Asymmetric Organic Synthesis With Enzymes Covers All Important Reactions Including CC Coupling Reactions Oxidation Reactions And Many More.DUBLIN, Ireland -- Research and Markets (http://www.researchandmarkets.com/reports/c82996) has announced the addition of "Asymmetric Organic Synthesis with Enzymes" to their offering. Perfect for biochemists, synthetic and organic chemists, this book covers all important reactions, including C-C C-C Carbon-Carbon C-C Carotid-Cavernous (relating to the carotid artery and the sinuses) coupling reactions, oxidation reactions and many more. Divided into two parts, the first section on methodology presents new innovative methods for enzymatic catalysis catalysis Modification (usually acceleration) of a chemical reaction rate by addition of a catalyst, which combines with the reactants but is ultimately regenerated so that its amount remains unchanged and the chemical equilibrium of the conditions of the reaction is not optimization, including such new trends as medium engineering, directed evolution and computer-aided prediction of enantioselectivity. The second and main section deals with applications to synthesis, showing important reaction types and their applications. Only those reactions with very high selectivity are presented, allowing readers to improve their own reaction yields. Authors bio: Vicente Gotor assumed his current position as Professor of Organic Chemistry at the University of Oviedo in 1982. His research fields include the areas of Heterocyclic heterocyclic /het·ero·cyc·lic/ (het?er-o-sik´lik) having a closed chain or ring formation including atoms of different elements. het·er·o·cy·clic adj. and Bioorganic Chemistry. Specific areas of his research interest are enzymatic amidation reactions with hydrolases, enzymatic chemoselective transformations on natural products, biotransformations with oxynitrilases and oxidoreductases, and chiral chi·ral adj. Of or relating to the structural characteristic of a molecule that makes it impossible to superimpose it on its mirror image. chi·ral recognition with azamacrocycles. He was Vice-chancellor of Research of Oviedo University for four years until June 2000. At present, he is the leader of Bioorganic bi·o·or·gan·ic adj. Of or having to do with organic compounds and their role in biochemical processes. group in the Chemistry Faculty of Oviedo University and Head of Department of Organic and Inorganic Chemistry inorganic chemistry, the study of all the elements and their compounds with the exception of carbon and its compounds, which fall under the category of organic chemistry. . He has published more of 240 papers, is director of 40 Doctoral Thesis and co-author of 10 patents. Ignacio Alfonso completed his PhD in 1999 at the University of Oviedo, obtaining the PhD extraordinary award. During his doctoral studies, he spent a short period of time at the University of Strasbourg The University of Strasbourg in Strasbourg, Alsace, France, was divided in the 1970s into three separate institutions with a total of approximately 48,500 students as of 2007. working under the supervision of Profs. Bernard Dietrich and Nobel Prize Nobel Prize, award given for outstanding achievement in physics, chemistry, physiology or medicine, peace, or literature. The awards were established by the will of Alfred Nobel, who left a fund to provide annual prizes in the five areas listed above. Winner Jean-Marie Lehn. After finishing his PhD, he moved to The Scripps Research Institute in La Jolla, California, as a postdoctoral fellow with Prof. M. Reza Ghadiri. Since 2004, he is researcher at the University Jaume I in Castellon, Spain. His research interests are bioorganic and supramolecular chemistry, biosensing, molecular recognition as well as natural and biomimetic catalytic systems. Eduardo Garcia-Urdiales graduated in Chemistry in 1996 at the University of Oviedo. He joined Prof. Gotor's group where he performed his PhD. After having finished it in 2001, he moved to Solvay Pharmaceuticals GmbH in Hannover (Germany) as a postdoctoral fellow in the Computer Aided Drug Design unit, where he stayed for two years (2001-2003). Then, he moved back to Oviedo and since 2005 he is working at the Russell Group at EMBL EMBL European Molecular Biology Laboratory EMBL Eniwetok Marine Biological Laboratory Heidelberg (Germany). His research interests are focussed on the study of protein-ligand interactions by means of computational methods. METHODOLOGY Medium Engineering: Directed evolution: The search for new enzymes: SYNTHETIC APPLICATIONS Dynamic Kinetic Resolutions: Deracemization and Enantioconvergent Processes: Transesterification and hydrolysis hydrolysis (hīdrŏl`ĭsĭs), chemical reaction of a compound with water, usually resulting in the formation of one or more new compounds. of carboxylic acid derivatives, alcohols and epoxides Aminolysis and ammonolysis of carboxylic acid derivatives: Reduction Reactions: Oxidation Reactions: Making and breaking C-C bonds: For more information visit http://www.researchandmarkets.com/reports/c82996 |
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