Recently there has been a widespread resurgence of interest in the applications of hydrogen as a "clean fuel" with its potential for local electricity production and use in transport. The last five years have seen breakthroughs in our understanding of the nature, structure and biosynthesis of hydrogenases. This book is a timely description of these developments, taking a lucid, multidisciplinary approach.
Scientists in fields such as clean technology, biochemistry, electrochemistry, agriculture and general biotechnology will find this an accessible resource bringing together the many facets of these enzymes.

eBook available with sample pages: 0203471040

There continues to be widespread interest in the applications of hydrogen as a clean fuel and its potential for local electricity production and use in transport. Recent years have seen a variety of breakthroughs in our understanding of the nature, structure, and biosynthesis of hydrogenases. This book is a timely description of these developments, taking a lucid, multidisciplinary approach. Scientists in fields, such as clean technology, biochemistry, electrochemistry, agriculture, and general biotechnology, will find this an accessible resource that brings together the many facets of these enzymes.

Over the last few years, the language of Biochemistry and Molecular Biology has expanded enormously to the extent that few scientists can expect to be familiar with all the terms and concepts. This is partly due the massive influence of the Genome and successive "-omics" projects which have developed in to many new areas of research. At the same time, terms from other subject areas - including mathematics, statistics, physics and other life sciences - appear increasingly in the biochemical literature. The Oxford Dictionary of Biochemistry and Molecular Biology provides a comprehensive and 'encyclopaedic' survey of modern biochemistry and molecular biology. This new edition of the popular dictionary has been comprehensively reviewed and updated to include many important new concepts and words. The entries are short but informative, providing up-to-date information on a broad range of topics, including definitions for terms from the fields of Bioinformatics, Biophysics, Cell Biology, Chemistry, Genetics, Immunology, Mathematics, Microbiology, Pharmacology, Systems Biology, and Toxicology. There are over 21000 main entries, which include: details of biochemical substances and the processes in which they are involved, methods and concepts in molecular biology, and definitions of biochemical symbols and abbreviations. Each entry is accessibly written. They point out pitfalls where terms are often confused, and explain the precise syntax of biochemical terms such as Greek letters and other formatting, which are invariably lost when searching the Internet. In addition, the dictionary is generously illustrated with over 900 chemical structures. The Oxford Dictionary of Biochemistry and Molecular Biology will serve as an invaluable reference text for student and professional biochemists and molecular biologists seeking information both from within and outside their own fields. It will also be of relevance and use to a broader audience of life scientists seeking an authoritative overview of fundamental principles.

The objective of this book is to review and summarize recent developments in our understanding of iron transport and storage in living systems. It includes an overview of the evolutionary aspects of iron metabolism and bacterial iron transport, as well as a detailed discussion of molecules with specific roles in iron metabolism in higher organisms. It also presents relationships between intracellular iron metabolism and cell proliferation. Iron Transport and Storage addresses the comparative aspects of iron transport and storage in different tissues. This essential volume is very useful for hematologists, physical and biological chemists, cell and molecular biologists, physiologists, and clinicians with an interest in the biology and metabolism of iron.