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""Preface Classification Since the origins of organic chemistry, lipids or fats were reduced to a mixture of solid greases (or tallow) and fluid oils (concept of H. Braconnot, 1815), but it was M.E. Chevreul who proposed in 1823 the first logical classification. Thus, he classified all lipids known at that time in two divisions and six kinds based on a physical property (distillation) and on a chemical property (saponification) as well as on the nature of the components of these lipids. Beside oils, greases, tallow, and waxes, Chevreul included in the concept of fat, the resins, the balsams, and volatile oils (or essential oils). One can thus say that in the light of the current data, the classification of the lipids by Chevreul is the model of that still accepted almost two centuries later. Although phosphorylated lipids were discovered in the mammalian brain and the hen egg in 1847 by the French chemist T.N. Gobley, for approximately a century after, chemists regarded lipids ("fats") as only the simple lipids made of fatty acids and glycerol. American chemists quickly integrated the discovery of many phospholipids and glycolipids by the German physician J.L. Thudichum (1874-1884) and proposed by 1920 a unified classification of "lipoids" distributed in three groups the simple lipoids (greases and waxes), the complex lipoids (phospholipids and glycolipids), and the parent lipoids (fatty acids, alcohols, sterols). In 1923, French chemist G. Bertrand provided the foundations of a new nomenclature in biological chemistry and proposed the term "lipides," including not only the traditional fats (glycerides) but also the "lipoids," molecules with "complex constitution," such as cholesterol esters or the cerebrosides"--"
""Preface Classification Since the origins of organic chemistry, lipids or fats were reduced to a mixture of solid greases (or tallow) and fluid oils (concept of H. Braconnot, 1815), but it was M.E. Chevreul who proposed in 1823 the first logical classification. Thus, he classified all lipids known at that time in two divisions and six kinds based on a physical property (distillation) and on a chemical property (saponification) as well as on the nature of the components of these lipids. Beside oils, greases, tallow, and waxes, Chevreul included in the concept of fat, the resins, the balsams, and volatile oils (or essential oils). One can thus say that in the light of the current data, the classification of the lipids by Chevreul is the model of that still accepted almost two centuries later. Although phosphorylated lipids were discovered in the mammalian brain and the hen egg in 1847 by the French chemist T.N. Gobley, for approximately a century after, chemists regarded lipids ("fats") as only the simple lipids made of fatty acids and glycerol. American chemists quickly integrated the discovery of many phospholipids and glycolipids by the German physician J.L. Thudichum (1874-1884) and proposed by 1920 a unified classification of "lipoids" distributed in three groups the simple lipoids (greases and waxes), the complex lipoids (phospholipids and glycolipids), and the parent lipoids (fatty acids, alcohols, sterols). In 1923, French chemist G. Bertrand provided the foundations of a new nomenclature in biological chemistry and proposed the term "lipides," including not only the traditional fats (glycerides) but also the "lipoids," molecules with "complex constitution," such as cholesterol esters or the cerebrosides"--"@en
""The first comprehensive book on lipidomics, this long-awaited work inventories the huge variety of lipid molecules present in all aspects of life. It uses sensitive analytical techniques, such as mass spectrometry, to characterize structures and simplify the association of names with their appropriate structures. Fulfilling the spirit of inclusiveness, it details structures from marine ecosystems, little known structures from bibliographic data, cultural references and context, biological functions, and possible pharmacological properties. The text is highly informative and educational while simultaneously being anecdotal and interesting to read"--..."
"Lipidomics is the study of the lipid molecules that are found in animal, plant, and bacterial cells. Recent research in this field has been driven by the development of sensitive new mass spectrometric tools and protocols, leading to the identification and quantification of thousands of lipids and their roles in metabolic processes.Designed for students of biochemistry, cell biology, pharmacology, nutrition, cosmetics, and medicine, Introduction to Lipidomics: From Bacteria to Man organizes the vast diversity of lipid molecules around simple analytical concepts, which are also understandable to students and readers from other scientific fields. It describes the structure, history, and function of lipids that play a key role in energy metabolism, cell signaling, and the formation of membranes of living cells. Each lipid section in the book contains a brief account of its discovery, biological functions, and possible pharmacological properties. An appendix is devoted to the chronology of lipid discoveries and associated techniques, supplemented by a bibliography of the major lipid groups and a review of lipid Web sites.The first comprehensive book on lipidomics, this long-awaited work inventories the huge variety of lipid molecules from animal, plant, and bacterial cells. It includes marine ecosystems, little-known structures from bibliographic data, cultural references, and context. A true text rather than just a catalog, it is highly informative and educational while simultaneously being anecdotal and interesting."
"Lipidomics is the study of the lipid molecules that are found in animal, plant, and bacterial cells. Recent research in this field has been driven by the development of sensitive new mass spectrometric tools and protocols, leading to the identification and quantification of thousands of lipids and their roles in metabolic processes. Designed for students of biochemistry, cell biology, pharmacology, nutrition, cosmetics, and medicine, Introduction to Lipidomics: From Bacteria to Man organizes the vast diversity of lipid molecules around simple analytical concepts, which are also understandable"@en
""Preface Classification Since the origins of organic chemistry, lipids or fats were reduced to a mixture of solid greases (or tallow) and fluid oils (concept of H. Braconnot, 1815), but it was M.E. Chevreul who proposed in 1823 the first logical classification. Thus, he classified all lipids known at that time in two divisions and six kinds based on a physical property (distillation) and on a chemical property (saponification) as well as on the nature of the components of these lipids. Beside oils, greases, tallow, and waxes, Chevreul included in the concept of fat, the resins, the balsams, and volatile oils (or essential oils). One can thus say that in the light of the current data, the classification of the lipids by Chevreul is the model of that still accepted almost two centuries later. Although phosphorylated lipids were discovered in the mammalian brain and the hen egg in 1847 by the French chemist T.N. Gobley, for approximately a century after, chemists regarded lipids ("fats") as only the simple lipids made of fatty acids and glycerol. American chemists quickly integrated the discovery of many phospholipids and glycolipids by the German physician J.L. Thudichum (1874-1884) and proposed by 1920 a unified classification of "lipoids" distributed in three groups the simple lipoids (greases and waxes), the complex lipoids (phospholipids and glycolipids), and the parent lipoids (fatty acids, alcohols, sterols). In 1923, French chemist G. Bertrand provided the foundations of a new nomenclature in biological chemistry and proposed the term "lipides," including not only the traditional fats (glycerides) but also the "lipoids," molecules with "complex constitution," such as cholesterol esters or the cerebrosides"--..."
""The first comprehensive book on lipidomics, this long-awaited work inventories the huge variety of lipid molecules present in all aspects of life. It uses sensitive analytical techniques, such as mass spectrometry, to characterize structures and simplify the association of names with their appropriate structures. Fulfilling the spirit of inclusiveness, it details structures from marine ecosystems, little known structures from bibliographic data, cultural references and context, biological functions, and possible pharmacological properties. The text is highly informative and educational while simultaneously being anecdotal and interesting to read"--"
""The first comprehensive book on lipidomics, this long-awaited work inventories the huge variety of lipid molecules present in all aspects of life. It uses sensitive analytical techniques, such as mass spectrometry, to characterize structures and simplify the association of names with their appropriate structures. Fulfilling the spirit of inclusiveness, it details structures from marine ecosystems, little known structures from bibliographic data, cultural references and context, biological functions, and possible pharmacological properties. The text is highly informative and educational while simultaneously being anecdotal and interesting to read"--"@en

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"Introduction to Lipidomics From Bacteria to Man"
"Introduction to Lipidomics"@en
"Introduction to lipidomics from bacteria to man"@en
"Introduction to lipidomics from bacteria to man"
"Les lipides dans le monde vivant : introduction à la lipidomique"
"Les lipides dans le monde vivant"
"Introduction to lipidomics : from bacteria to man"
"Introduction to lipidomics : from bacteria to man"@en

workExample

http://schema.org/workExample