Methods for imaging cell membranes.

Format:

• Book

Author/Creator:

• Panconi, Luca, author.
• Nieves, Daniel, author.
• Makarova, Maria, author.
• Owen, Dylan, author.

Contributor:

• EBSCOhost
• Rosengarten Family Fund.

Series:

• Series in cellular and clinical imaging

Language:

English

Subjects (All):

• Cell membranes--Imaging.

Physical Description:

1 online resource : illustrations.

Edition:

First edition.

Place of Publication:

Boca Raton : CRC Press, Taylor & Francis Group, 2024.

Biography/History:

Luca Panconi is a mathematician and bioinformatician who specialises in implementing analysis techniques for super-resolution microscopy data. His work crosses the boundaries of computer science and biology, creating innovative data analysis tools that unlock unprecedented details at a molecular level. As a statistician with a commitment to advancing the scientific community, his work bridges the gap between complex mathematics and biological research. Dr. Daniel Nieves has been a research fellow in the lab of Prof. Dylan Owen within the Institute of Immunology and Immunotherapy at the University of Birmingham, UK since 2019. His work has focused on implementation and design of a framework to aid cluster analysis implementation for single molecule localisation microscopy. His research focuses on the development of new labelling and analysis methods to improve quantitative biological measurements using super-resolution microscopy. Dr. Maria Makarova was promoted to Assistant Professor in 2022 in the School of Biosciences. Her work combines comparative microbiology, genetics, lipidomics and advanced microscopy to understand the interplay of metabolism, the membrane and the environment. Prof. Dylan Owen moved to the University of Birmingham in 2019 and now holds an interdisciplinary chair position between the Institute of Immunology and Immunotherapy and the School of Mathematics, as well as serving as the deputy-director of the Centre of Membrane Proteins and Receptors (COMPARE). His lab's work seeks to develop new microscopy methodology (especially single-molecule localisation microscopy, image analysis and AI) and apply these methods to study membrane biophysics and T cell immunology.

Contents:

Chapter 1. General introduction to imaging the Plasma membrane Chapter 2. How to map membrane proteins at the single-molecule level Chapter 3. Measuring diffusion of membrane biomolecules using fluorescence microscopy Chapter 4. Detecting membrane protein dimers and oligomers by FRET Chapter 5. Imaging membrane biophysical properties Chapter 6. Conclusions and future perspectives

Notes:

• Includes bibliographical references and index.
• Electronic reproduction. Ipswich, MA Available via World Wide Web.
• Online resource; title from PDF title page (Taylor & Francis, viewed January 8. 2024).

Local Notes:

Acquired for the Penn Libraries with assistance from the Rosengarten Family Fund.

ISBN:

• 9781003273745
• 1003273742
• 9781003823148
• 1003823149
• 9781003823131
• 1003823130

Publisher Number:

99996491066

Access Restriction:

Restricted for use by site license.

Online:

The Rosengarten Family Fund Home Page