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This book is a printed edition of the Special Issue "Marine Polysaccharides" that was published in Marine Drugs
This book is a printed edition of the Special Issue "Marine Polysaccharides" that was published in Marine Drugs
This book is a printed edition of the Special Issue "Marine Polysaccharides" that was published in Marine Drugs
Marine organisms have been under research for the last decades as a source for different active compounds with various biological activities and application in agriculture, pharmacy, medicine, environment, and industries. Marine polysaccharides from these active compounds are used as antibacterial, antiviral, antioxidant, anti-inflammation, bioremediations, etc. During the last three decades, several important factors that control the production of phytoplankton polysaccharides have been identified such as chemical concentrations, temperature, light, etc. The current book includes 14 chapters contributed by experts around the world; the chapters are categorized into three sections: Marine Polysaccharides and Agriculture, Marine Polysaccharides and Biological Activities, and Marine Polysaccharides and Industries.
Seaweed Polysaccharides: Isolation, Biological, and Biomedical Applications examines the isolation and characterization of algal biopolymers, including a range of new biological and biomedical applications. In recent years, significant developments have been made in algae-based polymers (commonly called polysaccharides), and in biomedical applications such as drug delivery, wound dressings, and tissue engineering. Demand for algae-based polymers is increasing and represent a potential—very inexpensive—resource for these applications. The structure and chemical modification of algal polymers are covered, as well as the biological properties of these materials – including antithrombic, anti-inflammatory, anticoagulant, and antiviral aspects. Toxicity of algal biopolymers is also covered. Finally, the book introduces and explains real world applications of algal-based biopolymers in biomedical applications, including tissue engineering, drug delivery, and biosensors. This is the first book to cover the extraction techniques, biomedical applications, and the economic perspective of seaweed polysaccharides. It is an essential text for researchers and industry professionals looking to work with this renewable resource. - Provides comprehensive coverage of the research currently taking place in biomedical applications of algae biopolymers - Includes practical guidance on the isolation, extraction, and characterization of polysaccharides from sustainable marine sources - Covers the extraction techniques, biomedical applications, and economic outlook of seaweed polysaccharides
While the world is grappling with the growing problem of antibiotic resistance, marine organisms offer a promising solution with their diverse repertoire of bioactive compounds. This thematic volume explores the untapped potential of marine organisms in the fight against microbial threats. The focus of the 17 featured chapters lies in highlighting the vast array of antimicrobial agents that can be found within marine environments. The chapters provide in-depth knowledge about the latest discoveries, advancements and future needs in antimicrobial research. Readers will learn about astonishing discoveries of natural compounds with remarkable antimicrobial properties and sources. The list of agents covered in the book includes synthetic derivatives, bioactive polysaccharides and marine viruses. The book also includes chapters that cover various stages of the antimicrobial drug development process, providing an overview of recent antimicrobial agents derived from marine organisms, preclinical studies and the identification of patented drugs sourced from the ocean. Furthermore, the book sheds light on the diverse applications of these marine-derived compounds, spanning the fields of medicine, agriculture, and industry. Professionals in the fields of microbiology, marine biology, pharmaceutical sciences, and drug development will gain valuable insights into the use of marine organisms as a source of antimicrobial agents. Audience Medicinal chemists, professional researchers and scholars in microbiology, marine biology and related fields in life sciences.
The 3-volume set, Phytochemistry, covers a wide selection of topics in phytochemistry and provides a wealth of information on the fundamentals, new applications, methods and modern analytical techniques, state-of-the-art approaches, and computational techniques. With chapters from professional specialists in their fields from around the world, the volumes deliver a comprehensive coverage of phytochemistry. Phytochemistry is a multidisciplinary field, so this book will appeal to students in both upper-level students, faculty, researchers, and industry professionals in a number of fields, including biological science, biochemistry, pharmacy, food and medicinal chemistry, systematic botany and taxonomy, ethnobotany, conservation biology, plant genetic and metabolomics, evolutionary sciences, and plant pathology.
The bioactivity potential of marine polysaccharides has long been considered an underexploited aspect. These molecules found in seaweed, microalgae, bacteria, and animal fish (shellfish, mollusks, etc.) and the derived oligosaccharides need to be explored thoroughly with an interdisciplinary approach. They are an extraordinary source of chemical diversity, and the literature highlights many applicative fields, including the food industry, cosmetics, biomedicine, agriculture, environmental protection, wastewater management, etc. More recently, a new challenge has emerged: the exploitation of marine biomass as the source of sustainable energy to participate in the future replacement of fossil resources. Enzymatic Technologies for Marine Polysaccharides provides insight into the recent research developments of marine polysaccharides and their current and potential applications. The first section of the book explores the diversity of marine polysaccharides from various angles, including a description of the chemical complexity and current applications and new perspectives in food, pharmaceutical, cosmetics, and biomaterials offered by recent research. Efficient valorization of the marine polysaccharide biomass requires a rigorous analysis of the polysaccharides structure and their biological properties. The second section of the book concerns the development of extraction techniques and the improvement of the methods aimed at the characterization of their structure and function. Finally, the third and last section of the book articulates the enzymatic technologies from the discovery of novel enzymes to their production pipelines related to the fields of biorefinery, food, pharmaceutics, and other fine chemicals. Presents the latest research in marine oligosaccharides and polysaccharides Written by world-class researchers in marine enzyme technology Discusses the latest developments in extraction methods Presents a detailed overview of enzymatic routes for modification, production, and synthesis of marine oligosaccharides Contains extensive references at the end of each chapter to enhance further study
Access to genetic resources and Benefit Sharing (ABS) has been promoted under the Convention on Biological Diversity, with the aim of combining biodiversity conservation goals with economic development. However, as this book shows, since its inception in 1992, implementation has encountered multiple challenges and obstacles. This is particularly so in the marine environment, where interest in genetic resources for pharmaceuticals and nutrients has increased. This is partly because of the lack of clarity of terminology, but also because of the terms of the comprehensive law of the sea (UNCLOS) and transboundary issues of delineating ownership of marine resources. The author explains and compares relevant provisions and concepts under ABS and the law of the sea taking access, benefit sharing, monitoring, compliance, and dispute settlement into consideration. He also provides an overview of the implementation status of ABS-relevant measures in user states and identifies successful ABS transactions. A key unique feature of the book is to illustrate how biological databases can serve as the central scientific infrastructure to implement the global multilateral benefit sharing mechanism, proposed by the Nagoya Protocol. The research for this book was supported by both the Bremen International Graduate School for Marine Sciences (GLOMAR) and the International Research Training Group INTERCOAST – Integrated Coastal Zone and Shelf-Sea Research.
Handbook of AGRICULTURAL BIOTECHNOLOGY This book provides state-of-the-art information about recent advancements in the application of nanobiofungicides for effective management of post-harvest diseases and agricultural fungal diseases, including blights, mildews, molds, and rusts. The book details the formulation and standardization of nanobiofungicides, as well as their application in the management of biotic and abiotic stress. It provides relevant information on the isolation, characterization, purification, and structural characterization of active constituents, using spectroscopic techniques and explains the quarantine and regulatory issues that are associated with nanobiofungicides (derived from plants and other biogenic sources), as well as various regulatory bodies that manage the control of pesticides on agricultural products. Readers will learn about the application of nanobiofungicides when applied as a biocontrol agent against soil-borne and root-borne plant pathogens; the management of mycotoxin; the non-target effect of plant-based nanobiofungicides when applied in the greenhouse and field (such as rate of CO2 evolution, organic carbon content, enzymatic activity, acidic and alkaline phosphatase, dehydrogenases, urease, and protease); and the effect on soil microorganisms using different assay techniques. Furthermore, the book provides information on several plant materials that could serve as nanobiofungicdes, and explains the procedure involved in the characterization of plant-based nanobiofungicides (using TEM, SEM, XRD, EDX, UV, zeta potential, dynamic light-scattering). Finally, it offers a specific illustration on the application of microencapsulation and nanoformulation technology in the synthesis of plant-based nanobiofungicides. Audience The book is a useful resource for a diverse audience, including industrialists, food industry professionals, agriculturists, agricultural microbiologists, plant pathologists, botanists, microbiologists, biotechnologists, nanotechnologists, microbial biotechnologists, farmers, policymakers, and extension workers.