Bioorganometallic Chemistry - Applications in Drug Discovery, Biocatalysis, and Imaging
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  • Wiley

More About This Title Bioorganometallic Chemistry - Applications in Drug Discovery, Biocatalysis, and Imaging

English

An up-to-date reference reflecting the significant advances and important breakthroughs made in this emerging discipline over the last decade.
As such, the book provides an overview of the latest developments and future trends in the field, focusing on such applications as the development of potentially active organometallic drugs against incurable diseases, as well as in such areas as catalysis, energy, analytical chemistry, and imaging.
The renowned editor, who established the term "bioorganometallics", and his international team of experts have put together a valuable resource for researchers in organometallic, inorganic, medicinal, and biochemistry.

English

Gérard Jaouen obtained his PhD degree in organic chemistry at the University of Rennes, France, in 1969. From 1973 to 1974 he did postdoctoral studies at the University of Cambridge, UK, working with the late Professor (Lord) Jack Lewis. He became a member of the CNRS in 1970, was appointed Directeur de Recherche in 1976 and became Professor at the École Nationale Supérieure de Chimie in Paris in 1982, where in 1984 he set up a CNRS associated research unit. He is now appointed as a "classe exceptionnelle" professor. He is the author of more than 400 papers and holds 14 patents. His achievements in bioorganometallic chemistry have been recognized by several awards. He was awarded "Chevalier dans l'ordre de la Légion d'Honneur" (Knight of the National Order of the Legion of Honour, 2006) and elected as a fellow of the European Academy of Sciences and a member of the Academia Europae in 2012.

Michèle Salmain received her PhD degree in organic chemistry from the Université Pierre et Marie Curie, Paris, France in 1990. She has been appointed as a researcher by the Centre National de la Recherche Scientfique (CNRS) since 1992 and currently holds position of Directeur de Recherche. Since the beginning of her academic career, her line of research has lied in the field of bioorganometallic chemistry. Her current interests are focused on the design of immunosensors for analytical applications and artificial metalloenzymes for enantioselective catalysis application

English

Preface

PART I: Medicinal Chemistry

ORGANOMETALLIC COMPLEXES AS ENZYME INHIBITORS: A CONCEPTUAL OVERVIEW
Introduction
Organometallic Compounds as Inert Structural Scaffolds for Enzyme Inhibition
Organometallic Compounds Targeting Specific Protein Residues
The Bioisosteric Substitution
Novel Mechanisms of Enzyme Inhibition with Organometallic Compounds
Organometallic Compounds as Cargo Delivers of Enzyme Inhibitors
Organometallic Enzyme Inhibitors for Theranostic Purposes
Conclusion

THE BIOLOGICAL TARGET POTENTIAL OF ORGANOMETALLIC STEROIDS
Introductory Note on Nuclear Receptors
Steroids and Organometallics: An Overview of the Transitional Period from the Use of Organometallics in Synthesis to the Emergence of Bioorganometallics
Epilog

CHIRALITY IN ORGANOMETALLIC ANTICANCER COMPLEXES
Introduction
Chirality in Arene Complexes
CIP System for the Nomenclature of Chiral-at-Metal Arene Complexes
Chiral Organometallic Complexes as Anticancer Agents
Half-Sandwich Complexes with Chiral Metal Centers
Conclusions

GOLD ORGANOMETALLICS WITH BIOLOGICAL PROPERTIES
Introduction: The Use of Gold in Medicine
Anticancer Gold Organmetallics and Proposed Biological Targets
Conclusions and Perspectives

ON THE MOLECULAR MECHANISMS OF THE ANTIMALARIAL ACTION OF FERROQUINE
History and Development
Mechanism(s) of Action 4-Aminoquinoline Antimalarials
Mechanism(s) of Action of Ferroquine as an Antimalarial
Conclusion

METAL CARBONYL PRODRUGS: CO DELIVERY AND BEYOND
Introducing CO in Biology
Therapeutic Delivery of CO
Biological and Therapeutic Results Obtained with the Early-Stage CORMs
Beyond the Early-Stage CORMs: Strategies for Finding New Candidates
Intracellular Detection of CORMs, Mechanistic Studies, and Other Unanswered Questions
Designing Pharmacologically Useful, Drug-like CORMs
Final Remarks and Perspectives

DINITROSYL IRON COMPLEXES WITH NATURAL THIOL-CONTAINING LIGANDS: PHYSICOCHEMISTRY, BIOLOGY, AND MEDICINE
Introduction
The History of Detection and Identification of DNIC with Thiol-Containing Ligands in Microorganisms and Animal Tissues
Physicochemistry of DNIC with Natural Thiol-Containing Ligands
Biological Effects of DNIC with Thiol-Containing Ligands
DNIC with Thiol-Containing Ligands as a Basis in the Design of Drugs with a Broad Range of Therapeutic Activities

PART II: Metalloproteins, Catalysis, and Energy Production

THE BIOORGANOMETALLIC CHEMISTRY OF HYDROGENASE
Introduction
Structure and Function
Natural Biosynthesis and Synthetic Analogs of the Active Sites
Comments and Conclusion

BIO-ORGANOMETALLIC SYSTEMS FOR THE HYDROGEN ECONOMY: ENGINEERING OF ELECTRODE MATERIALS AND LIGHT-DRIVEN DEVICES
Introduction
Electrode Materials for Hydrogen Evolution and Uptake
Light-Driven Systems for Hydrogen Evolution
Artificial Photosynthetic Systems
Summary and Conclusions

ARTIFICIAL METALLOENZYMES CONTAINING AN ORGANOMETALLIC ACTIVE SITE
Introduction
Dative Anchoring
Supramolecular Anchoring
Covalent Anchoring
Mixed Anchoring Modes
Peptide Scaffolds
Summary and Outlook

PART III: Bioanalysis

ORGANOMETALLIC BIOPROBES FOR CELLULAR IMAGING
Introduction
Luminescence
Vibrational Spectroscopy
Miscellaenous
Conclusions

Index

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“Overall, this is an excellent book for researchers (young and old in the field) who wish to pursue research at the forefront of bioorganometallic chemistry and who wish to assist in solving the many challenges still being faced and to contribute to the development of drug discovery, biocatalysis and cellular imaging.”  (Applied Organometallic Chemistry, 20 August 2015)

 

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