Biochemistry of the Essential Ultratrace Elements (Volume 3).
Author : E Frieden (Ed)
Publisher :
Page : pages
File Size : 14,62 MB
Release : 1984
Category :
ISBN :
Biochemistry of the Essential Ultratrace Elements
Author : Earl Frieden
Publisher : Springer Science & Business Media
Page : 433 pages
File Size : 40,10 MB
Release : 2012-12-06
Category : Science
ISBN : 1468447750
Book Description
The remarkable development of molecular biology has had its counterpart in an impressive growth of a segment of biology that might be described as atomic biology. The past several decades have witnessed an explosive growth in our knowledge of the many elements that are essential for life and maintenance of plants and animals. These essential elements include the bulk elements (hydro gen, carbon, nitrogen, oxygen, and sulfur), the macrominerals (sodium, potas sium, calcium, magnesium, chloride, and phosphorus), and the trace elements. This last group includes the ultra trace elements and iron, zinc, and copper. Only the ultratrace elements are featured in this book. Iron has attracted so much research that two volumes are devoted to this metal-The Biochemistry of Non-Heme Iron by A. Bezkoravainy, Plenum Press, 1980, and The Biochemistry of Heme Iron (in preparation). Copper and zinc are also represented by a separate volume in this series. The present volume begins with a discussion of essentiality as applied to the elements and a survey of the entire spectrum of possible required elements.
General Principles of Biochemistry of the Elements
Author : Ei-Ichiro Ochiai
Publisher : Springer Science & Business Media
Page : 463 pages
File Size : 11,60 MB
Release : 2012-12-06
Category : Science
ISBN : 1468453718
Book Description
The present book might be regarded as a sequel to my previous work, Bioinorganic Chemistry: An Introduction (Allyn and Bacon, 1977). The latter is essentially a collection of chemical and physical data pertinent to an understanding of the biological functions of the various elements and the proteins dependent on them. The ten years since its publication have seen an enormous increase in research activity in this area, hence of research papers. A number of monographs and review series on specific topics have also appeared, including the volumes in the series of which the present volume is a part. Nevertheless, a gap has developed between the flood of information available at a detailed level (papers and reviews) and a general description of the underlying principles of biofunctions of the elements as presently conceived. It is hoped that this book will help bridge this gap and at the same time provide an overview of the entire Biochemistry of the Elements series. Specifically, the work attempts to focus on "why" questions, especially, "Why has an element been chosen by organisms for a specific biofunction?" and "Why does an element behave the way it does in biological systems?" It therefore complements my 1977 book and, together with Laboratory Introduction to Bio-Inorganic Chemistry (E. -I. Ochiai and D. R. Williams, Macmillan, 1979), completes a trilogy on the topic of bioinorganic chemistry. This book consists of five parts. Two chapters constitute Part I.
Biochemistry of Halogenated Organic Compounds
Author : Kenneth L. Kirk
Publisher : Springer Science & Business Media
Page : 374 pages
File Size : 31,12 MB
Release : 2013-06-29
Category : Medical
ISBN : 1475746059
Book Description
Biochemistry of Halogenated Organic Compounds has been written as a general reference source for researchers in several related areas, including organic chemists, medicinal chemists, pharmacologists, toxicologists, and medical researchers. The development of halogenated compounds as medicinal agents and pharmacological tools and the fascinating biochemi cal processes that have been discovered and studied using these analogues have generated extremely active areas of research and an enormous volume of literature. Thus, halogenated organic compounds pervade every aspect of biochemistry, a fact made apparent by the numerous reviews and monographs available on individual topics-halogenated nucleosides, halogenated carbohydrates, and so forth. Given the quantity of material already written on these topics, some of which material is quite current, it might be asked whether a one-volume review of these subjects is useful, or possible. Having now completed this work, I feel the answer to both questions is an emphatic yes. There are fascinating stories to be related in each area, and, where appropriate, I have attempted to develop these topics . from a historical perspective. For example, the discovery of the anticancer activity of fluorouracil, the unraveling of the several mechanisms of its action, and the development of a host of later generations of anticancer and antiviral agents based on the parent fluoro-, iodo-, bromo-, and trifluoromethylpyrimidines were, and are, contributions of major magnitude to medical science.
Biochemistry of Dioxygen
Author : Lloyd L. Ingraham
Publisher : Springer Science & Business Media
Page : 290 pages
File Size : 24,86 MB
Release : 2012-12-06
Category : Science
ISBN : 1461324750
Book Description
This book is written for the research biochemist who needs to know more about the particular field of dioxygen metabolism, whether this be for designing lectures for a graduate level course or for his or her own research needs. We hope researchers in a given area of dioxygen metabolism will gain knowledge of related fields of dioxygen metabolism. We have decided to use the term dioxygen to distinguish molecular oxygen from divalent oxygen in water and organic compounds, dioxygen being a simpler term than molecular oxygen. We do not intend to review the metabolism of all compounds that contain oxygen, since this would include all of biochemistry. An understanding of dioxygen chemistry is essential to the discussion of the biochemistry of dioxygen. While this statement could be made about any biochemical constituent, the chemistry of dioxygen is so unusual that interpre tations without detailed chemical background are futile. Prediction of dioxygen reaction products by analogy with other oxidants is impossible. The partial reduction products of dioxygen, superoxide ion and peroxides, develop naturally in the chemistry of dioxygen. It would be difficult to discuss dioxygen biochemistry without first discussing these partial reduction products.
Biochemistry of Sulfur
Author : Ryan J. Huxtable
Publisher : Springer Science & Business Media
Page : 454 pages
File Size : 32,68 MB
Release : 2013-11-11
Category : Science
ISBN : 147579438X
Book Description
There can be few elements with a biochemistry as coherent as that of sulfur. This important element is crucial to myriad aspects of metabo lism, catalysis, and structure. The plurality of functions in which sulfur is involved derives squarely from the numerous oxidation states in which it may exist, some having great stability, some being capable of ready redox interconversions, and yet others having great instability. As a result, the flux of sulfur from the geosphere through the various kingdoms of life leaves few biochemical processes unaffected. Although there are large gaps in the fabric of our basic knowledge of sulfur biochemistry, it is sufficiently framed to allow a unified and organized story, a story which many of the best-known names in bio chemistry have helped to write. It has been both a task and a privilege to try and summarize this story, one that is enormous, complex, fast moving, still developing and, above all, exciting. I suppose that no mo nographer of such a vast subject could be satisfied with his efforts. It is unfortunately probable that in attempting this task I have made as many errors as a Stilton cheese has blue streaks, and as many omissions as a Swiss cheese has holes. Perfection is not to be achieved in a monograph. Inasmuch as I have succeeded, the credit belongs to those whose efforts gave us the knowledge we have. Where I have failed, the fault is only mine.
Handbook of Nutritionally Essential Mineral Elements
Author : Boyd L. O'Dell
Publisher : CRC Press
Page : 705 pages
File Size : 22,81 MB
Release : 1997-03-07
Category : Medical
ISBN : 1482273101
Book Description
"Offers comprehensive, definitive information on all of the essential mineral elements--focusing on biochemical and physiological processes. Describes in detail the function of the nutritionally necessary elements revealed through the latest techniques in molecular biology as well as traditional research methods."
Biochemistry of the Elemental Halogens and Inorganic Halides
Author : Kenneth L. Kirk
Publisher : Springer Science & Business Media
Page : 305 pages
File Size : 16,12 MB
Release : 2012-12-06
Category : Medical
ISBN : 1468458175
Book Description
The elements in group 17 (VIlA) of the periodic table of elements-fluorine (F), chlorine (CI), bromine (Br), and iodine (I)-were designated by Berzelius as "halogens" (Greek hals, sea salt; gennao, I beget) because of their propensity to form salts. In this first of the two volumes of Bio chemistry of the Halogens, the biochemistry of the elemental halogens and inorganic halides is reviewed. Discovery, properties, and biochemistry of the elemental halogens are reviewed first (Chapter 1). This is followed by a review of the developments in the various areas of inorganic halide biochemistry (Chapters 2 through 5). The biochemistry of thyroid hor mones is considered in Chapter 6, while biohalogenation, an important link between inorganic and organic halogen biochemistry, is reviewed in Chapter 7. Chapter 8 covers the biochemistry of products produced by human-inspired halogenation, in particular, poly halogenated compounds that present environmental problems. In Chapter 9, the process is reversed and biodehalogenation is reviewed. In each subject, the attempt has been made to find an appropriate balance between depth and breadth of treatment, since a thorough, in depth review of this field would not be possible in a single volume. To provide readers not familiar with subjects with the necessary background to place subsequent discussions in perspective, brief historical develop ments of many of the topics are given.
Metallotherapeutic Drugs and Metal-Based Diagnostic Agents
Author : Marcel Gielen
Publisher : John Wiley & Sons
Page : 638 pages
File Size : 15,96 MB
Release : 2005-09-01
Category : Science
ISBN : 0470864044
Book Description
There are an astonishing number and variety of roles that metals play in contemporary medicine. This book contains information on the medicinal uses of inorganics, that is, of elements such as boron, lithium, selenium, to name a few, as well as metal-containing species. In keeping with the notion that healthy mammals rely on (bio-essential) metals for the normal functioning of approximately a third of their proteins and enzymes, a large number of drugs are metal-based and considerable effort is being devoted to developing both second- and third-generation drugs as well as generating novel metal-based drugs. While there is no doubt that there is an emphasis on 'Metallotherapeutics' throughout the volume, the use of metals in medicine is not restricted to metal-based drugs. The following are also covered: non-invasive radiopharmaceuticals Magnetic Resonance Imaging (MRI) mineral supplements From the foregoing and, more importantly, from the contents of the various Chapters, the reader will gain an appreciation of the very real role metal-based drugs play in modern medicine and of the considerable effort being devoted to the development of novel complexes with greater efficacy as therapeutic and diagnostic agents.
Biochemistry of the Lanthanides
Author : Christopher H. Evans
Publisher : Springer Science & Business Media
Page : 453 pages
File Size : 25,9 MB
Release : 2013-11-11
Category : Science
ISBN : 1468487485
Book Description
By a happy coincidence, the completion of this text coincided with the 200th anniversary of the discovery of gadolinite, the mineral with which the lanthanide story begins. For a group of elements which occur in only trace amounts biologically, and which have no known metabolic role, the lanthanides have spawned a surprisingly large biochemicalliterature. Se rious interest in the biochemical properties ofthese elements can be traced to concerns about the safety of radioactive lanthanides toward the end of World War 11. As recent events at Chernobyl indicate, this concern re mains topical. However, the literature on lanthanide biochemistry pre dates the atomic era, beginning with sporadic, medically motivated studies in the latter part of the 19th century. Much of the present biochemical activity involving the lanthanides centers around their ability to provide 2 important information on the interactions of Ca + with macromolecules and with eukafyotic cells. With the increasing industrial use of the lan thanides, their toxicological properties will need to be examined more closely. Rare earth pneumonoconiosis has already been identified as a disease produced by industrial exposure to lanthanides. Several of the biochemical properties of the lanthanides are of relevance to modern medicine. Already cerium-based ointments are used to treat burn wounds, while paramagnetic lanthanides find application in nuclear magnetic res onance imaging. This book is an attempt to collate and to present in reasonable detail existing knowledge of lanthanide biochemistry before the literature be comes unmanageable.
