Metabolic engineering is an emerging, interdisciplinary field with applications to the production of chemicals, fuels, materials, and pharmaceuticals. The field's novelty lies in the integration of the techniques of molecular biology with the tools of mathematical analysis, to help elucidate metabolic flux control and rational selection of targets for genetic modification. By providing a rigorous description of cell physiology, metabolic engineering also facilitates functional genomics. Its primary objective is to identify specific genetic and environmental manipulations that lead to enhancement of yield and productivity of biotechnological processes, or the overall improvement of cellular properties.Key elements of the book include pathway integration and consideration of metabolic flux as a fundamental determinant of cell physiology. Metabolic Engineering keeps mathematical complexity to a minimum ,and provides sidebars as additional background on various mathematical operations. Computational tools for pathway analysis are described, and a glossary of biological terms facilitates use of the book by a broad audience of biochemists, molecular biologists, microbiologists, and biochemical/biomedical engineers. Book InfoMassachusetts Inst. of Technology, Cambridge. Textbook for graduate courses offered in metabolic engineering. Focuses on metabolic pathways and pathway integration, and includes methods for iden tifying key enzymes in metabolic networks. Reviews metabolic biochemistry and discusses metabolic regulation at the gene, enzyme, operon, and cell levels. Modified outline format.