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Inositol metabolism has special importance in plant biology.
`The heterogeneity of topics ... is very ambitious, and the result is, overall, successful because of the high quality of the individual contributions ... highly recommended.' -American Scientist, from a review of a previous volume Volume 26 examines the emerging areas of signal transduction based on myoinositol phosphates and Ca2+ while focusing on plant and animal responses. Chapters explore synthesis, separation, and identification of different inositol phosphates.
Recent Advances in Phytochemisty, Volume 8: Metabolism and Regulation of Secondary Plant Products covers papers from the 13th annual meeting of the Phytochemical Society of North America held on August 8-10, 1973, at the Asilomar State Park and Conference Center in Pacific Grove, California. The book discusses phenylalanine ammonia-lyase and phenolic metabolism; enzymology and regulation of flavonoid and lignin biosynthesis in plants and plant cell suspension cultures; and possible multienzyme complexes regulating the formation of C6-C3 phelonic compounds and lignins in higher plants. The text also describes photoregulation of phenylpropanoid and styrylpyrone biosynthesis in Polyporis hispidus; the nonprotein amino acids from plants; and the role of proteinase inhibitors in natural plant protection. The regulatory control mechanisms in alkaloid biosynthesis; the biochemistry of myoinositol in plants; and unusual fatty acids in plants are also considered. Phytochemists and people involved in the study of pomology will find the book useful.
This volume describes the current status of the biology of inositols and phosphoinositides with an emphasis on the development in the area since the publication of volume 26 in 1996 in this series. The progress made in dissecting the genetics, structure and evolution of the seminal enzyme for synthesis of inositol in the biological system has driven the understanding of the enzyme forward. With the current genomic and proteomic tools in place the new role of inositols, inositol phosphates and phosphoinositides in cell signaling or stress response has been explored. These advances are described in this volume and are expected to give new insights into the functional implications of inositol compounds across evolutionary diverse species.
The Chilton Conference on Inositol and Phosphoinositides, held on January 9-11, 1984 at Southwestern Medical School, University of Texas Health Science Center, Dallas, Texas, was the third in a series of conferences on cyclitols and phosphoinositides. The first took place in 1968 in New York [Ann. New York Acad. Sci. (1969), 765,508-819] and the second was held in 1977 in East Lansing, Michigan [eyclitols and Phosphoinositides, Wells, W. W. and Eisenberg, F. , eds. , (1978) Academic press, New York, pp. 1-607. ] In the interim since the previous conference, not only has the pace of research in the field accelerated markedly, but the physiological importance of phosphoinositide metabolism has become apparent to an increasing number of investigators from diverse fields in the life sciences. Thus it seemed to us timely for both recent and established workers in this area, as well as others whose interests impinged on it, to meet in order to disseminate new information, to review, and perhaps arrive at, a consensus of our current understanding of the role of inositol and phosphoinositides, and to establish new directions for research for the next few years. The expansion of the field since the last meeting made it mandatory to restrict the scope of the topics covered at the conference, primarily to aspects dealing with mammalian systems. We sincerely regretted the exclusion of recent research on cyclitols and phosphoinositides in microbes and plants and hope that these areas will be included in future conferences.
Occurrence and distribution of storage carbohydrates in vascular plants; Sucrose metabolism; Pathways and mechanisms associated with carbohydrate translocation in plants; Physiology and metabolism of sucrosyl-fructans; Biosynthesis of oligosaccharides in vascular plants; Physiology and metabolism of cyclitols; Physiology and metabolism of alditols; Biochemistry and physiology of synthesis of starch in leaves: autotrophic and heterotrophic chloroplasts; Degradation of starch in chloroplasts: a buffer to sucrose metabolism; Metabolism of reserve starch; Synthesis and degradation of extracellular storage polysaccharides.
Inositol metabolism has special importance in plant biology.
A collection of papers that comprehensively describe the major areas of research on lipid metabolism of plants. State-of-the-art knowledge about research on fatty acid and glycerolipid biosynthesis, isoprenoid metabolism, membrane structure and organization, lipid oxidation and degradation, lipids as intracellular and extracellular messengers, lipids and environment, oil seeds and gene technology is reviewed. The different topics covered show that modern tools of plant cellular and molecular biology, as well as molecular genetics, have been recently used to characterize several key enzymes of plant lipid metabolism (in particular, desaturases, thioesterases, fatty acid synthetase) and to isolate corresponding cDNAs and genomic clones, allowing the use of genetic engineering methods to modify the composition of membranes or storage lipids. These findings open fascinating perspectives, both for establishing the roles of lipids in membrane function and intracellular signalling and for adapting the composition of seed oil to the industrial needs. This book will be a good reference source for research scientists, advanced students and industrialists wishing to follow the considerable progress made in recent years on plant lipid metabolism and to envision the new opportunities offered by genetic engineering for the development of novel oil seeds.