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Sphingolipids are found in all eukaryotic and in some prokaryotic organisms and provide structure for cell membranes, lipoproteins, and other biological materials as well as participate in the regulation of cell growth, differentiation, and diverse cell functions, including cell-cell communication, cell-substratum interactions, and intracellular signal transduction. This volume presents methods used in studying enzymes of sphingolipid biosynthesis and turnover, including inhibitors of some of these enzymes, genetic approaches, and organic and enzymatic syntheses of sphingolipids and analogs. I

Cellular information transduction --- Cellular signal transduction --- Celsignaal-transductie --- Information transduction [Cellular ] --- Signal transduction [Cellular ] --- Transduction du signal cellulaire --- Cells. --- Sphingolipids. --- Enzymes. --- 577.15 --- 577.1 --- 57 --- 577.1 Chemical bases of life. Biochemistry and bio-organic chemistry generally --- Chemical bases of life. Biochemistry and bio-organic chemistry generally --- 577.15 Enzymes. Catalysts of biological reactions. Enzymology --- Enzymes. Catalysts of biological reactions. Enzymology --- Biocatalysts --- Molecular Mechanisms of Pharmacological Action --- Biological sciences in general --- Enzymology --- Analytical biochemistry --- Biochemistry --- Enzymes --- Health Sciences --- Physiology --- periodicals --- MDBIOCHE --- periodicals. --- Sphingolipids --- Metabolism --- Physiological effect --- Enzymologie. (Collection) --- Enzymologie. (Reeks) --- Lipids --- Sphingosine --- Organisms --- Cytology --- Biocatalyst --- Enzyme --- Cells --- Signal transduction, biological