The key role played by iron, as well as other transition metals, in microbial metabolism is investigated in this volume. Topics covered include: iron chelation and siderophores; receptor-mediated bacterial iron transport; and the nitogenases.
Handbook of Microbial Iron Chelates emphasizes the various microbial compounds and synthetic analogues functioning as siderophores in microbes and as potential drugs in human iron metabolism. There are chapters describing the isolation, chemical characterization, synthesis and physicochemical properties of microbial iron chelates. Other chapters deal with the physiology and genetics of transport and receptors involved in iron uptake. Chemists, biologists, biochemists, pharmacologists, and medical doctors interested in the general aspects of iron metabolism, siderophores, receptors, and iron complex formation should consider this book a rich information source.
Handbook of Microbial Iron Chelates emphasizes the various microbial compounds and synthetic analogues functioning as siderophores in microbes and as potential drugs in human iron metabolism. There are chapters describing the isolation, chemical characterization, synthesis and physicochemical properties of microbial iron chelates. Other chapters deal with the physiology and genetics of transport and receptors involved in iron uptake. Chemists, biologists, biochemists, pharmacologists, and medical doctors interested in the general aspects of iron metabolism, siderophores, receptors, and iron complex formation should consider this book a rich information source.
The key role played by iron, as well as other transition metals, in microbial metabolism is investigated in this volume. Topics covered include: iron chelation and siderophores; receptor-mediated bacterial iron transport; and the nitogenases.
That residues of pesticide and other contaminants in the total environment are of concern to everyone everywhere is attested by the reception accorded previous volumes of "Residue Reviews" and by the gratifying enthusiasm, sincerity, and efforts shown by all the in dividuals from whom manuscripts have been solicited. Despite much propaganda to the contrary, there can never be any serious question that pest-control chemicals and food-additive chemicals are essential to adequate food production, manufacture, marketing, and storage, yet without continuing surveillance and intelligent control some of those that persist in our foodstuffs could at times conceivably endanger the public health. Ensuring safety-in-use of these many chemicals is a dynamic challenge, for established ones are continually being dis placed by newly developed ones more acceptable to food tech nologists, pharmacologists, toxicologists, and changing pest-control requirements in progressive. food-producing economies. These matters are of genuine concern to increasing numbers of governmental agencies and legislative bodies around the world, for some of these chemicals have resulted in a few mishaps from improper use. Adequate safety-in-use evaluations of any of these chemicals per sisting into our foodstuffs are not simple matters, and they incorporate the considered judgments of many individuals highly trained in a variety of complex biological, chemical, food technological, medical, pharmacological, and toxicological disciplines.
Micro process engineering is approaching both academia and industry. With the provision of micro devices, systems and whole plants by commercial suppliers, one main barrier for using these units has been eliminated. This book focuses on processes and their plants rather than on devices: what is 'before', 'behind' and 'around' micro device fabrication - and gives a comprehensive and detailed overview on the micro-reactor plants and three topic-class applications which are mixing, fuel processing, and catalyst screening. Thus, the book reflects the current level of development from 'micro-reactor design' to 'micro-reactor process design'.
Adopting a unique integrated engineering approach, this text covers all aspects of fuel processing: catalysts, reactors, chemical plant components and integrated system design. While providing an introduction to the subject, it also contains recent research developments, making this an invaluable handbook for chemical, power and process engineers, electrochemists, catalytic chemists, materials scientists and engineers in power technology.
A leading expert examines one of Napoleon's most decisive but least analysed victories In early July 1809 Napoleon crossed the Danube with 187,000 men to confront the Austrian Archduke Charles and an army of 145,000 men. The fighting that followed dwarfed in intensity and scale any previous Napoleonic battlefield, perhaps any in history: casualties on each side were over 30,000. The Austrians fought with great determination, but eventually the Emperor won a narrow victory. Wagram was decisive in that it compelled Austria to make peace. It also heralded a new, altogether greater order of warfare, anticipating the massed manpower and weight of fire deployed much later in the battles of the American Civil War and then at Verdun and on the Somme.
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