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Highlighting 15 selected chiral structures, which represent candidate or marketed drugs, and their chemical syntheses, the authors acquaint the reader with the fascinating achievements of synthetic and medicinal chemistry. The book starts with an introduction treating the discovery and development of a new drug entity. Each of the 15 subsequent chapters presents one of the target structures and begins with a description of its biological profile as well as any known molecular mechanisms of action, underlining the importance of its structural and stereochemical features. This section is followed by detailed discussions of synthetic approaches to the chiral target structure, highlighting creative ideas, the scaling-up of laboratory methods and their replacement by efficient modern technologies for large-scale production. Nearly 60 synthetic reactions, most of them stereoselective, catalytic or biocatalytic, as well as chiral separating methodologies are included in the book. Vitomir Sunjic and Michael J. Parnham provide an invaluable source of information for scientists in academia and the pharmaceutical industry who are actively engaged in the interdisciplinary development of new drugs, as well as for advanced students in chemistry and related fields.
Chiral drugs. --- Drugs. --- Drugs -- Handbooks, manuals, etc. --- Pharmacology. --- Therapeutics. --- Chiral drugs --- Biochemical Phenomena --- Investigative Techniques --- Chemistry, Pharmaceutical --- Natural Science Disciplines --- Pharmacological Phenomena --- Chemicals and Drugs --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Disciplines and Occupations --- Pharmacology --- Chemical Phenomena --- Physiological Phenomena --- Phenomena and Processes --- Biological Science Disciplines --- Structure-Activity Relationship --- Chemistry --- Methods --- Drug Discovery --- Pharmaceutical Preparations --- Health & Biological Sciences --- Pharmacy, Therapeutics, & Pharmacology --- Enantiomeric drugs --- Enantiomerically pure drugs --- Medicine. --- Pharmaceutical technology. --- Organic chemistry. --- Chemical engineering. --- Medicinal chemistry. --- Medical biochemistry. --- Biomedicine. --- Pharmacology/Toxicology. --- Pharmaceutical Sciences/Technology. --- Organic Chemistry. --- Medicinal Chemistry. --- Medical Biochemistry. --- Industrial Chemistry/Chemical Engineering. --- Drugs --- Enantiomers --- Toxicology. --- Chemistry, Organic. --- Biochemistry. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Medical sciences --- Organic chemistry --- Pharmaceutical laboratory techniques --- Pharmaceutical laboratory technology --- Technology, Pharmaceutical --- Technology --- Chemicals --- Medicine --- Poisoning --- Poisons --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Composition --- Toxicology --- Medical biochemistry --- Pathobiochemistry --- Pathological biochemistry --- Biochemistry --- Pathology --- Chemistry, Medical and pharmaceutical --- Drug chemistry --- Medical chemistry --- Medicinal chemistry --- Pharmacochemistry --- Drug effects --- Medical pharmacology --- Chemotherapy --- Pharmacy --- Physiological effect
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This book connects a retrosynthetic or disconnection approach with synthetic methods in the preparation of target molecules from simple, achiral ones to complex, chiral structures in the optically pure form. Retrosynthetic considerations and asymmetric syntheses are presented as closely related topics, often in the same chapter, underlining the importance of retrosynthetic consideration of target molecules neglecting stereochemistry and equipping readers to overcome the difficulties they may encounter in the planning and experimental implementation of asymmetric syntheses. This approach prepares students in advanced organic chemistry courses, and in particular young scientists working at academic and industrial laboratories, for independently solving synthetic problems and creating proposals for the synthesis of complex structures.
Biochemistry --- Chemistry --- Physical Sciences & Mathematics --- Organic compounds --- Biochemical engineering. --- Chemistry, Organic. --- Synthesis. --- Organic chemistry --- Bio-process engineering --- Bioprocess engineering --- Chemistry, Organic --- Chemistry, Synthetic organic --- Organic synthesis (Chemistry) --- Synthetic organic chemistry --- Synthesis --- Biotechnology --- Chemical engineering --- Chemical engineering. --- Organic Chemistry. --- Biochemical Engineering. --- Industrial Chemistry/Chemical Engineering. --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Organic chemistry.
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Organic chemistry --- Human biochemistry --- Pharmacology. Therapy --- Pathological biochemistry --- Clinical chemistry --- Engineering sciences. Technology --- klinische chemie --- medische chemie --- organische chemie --- BIT (biochemische ingenieurstechnieken) --- farmacologie --- biochemie --- toxicologie --- ingenieurswetenschappen
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This book connects a retrosynthetic or disconnection approach with synthetic methods in the preparation of target molecules from simple, achiral ones to complex, chiral structures in the optically pure form. Retrosynthetic considerations and asymmetric syntheses are presented as closely related topics, often in the same chapter, underlining the importance of retrosynthetic consideration of target molecules neglecting stereochemistry and equipping readers to overcome the difficulties they may encounter in the planning and experimental implementation of asymmetric syntheses. This approach prepares students in advanced organic chemistry courses, and in particular young scientists working at academic and industrial laboratories, for independently solving synthetic problems and creating proposals for the synthesis of complex structures.
Organic chemistry --- Chemistry --- Engineering sciences. Technology --- Biochemical engineering --- Chemical technology --- organische chemie --- BIT (biochemische ingenieurstechnieken) --- bio-engineering --- biochemie --- chemie --- ingenieurswetenschappen --- chemische technologie --- moleculaire biologie
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Organic chemistry --- Human biochemistry --- Pharmacology. Therapy --- Pathological biochemistry --- Clinical chemistry --- Engineering sciences. Technology --- klinische chemie --- medische chemie --- organische chemie --- BIT (biochemische ingenieurstechnieken) --- farmacologie --- biochemie --- toxicologie --- ingenieurswetenschappen
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