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Lipids in Photosynthesis: Essential and Regulatory Functions, provides an essential summary of an exciting decade of research on relationships between lipids and photosynthesis. The book brings together extensively cross-referenced and peer-reviewed chapters by prominent researchers. The topics covered include the structure, molecular organization and biosynthesis of fatty acids, glycerolipids and nonglycerolipids in plants, algae, lichens, mosses, and cyanobacteria, as well as in chloroplasts and mitochondria. Several chapters deal with the manipulation of the extent of unsaturation of fatty acids and the effects of such manipulation on photosynthesis and responses to various forms of stress. The final chapters focus on lipid trafficking, signaling and advanced analytical techniques. Ten years ago, Siegenthaler and Murata edited "Lipids in Photosynthesis: Structure, Function and Genetics," which became a classic in the field. "Lipids in Photosynthesis: Essential and Regulatory Functions," belongs, with its predecessor, in every plant and microbiological researcher's bookcase.
“Photosynthesis: Plastid Biology, Energy Conversion and Carbon Assimilation” was conceived as a comprehensive treatment touching on most of the processes important for photosynthesis. Most of the chapters provide a broad coverage that, it is hoped, will be accessible to advanced undergraduates, graduate students, and researchers looking to broaden their knowledge of photosynthesis. For biologists, biochemists, and biophysicists, this volume will provide quick background understanding for the breadth of issues in photosynthesis that are important in research and instructional settings. This volume will be of interest to advanced undergraduates in plant biology, and plant biochemistry and to graduate students and instructors wanting a single reference volume on the latest understanding of the critical components of photosynthesis.
This second edition volume expands on the previous edition with new and updated chapters that explore our current view on plastid evolution, structure, and function. The chapters in this book are organized into three parts and cover topics such as plastid evolution, plasticity, and functional and structural diversity; techniques used to visualize, fractionate, purify, and study primary plastids from plant materials, and secondary plastids; and methods to analyze plastids by integrated biology strategies based on genetics, genomics, proteomics, and lipidomics. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and authoritative, Plastids: Methods and Protocols, Second Edition is a valuable resource that will help students, engineers, and researchers further explore and understand this fascinating organelle. .
Plasmodesmata (PD) are plant-specific intercellular nanopores defined by specialised domains of the plasma membrane (PM) and the endoplasmic reticulum (ER), both of which contain unique proteins, and probably different lipid compositions than the surrounding bulk membranes. The PD membranes form concentric tubules with a minimal outer diameter of only 50 nm, and the central ER strand constricted to ~10-15 nm, representing one of the narrowest stable membrane tubules in nature. This unique membrane architecture poses many biophysical, structural and functional questions. PM continuity across PD raises the question as to how a locally confined membrane site is established and maintained at PD....
Lipids in Plants and Algae: From Fundamental Science to Industrial Applications, Volume 101 provides in-depth reviews on the most important aspects of the field. Topics in this volume encompass the most recent data about the physical properties of membrane lipids, lipid biosynthesis and metabolism (including glycerolipids, fatty acids, sterols, N-acylethanolamines, prostaglandins, phytoprostane), lipid storage, acyl flux, the dynamic and transport of glycerolipids, and the conversion of fatty acids into hydrocarbons. Lipid metabolism and lipidomics in plants and algae are one of the most challenging areas in biology, not only for fundamental research but also for the sustainable production of valuable molecules for green chemistry, including biofuel and health. - Includes sections on fatty acid synthesis, lipid storage and hydrocarbon production - Covers biophysics, biochemistry, metabolism and the bioengineering of plant and algae lipids - Provides readers with a comprehensive resource on lipid dynamics and fluxes in plants and algae