Mitochondrial Physiology and Vegetal Molecules: Therapeutic potential of natural compounds on mitochondrial health provides a comprehensive overview of mitochondrial physiology throughout the human life span, as well as the effect of molecules of vegetal origin on mitochondrial health. The editor has lined up a team of worldwide experts to cover the most exciting and high-impact advancements of research in this area. This book is structured into two parts that provide a balance of both foundational and applied content. Part I provides an overview of mitochondrial physiology including its structure, dynamics, biogenesis, membranes, DNA transcription, and translation in the mitochondria. Part I also covers other themes such as apoptosis. Part II then covers the effect of specific vegetable-derived molecules on mitochondrial health, including anthocyanins, caffeine, cannabinoids, carnosic and rosmarinic acids, citrus flavonoids, polyphenols, pterostilbene, resveratrol, and sulforaphane, among others. Mitochondrial Physiology and Vegetal Molecules: Therapeutic potential of natural compounds on mitochondrial health is a complete resource for researchers in this exciting field. Its comprehensive coverage makes it particularly interesting to bioscience researchers willing to understand the foundations of mitochondrial physiology throughout the human life span. Clinician researchers, MDs, nutritionists, pharmacologists, and sports scientists may be attracted to the detailed information on the health effects of vegetal origin molecules on the organelle.

Leading researchers are specially invited to provide a complete understanding of a key topic within the multidisciplinary fields of physiology, biochemistry and pharmacology. In a form immediately useful to scientists, this periodical aims to filter, highlight and review the latest developments in these rapidly advancing fields.

Non-canonical Autophagy: Mechanisms and Pathophysiological Implications outlines the differences between 'canonical' and 'non-canonical' forms of autophagy, highlighting the discoveries concerning the molecular mechanisms underlying these unconventional forms of autophagy and the advancements in pathophysiological features of 'non-canonical' autophagy. The book discusses all forms of 'non-canonical' autophagy and the complexity of autophagy-dependent cell death. Readers will gain a better understanding of mechanisms underlying 'non-canonical' autophagy so that they can interpret the biological effects of autophagy correctly and identify reliable, novel and effective treatment strategies.

For the past decade or more, much of cell biology research has been focused on determining the key molecules involved in different cellular processes, an analytical problem that has been amenable to biochemical and genetic approaches. Now, we face an integrative problem of understanding how all of these molecules work together to produce living cells, a challenge that requires using quantitative approaches to model the complex interactions within a cell, and testing those models with careful quantitative measurements. This book is an introductory overview of the various approaches, methods, techniques, and models employed in quantitative cell biology, which are reviewed in greater detail in the other volumes in this e-book series. Particular emphasis is placed on the goals and purpose of quantitative analysis and modeling, and the special challenges that cell biology holds for understanding life at the physical level.

The book Heat Shock Proteins in Cancer Therapeutics provides the most comprehensive review on contemporary knowledge on the role of HSP in various types of cancer therapeutics. Using an integrative approach, the contributors provide a synopsis of the most current updates on the state of HSP in cancer therapeutics. The heat shock response pathway is a highly conserved cellular process. Heat shock factors are a master transcriptional regulator responsible for expression of several important heat shock proteins, which can effectively protect critical client proteins from misfolding and degradation, thus maintaining intracellular integrity under stressed conditions. Recent studies have demonstrated the direct connections between heat shock response players and tumor cell survival, validating heat shock response players as novel molecular targets in anticancer treatment. Although many hurdles in clinical application still need to be effectively addressed, such as undesirable drug toxicity and off target effects; narrow therapeutic window; poor PK/PD profiles, etc. Recent reports on synergistic drug combination, advanced prodrug design, smart nanoparticle packaging, and RNA aptamer selection offer promising solutions to overcome these challenges. Future advancements in this fast-growing area can potentially lead to the next generation of cancer therapeutics. Key basic and clinical research laboratories from major universities, academic medical hospitals, biotechnology and pharmaceutical laboratories around the world have contributed chapters that review present research activity and importantly project the field into the future. The book is a must read for graduate students. medical students, basic science researchers and postdoctoral scholars in the fields of Cancer Biology, Oncology, Translational Medicine, Clinical Research, Biotechnology, Cell & Molecular Medicine, Pharmaceutical Scientists and Researchers involved in Drug Discovery.

Plant Tissue Culture: Techniques and Experiments, Fourth Edition, builds on the classroom tested, audience proven manual that has guided users through successful plant culturing for almost 30 years. The book's experiments demonstrate major concepts and can be conducted with a variety of plant materials readily available throughout the year. This fully updated edition describes the principles of the newest technologies, including CRISPR/Cas9 gene editing and RNAi technology with plant cell and tissue cultures and their applications. Bridging the gap between theory and practice, this book contains detailed methodology supported by comprehensive illustrations, giving users a diverse learning experience for both university students and plant scientists.

This is the first book about the "Kenzan" method for scaffold-free biofabrication, which does not rely on biomaterials as scaffolds to ensure correct multicellular spheroid positioning for building three dimensional construct only made from cells. The book explains the basic principles and concepts of the microneedle-based ("Kenzan") method of building surgically-implantable tissue constructs using robotic cell spheroid-based three-dimensional bioprinting, a novel technology that opens up unique opportunities for the bioengineering of tissues and organs. First book on the novel Kenzan method of tissue engineering; Explains basic concepts and applications for organ regeneration modeling; Introduces a unique robotic system for scaffold-free cell construction.

This book presents the latest knowledge on both the physiological and the microbiological aspects of wound healing. Fresh insights into the process of cutaneous wound healing are described, which involves tissue regeneration and repair processes consisting of a sequence of molecular and cellular events. The management of infected wounds is then discussed in detail, covering the roles of traditional medicine practices, novel anti-infective formulations, non-antibiotic approaches, and probiotic bacteria. A section devoted to the interdisciplinary approach to wound care addresses topics including in vitro and in vivo research models, the development of advanced wound dressings, tissue engineering, and the potential applications of bioscaffolds. The authors are all leading researchers in the field. This book is an attempt to showcase current research status and future directions in the area of wound-healing research, which must be of interest to a large group of readers and researchers interested in this field.

This book emphasizes and presents the latest information on eco-physiology and biochemistry of cyanobacteria with special emphasis on their biodiversity, molecular mechanisms of some important biological processes and survival mechanisms under myriad of environmental conditions as well as bioremediation. Cyanobacteria are the most dominant prokaryotic floras on the Earth's surface, and are of great importance in terms of ecological, economical and evolutionary perspectives. They are oldest groups of photosynthetic autotrophs, which create oxygenic atmosphere for the development and sustainability of ecosystems with different life forms. The book presents an integrative approach to their possible biotechnological application in the field of bio-energy and various aspects of biochemistry, biophysics and structural biology of photosynthesis. The various chapters describe the different applications of cyanobacteria as bio-energy sources and in phycoremediation. The contents incorporated in this book can be used as a textbook by undergraduate and post-graduate students, teachers, and researchers in the most interesting fields of physicochemical ecology and biochemistry of cyanobacteria.

This textbook is clearly structured with fourteen richly illustrated chapters and practical examples for easy understanding and direct implementation. The methods and findings developed in the authors' group are presented in detailed, revised chapters. Readers will find valuable updates on the molecular basis of biotechnological processes, secondary metabolite production and genetic engineering. In addition, the basic principles of important biotechnologies, as well as examples of specially designed crops that deliver improved productivity under stress conditions, are presented. This second edition sets the direction for future research on the basic aspects of plant tissue culture and its applications in the fields of secondary metabolite production and genetic engineering. It provides both general and specific information for students, teachers, academic researchers and industrial teams who are interested in new developments in plant tissue culture and its applications.

Cell Biology Assays: Essential methods presents a comprehensive overview of protocols essential for researchers.. Chapters provide clear explanations, step-by-step instruction, tips and potential pitfalls. The important steps and results are illustrated for further ease of use. This text enables researchers at various career levels a plethera of insight into technologies and model systems in biological problem solving.

Provids researchers with solutions in lab enviornments
Features an array of essential methods including endocytic pathways, membrances, mitochondira, and vitro motility
Information on a plethora of technologies needed to tackle complex problems

This book provides a comprehensive overview of the latest research on the molecular players in the tumor microenvironment, including Cathepsin D, galectins, iron, oxygen, Phospholipase D1, leptin, extracellular vesicles, and more. Taken alongside its companion volumes, these books update us on what we know about the tumor microenvironment as well as future directions. Tumor Microenvironment: Molecular Players - Part A is essential reading for advanced cell biology and cancer biology students as well as researchers seeking an update on research in the tumor microenvironment.

This new edition provides an update on the molecular mechanisms that regulate spermatogenesis. In addition to the rodent as a study model, chapters also include research on studies in humans. It includes the latest approaches of studying spermatogenesis, such as the use of bioinformatics, molecular modeling and others which are not commonly found in published materials. It also reviews the latest developments in the field, such as studies on the role of regulatory RNAs on spermatogenesis. Due to the declining fertility rate among men, a brand new chapter highlights the impact of environmental toxicants on spermatogenesis.

The book Heat Shock Proteins in Inflammatory Diseases provides the most comprehensive highlight and insight of the expression, function and therapeutic activity of Heat Shock Proteins in inflammatory diseases including sepsis, psoriasis, neurodegenerative diseases, cancers, viral infection and autoimmune rheumatic diseases. Using an integrative approach, the contributors provide a synopsis of the most current updates on the state of HSP in inflammatory diseases. Key basic and clinical research laboratories from major universities, academic medical hospitals, biotechnology and pharmaceutical laboratories around the world have contributed chapters that review present research activity and importantly project the field into the future. The book is a must read for graduate students. medical students, basic science researchers and postdoctoral scholars in the fields of Cancer Biology, Oncology, Translational Medicine, Clinical Research, Biotechnology, Cell & Molecular Medicine, Pharmaceutical Scientists and Researchers involved in Drug Discovery.

This book explains about amino acids (AAs) which are not only building blocks of protein, but are also signaling molecules as well as regulators of gene expression and the protein phosphorylation cascade. Additionally, AAs are key precursors for syntheses of hormones and low-molecular-weight nitrogenous substances with each having enormous biological importance. For example, physiological concentrations of AA metabolites (e.g., nitric oxide, polyamines, glutathione, taurine, thyroid hormones, and serotonin) are required for cell functions. Growing evidence shows that humans and animals have dietary requirements for all proteinogenic AAs. Mammals, birds, and fish also have species- and age-dependent needs for some AA-related substances. However, elevated levels of other products (e.g., ammonia, homocysteine, H2S, and asymmetric dimethylarginine) are pathogenic factors for neurological disorders, oxidative stress, and cardiovascular disease. Thus, optimal amounts of AAs and their ratios in diets and circulation are crucial for whole-body homeostasis and health. Adequate provision of one or a mixture of functional AAs or metabolites may be beneficial for ameliorating health problems at various stages of the life cycle (e.g., fetal growth restriction, neonatal morbidity and mortality, weaning-associated intestinal dysfunction and wasting syndrome, obesity, diabetes, cardiovascular disease, the metabolic syndrome, and infertility). Dietary supplementation of these nutrients can also optimize the efficiency of metabolic transformations to enhance muscle growth, milk production, and athletic performance, while preventing excess fat deposition and reducing adiposity. Therefore, functional AAs hold great promise in improving the growth, health, and well-being of individuals.