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Fluorine Metabolism, Transport and Enzymatic Chemistry, Volume 696 in the Methods in Enzymology series, highlights new advances in the field, with this new volume presenting interesting topics on Fluorine Metabolism, Transport, and Enzymatic Chemistry. Chapters in this new release include Determination of fluoride sensitivity and resistance in oral biofilm models, NMR methods to detect fluoride binding and transport by membrane proteins, Biotransformation of fluorinated drugs and xenobiotics by the model fungus Cunninghamella elegans, Measurement of fluoride efflux from lipid vesicles and cells, Defluorination of PFAS by Acidimicrobium sp. A6 and Potential Applications for Remediation, and more.Additional chapters cover Computational approaches to investigate F- binding, selectivity and transport in F- exporters, Defluorination as a key trait to gauge the biodegradability of fluorinated pollutants: challenges and opportunities, Patch-Clamp Electrophysiology of Fluoride Channels in Saccharomyces cerevisiae, and Synthesis of fluorophenylalanine-encoded proteins in HEK cells. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in Methods in Enzymology series - Updated release includes the latest information on Fluorine Metabolism, Transport, and Enzymatic Chemistry
Fluorine Metabolism, Transport and Enzymatic Chemistry, Volume 696 in the Methods in Enzymology series, highlights new advances in the field, with this new volume presenting interesting topics on Fluorine Metabolism, Transport, and Enzymatic Chemistry. Chapters in this new release include Determination of fluoride sensitivity and resistance in oral biofilm models, NMR methods to detect fluoride binding and transport by membrane proteins, Biotransformation of fluorinated drugs and xenobiotics by the model fungus Cunninghamella elegans, Measurement of fluoride efflux from lipid vesicles and cells, Defluorination of PFAS by Acidimicrobium sp. A6 and Potential Applications for Remediation, and more. Additional chapters cover Computational approaches to investigate F- binding, selectivity and transport in F- exporters, Defluorination as a key trait to gauge the biodegradability of fluorinated pollutants: challenges and opportunities, Patch-Clamp Electrophysiology of Fluoride Channels in Saccharomyces cerevisiae, and Synthesis of fluorophenylalanine-encoded proteins in HEK cells.
In recent years, organo-fluorine chemistry has made a marked impact on the design and synthesis of a large variety of biologically active molecules, such as steroids, carbohydrates, amines, amino acids, peptides and other natural products. Naturally occurring amino acids play a pivotal role in living systems, and therefore synthetic fluorine-containing amino acids have been of significant interest to researchers working towards the understanding and modification of physiological processes. Fluorine-containing Amino Acids: is the first volume devoted to the synthesis and properties of fluorine-containing amino acids pays special attention to the preparation of enantiomerically pure acids (which are essential to the modern pharmaceutical industry) deals with a rapidly expanding field of research has been written by experienced researchers who are responsible for many developments in the field highlights the interdisciplinary nature of this topic Fluorine-containing Amino Acids is the only dedicated reference in this subject and will be essential for researchers in synthetic organic, peptide, natural product, and medicinal chemistry and biochemistry.
This presentation describes various aspects of the regulation of tissue oxygenation, including the roles of the circulatory system, respiratory system, and blood, the carrier of oxygen within these components of the cardiorespiratory system. The respiratory system takes oxygen from the atmosphere and transports it by diffusion from the air in the alveoli to the blood flowing through the pulmonary capillaries. The cardiovascular system then moves the oxygenated blood from the heart to the microcirculation of the various organs by convection, where oxygen is released from hemoglobin in the red blood cells and moves to the parenchymal cells of each tissue by diffusion. Oxygen that has diffused into cells is then utilized in the mitochondria to produce adenosine triphosphate (ATP), the energy currency of all cells. The mitochondria are able to produce ATP until the oxygen tension or PO2 on the cell surface falls to a critical level of about 4–5 mm Hg. Thus, in order to meet the energetic needs of cells, it is important to maintain a continuous supply of oxygen to the mitochondria at or above the critical PO2 . In order to accomplish this desired outcome, the cardiorespiratory system, including the blood, must be capable of regulation to ensure survival of all tissues under a wide range of circumstances. The purpose of this presentation is to provide basic information about the operation and regulation of the cardiovascular and respiratory systems, as well as the properties of the blood and parenchymal cells, so that a fundamental understanding of the regulation of tissue oxygenation is achieved.
By presenting novel methods for the efficient preparation of fluorinated compounds and their application in pharmaceutical and agrochemical chemistry as well as medicine, this is a valuable source of information for all researchers in academia and industry!
Diet and Health examines the many complex issues concerning diet and its role in increasing or decreasing the risk of chronic disease. It proposes dietary recommendations for reducing the risk of the major diseases and causes of death today: atherosclerotic cardiovascular diseases (including heart attack and stroke), cancer, high blood pressure, obesity, osteoporosis, diabetes mellitus, liver disease, and dental caries.
Fluorine is best known for its role in the prevention of cavities and in improving oral and bone health however equally there are millions of people around the world suffering from dental fluorosis due to chronic exposure to high levels of fluoride in drinking water. This volume, written by leading researchers in this area, examines the positives and negatives of fluorine and its effects on humans for example fluoride-induced oxidative stress in the liver, effects of fluoride on insulin and preventing fluoride toxicity. Extremely useful for underpinning cross-disciplinary fluorine research, this book provides a fascinating insight for those with an interest in the health and nutritional sciences.
Most people associate fluoride with the practice of intentionally adding fluoride to public drinking water supplies for the prevention of tooth decay. However, fluoride can also enter public water systems from natural sources, including runoff from the weathering of fluoride-containing rocks and soils and leaching from soil into groundwater. Fluoride pollution from various industrial emissions can also contaminate water supplies. In a few areas of the United States fluoride concentrations in water are much higher than normal, mostly from natural sources. Fluoride is one of the drinking water contaminants regulated by the U.S. Environmental Protection Agency (EPA) because it can occur at these toxic levels. In 1986, the EPA established a maximum allowable concentration for fluoride in drinking water of 4 milligrams per liter, a guideline designed to prevent the public from being exposed to harmful levels of fluoride. Fluoride in Drinking Water reviews research on various health effects from exposure to fluoride, including studies conducted in the last 10 years.