cycle stages in a controlled environment
Shotaro Otsuka
5. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV2) culture and sample preparation for correlative light electron microscopy
Paul Verkade, Maximillian Erdmann, Isobel Web, Lorna Hodgson and Andrew Davidson
6. Tissue CLEM
Christine Longin
7. Array tomography of in vivo labeled synaptic receptors
Christian Stigloher and Sebastian Britz
8. Correlative cryo-microscopy pipelines for in situ cellular studies
Anna Sartori and Chiara Zurzolo
9. Building a super-resolution fluorescence cryomicroscope
Thom Sharp
10. Analysis of super resolution CLEM data
Thom Sharp
11. Nanometer targeting using cryo super resolution
Laura Carolina Zanetti-Domingues
12. Laboratory Based Correlative Cryo-Soft X-Ray Tomography and Cryo-Fluorescence Microscopy
Kenneth Fahy
- Edition: 1
- Latest edition
- Volume: 187
- Published: April 30, 2024
- Language: English
TM
Thomas Müller-Reichert
Thomas Müller-Reichert works in the Core Facility Cellular Imaging (CFCI), Faculty of Medicine Carl Gustav Carus, Technische Universität Dresden, Germany.
Affiliations and expertise
Core Facility Cellular Imaging (CFCI), Faculty of Medicine Carl Gustav Carus, Technische Universität Dresden, GermanyPV
Paul Verkade
Paul Verkade is a Professor of Bioimaging at the University of Bristol, UK where his research group works on the development and application of microscopy techniques to Biomedical questions. The main tools in the lab are Electron microscopy (EM) and Correlative Light Electron Microscopy (CLEM) in which fields he has published over 100 papers and edited 5 books on CLEM (including 4 Volumes of the Methods in Cell Biology series). PV obtained his PhD at the University of Utrecht, The Netherlands in 1996. Subsequently he did a post-doc at the EMBL, Heidelberg, Germany, after which he set up the electron microscopy unit at the newly formed Max Planck Institute for Molecular Cell Biology in Dresden, Germany from 2001. He moved to the UK in 2006 to set up another EM unit as part of an integrated LM and EM bioimaging facility, which facilitates CLEM workflows. He is actively involved in shaping the future microscopy landscape with roles in the Royal Microscopical Society and BioimagingUK and a current focus on putting volumeEM on the imaging map through community building and the organisation and co-chairing of the 1st Gordon Research Conference on vEM.
Affiliations and expertise
The University of Bristol, Bristol, UKRead Correlative Light and Electron Microscopy V on ScienceDirect