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Force Microscopy
A complete examination of the uses of the atomic force microscope in biology and medicine This cutting-edge text, written by a team of leading experts, is the first detailed examination of the latest, most powerful scanning probe microscope, the atomic force microscope (AFM). Using the AFM, in combination with conventional tools and techniques, readers gain a profound understanding of the cell, subcellular organelles, and biomolecular structure and function. The text begins with three chapters describing the molecular machinery and mechanism of cell secretion and membrane fusion in cells, using approaches that combine AFM, electron microscopy, X-ray diffraction, photon correlation spectrosco...
Transfer Cells
Transfer cells are anatomically specialized cells optimized to support high levels of nutrient transport in plants. These cells trans-differentiate from existing cell types by developing extensive and localized wall ingrowth labyrinths to amplify plasma membrane surface area which in turn supports high densities of membrane transporters. Unsurprisingly, therefore, transfer cells are found at key anatomical sites for nutrient acquisition, distribution and exchange. Transfer cells are involved in delivery of nutrients between generations and in the development of reproductive organs and also facilitate the exchange of nutrients that characterize symbiotic associations. Transfer cells occur acr...
Biopolymer-Based Metal Nanoparticle Chemistry for Sustainable Applications
Biopolymers are becoming an increasingly important area of research as traditional chemical feedstocks run low and concerns about environmental impacts increase. One area of particular interest is their use for more sustainable development of metal nanoparticles. Biopolymer-Based Metal Nanoparticle Chemistry for Sustainability Applications, Volume 2 reviews key uses of biopolymers and biopolymer-based metal nanoparticles for a range of key sustainability-focused applications. After providing contextual examples of applications across the fields of food science, biomedicine and biochemistry, the book goes on to explore further sustainability-focused applications of Biopolymer-Based Metal Nanoparticles in such important areas as catalysis, environmental science, biosensing, and energy. Provides an overview of biopolymer-based metal nanoparticles for a wide range of applications Provides technological details on the synthesis of natural polymer-based metal nanoparticles Explores the role of biopolymer-based metal nanoparticles for more sustainable catalytic processes
Advances in Botanical Research
Lignin is a large phenolic polymer found in the cell wall of most land plants. Volume ABR104, provides in-depth reviews on the most recent discoveries in the field. It revisits the lignin paradigm and reviews the occurrence of unconventional lignin precursors that are derived from both the monolignol biosynthetic pathway, and from other polyphenolic biosynthetic pathways. The volume encompasses the most recent data about the regulation of lignin biosynthesis in a environment of polysaccharides, the importance of oxidases, the pivotal role of feruloylation and coumaroylation of the cell wall both in the lignified stem and in the cereal grain. The volume gives an important part to the transcriptional regulation at different scales. At last, vibrational and fluorescence microscopy methods to characterize the lignin-decorated cell wall as well the most recent bioengineering approaches towards lignin modification are reviewed. The paradigm of lignin polymer expanded to new discovered compounds The fluorescence and vibrational microscopy to detect lignin and phenolics Spatial and timed transcriptional regulation of lignification
Colloids for Nanobiotechnology
Colloids for Nanobiotechnology: Synthesis, Characterization and Potential Applications, Volume 17, offers a range of perspectives on emerging nano-inspired colloidal applications. With an emphasis on biomedical and environmental opportunities and challenges, the book outlines how nanotechnology is being used to increase the uses and impact of colloid science. Nanotechnology offers new horizons for colloidal research and synthesis routes that allow for the production of highly reproducible and defined materials. This book presents new characterization methods and a fundamental understanding of basic physicochemical, physical and chemical properties. Explores the use of nanotechnology in enhancing colloidal characterization techniques Explains how colloids are being used in a range of nanomedical applications Demonstrates how nanotechnology is being used to create more efficient colloidal synthesis techniques
Mechanical Signaling in Plants: From Perception to Consequences for Growth and Morphogenesis (Thigmomorphogenesis) and Ecological Significance
During the 1970s, renewed interest in plant mechanical signaling led to the discovery that plants subjected to mechanical stimulation develop shorter and thicker axes than undisturbed plants, a syndrome called thigmomorphogenesis. Currently, mechanosensing is being intensively studied because of its involvement in many physiological processes in plants and particularly in the control of plant morphogenesis. From an ecological point of view, the shaping of plant architecture has to be precisely organized in space to ensure light capture as well as mechanical stability. In natural environments terrestrial plants are subjected to mechanical stimulation mainly due to wind, but also due to precip...
Advanced Nanostructures for Environmental Health
Advanced Nanostructures for Environmental Health shows how advanced nanostructures are used to meet the most important challenges of our age. The book presents examples of how advanced nanostructures can detect and remove pollutants and other contaminant harmful to people’s health and provides examples of diagnosis tools based on advanced nanostructures. Treatment possibilities with the use of nanostructures, such as phototherapeutic applications, radiation based treatment methods, and drug delivery systems are also explored. Takes an interdisciplinary approach to the use of advanced nanostructures for applications, including both environmental science and biomedical perspectives Includes a range of case studies to show how nanomaterials are being used to solve real-life challenges Covered applications include the detection of pharmaceuticals, pesticides, (heavy) metals and metalloids, gas molecules, bacteria, viruses, and for water and air decontamination by advanced oxidation processes
Cadmium Toxicity and Tolerance in Plants
Cadmium Toxicity and Tolerance in Plants: From Physiology to Remediation presents a single research resource on the latest in cadmium toxicity and tolerance in plants. The book covers many important areas, including means of Cd reduction, from plant adaptation, including antioxidant defense, active excretion and chelation, to phytoextraction, rhizo filtration, phytodegradation, and much more. In addition, it explores important insights into the physiological and molecular mechanisms of Cd uptake and transport and presents options for improving resistance to Cd stresses. It will be ideal for both researchers and students working on cadmium pollution, plant responses and related fields of environmental contamination and toxicology. Includes all aspects of cadmium toxicity and tolerance in plants Provides a comprehensive overview of advances in cadmium toxicity, tolerance and adaptation in plants Elaborates on the advancement of eco-friendly techniques for cadmium remediation from soil and water Provides real-world, application focused techniques
Functional Imaging in living Plants - Cell Biology meets Physiology
The study of plant cell physiology is currently experiencing a profound transformation. Novel techniques allow dynamic in vivo imaging with subcellular resolution, covering a rapidly growing range of plant cell physiology. Several basic biological questions that have been inaccessible by the traditional combination of biochemical, physiological and cell biological approaches now see major progress. Instead of grinding up tissues, destroying their organisation, or describing cell- and tissue structure, without a measure for its function, novel imaging approaches can provide the critical link between localisation, function and dynamics. Thanks to a fast growing collection of available fluoresc...
Fiber Technology for Fiber-Reinforced Composites
Fiber Technology for Fiber-Reinforced Composites provides a detailed introduction to fiber reinforced composites, explaining the mechanics of fiber reinforced composites, along with information on the various fiber types, including manufacturing of fibers (starting from monomers and precursors), fiber spinning techniques, testing of fibers, and surface modification of fibers. As material technologies develop, composite materials are becoming more and more important in transportation, construction, electronics, sporting goods, the defense industry, and other areas of research. Many engineers working in industry and academics at universities are trying to manufacture composite materials using a limited number of fiber types with almost no information on fiber technology, fiber morphology, fiber properties, and fiber sizing agents. This book fills that gap in knowledge. Unique in that it focuses on a broad range of different fiber types used in composites manufacturing Contains contributions from leading experts working in both industry and academia Provides comprehensive coverage on both natural and nanofibers
