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Molecular Bio-Sensors and the Role of Metal Ions book cover

1st Edition

Molecular Bio-Sensors and the Role of Metal Ions

Edited By Thomas J. Meade Copyright 2022
348 Pages 90 Color & 75 B/W Illustrations
by CRC Press

348 Pages 90 Color & 75 B/W Illustrations
by CRC Press

348 Pages 90 Color & 75 B/W Illustrations
by CRC Press
Also available as eBook on:
Volume 23, entitled Molecular Bio-Sensors and the Role of Metal Ions, of the series Metal Ions in Life Sciences (MILS) represents a milestone of contemporary progress and understanding of molecular bio-sensors for metal ions. It is bringing together the latest research in academia and industry, and it also emphasizes the spectrum of evolving regulations from regulatory bodies. This vibrant... Read more

Foreword by Peter J. Sadler

Chapter 01

Metalloid-Sensing Transcriptional Regulatory Proteins

Chapter 02

Magnetic Resonance Imaging Bio-Sensors for Calcium(II)

Chapter 03

Sensing Calcium Dynamics and Calcium Signaling

Chapter 04

Fluorescent Bio-Sensors for Manganese(II) and Iron(II)

Chapter 05

Fluorescent Probes for Zinc Ions and Their Applications in the Life Sciences

Chapter 06

Chemo- and Bio-Sensors for Copper Ions

Chapter 07

Molecular Design for Cadmium-Specific Fluorescent Sensors

Chapter 08

Molecular Bio-Sensors and the Biological and Biomedical Activities of Vanadium

Chapter 09

Non-invasive Detection of Stem Cell Therapies Facilitated by Metal Ion-Based Contrast Agents

Chapter 10

Optical and Electrochemical Metal-Based Sensors in Biological Systems

Biography

Thomas J. Meade

Taken from the book review of Mark D. Pagel in Coord. Chem. Rev. 478 (2023) 214994

The book Molecular Bio-Sensors and the Role of Metal Ions consists of 10 chapters that review the roles of calcium, vanadium, manganese, iron, copper, zinc, arsenic, and cadmium in the life sciences. The volume especially focuses on the development of bio-sensors that can be used with a variety of analytical methods that cover a wide range of spatial and temporal scales. Importantly, many of these analytical methods can be used to evaluate biological specimens to improve our understanding of biology and physiology, and many of these methods can be translated into the workflow of medical practice.

Overall, this book is comprehensive while presenting content at a very approachable level. The figures add to the quality of the writing, especially by presenting schematics that clarify complicated concepts, chemical structures that clarify subtle differences between agents, and biological & biomedical images that are eye-catching reminders of the value of molecular imaging. Although each chapter stands alone, insights for the detection and utility of detection of each metal can be gleaned from other chapters. Together, the 10 chapters of Volume 23 clearly continue the strong value of this book series, and clearly justify the rebranding of this series with the expanded title of Metal Ions in Life Sciences (MILS).

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