Molekylærbiologi

Transcription and Translation in Health and Disease provides a detailed overview of the regulators underlying transcription and translation in relation to a variety of human diseases and disorders. Beginning with an introduction into the current perspectives relating to these processes in human disease, the book expands to focus on specific mechanisms underlying conditions such as arthritis, cancer, neurological disorders, diabetes and cardiovascular disease. This book considers RNA processing and related mechanisms in eukaryotes including RNA splicing, RNA binding proteins, RNA interference, microRNAs, RNA editing, transcription factors, RNAi screening, CRISPR activation, CRISPR-Cas9 interference, and post-translational modifications. It provides a structured and detailed overview of the various regulators underlying molecular processes and their impact on health and disease, equipping readers with the necessary knowledge for further investigation in the areas of treatment and therapeutic intervention.--Publisher's website.

Drawing on contributions from more than thirty scholars and experts in the field, this book examines the role of business as an enabler, as an inhibitor, and ultimately as a co-actor in global sustainability transformations expected over the next few decades.The Role of Business in Global Sustainability Transformations employs several theoretical perspectives and provides abundant examples and cases to discuss a variety of emerging concepts, phenomena, and trends shaping business sustainability. Weaving through the chapters, the editors present core tensions and sources of inertia towards transformative change, and acknowledge that envisioning multiple solutions and pathways are possible and desirable. They advocate for the need to align visions, actions and time horizons between policy, society and business in addressing the interlinked socio-ecological challenges that our society currently faces.This book will be an important resource for scholars and professionals working in the field of sustainability and sustainable business, and a vital educational text for students interested in this discipline.

Polymer Electrolytes and their Composites for Energy Storage/Conversion Devices presents a state-of-the-art overview of the research and development in the use of polymers as electrolyte materials for various applications. It covers types of polymer electrolytes, ion dynamics, and the role of dielectric parameters and a review of applications. Divided into two parts, the first part of the book focuses on the types of polymer electrolytes, ion dynamics, and the role of dielectric parameters, while the second part provides a critical review of applications based on polymer electrolytes and their composites. This book:Presents the fundamentals of polymer composites for energy storage/conversion devicesExplores the ion dynamics and dielectric properties role in polymer electrolytesProvides detailed preparation methods and important characterization techniques to evaluate the electrolyte potentialReviews analysis of current updates in polymer electrolytesIncludes various applications in supercapacitor, battery, fuel cell, and electrochromic windowsThe book is aimed at researchers and graduate students in physics, materials science, chemistry, materials engineering, energy storage, engineering physics, and industry.

This volume explores and explains the vast uses and benefits of algae as food, feed, and fuel. It covers the most advanced applications of algae in the food and feed industries and for environmental sustainability.

This book introduces the innovative and emerging microbial technologies for the treatment, recycling and management of industrial, domestic and municipal water and other wastewater in an environment-friendly and cost-effective manner.

The book is designed to highlight the utility of supramolecular systems in diverse areas such as sensing of ionic and molecular analytes, aggregation, artificial molecular machines, biology, and medicine. The synthetic chemistry of a diverse set of supramolecules encompassing various supramolecular interactions involved in driving macrocyclic architectures is discussed. Attempts have been made to cover unique features of macrocycles viz. control over shape, size, and valency along with supramolecular interactions, which direct complex supramolecular systems. The book also provides a discussion on the similarity between macrocyclic host-guest systems and biomolecules, which lay the foundation of building modern artificial molecular motors and switches like protein machines for application in diverse areas. The authors hope that the book will appeal to a wider audience of students and researchers in academics and/or industries.

Mathematical Approaches to Molecular Structural Biology offers a comprehensive overview of the mathematical foundations behind the study of biomolecular structure. Initial chapters provide an introduction to the mathematics associated with the study of molecular structure, such as vector spaces and matrices, linear systems, matrix decomposition, vector calculus, probability and statistics. The book then moves on to more advanced areas of molecular structural biology based on the mathematical concepts discussed in earlier chapters. Here, key methods such as X-ray crystallography and cryo-electron microscopy are explored, in addition to biomolecular structure dynamics within the context of mathematics and physics. This book equips readers with an understanding of the fundamental principles behind structural biology, providing researchers with a strong groundwork for further investigation in both this and related fields.

Computational Intelligence in Protein-Ligand Interaction Analysis presents computational techniques for predicting protein-ligand interactions, recognizing protein interaction sites, and identifying protein drug targets. The book emphasizes novel approaches to protein-ligand interactions, including machine learning and deep learning, presenting a state-of-the-art suite of skills for researchers. The volume represents a resource for scientists, detailing the fundamentals of computational methods, showing how to use computational algorithms to study protein interaction data, and giving scientific explanations for biological data through computational intelligence. Fourteen chapters offer a comprehensive guide to protein interaction data and computational intelligence methods for protein-ligand interactions.

Transcriptome Profiling: Progress and Prospects assists readers in assessing and interpreting a large number of genes, up to and including an entire genome. It provides key insights into the latest tools and techniques used in transcriptomics and its relevant topics which can reveal a global snapshot of the complete RNA component of a cell at a given time. This snapshot, in turn, enables the distinction between different cell types, different disease states, and different time points during development. Transcriptome analysis has been a key area of biological inquiry for decades. The next-generation sequencing technologies have revolutionized transcriptomics by providing opportunities for multidimensional examinations of cellular transcriptomes in which high-throughput expression data are obtained at a single-base resolution. Transcriptome analysis has evolved from the detection of single RNA molecules to large-scale gene expression profiling and genome annotation initiatives. Written by a team of global experts, key topics in Transcriptome Profiling include transcriptome characterization, expression analysis of transcripts, transcriptome and gene regulation, transcriptome profiling and human health, medicinal plants transcriptomics, transcriptomics and genetic engineering, transcriptomics in agriculture, and phylotranscriptomics.

The transformation of polysaccharides into valuable compounds for health and industry requires the careful application of enzyme protocols and controlled biocatalysis. Polysaccharide-Degrading Biocatalysts provides a thorough grounding in these biocatalytic processes and their growing role in the depolymerization of polysaccharides, empowering researchers to discover and develop new enzyme-based approaches across pharmaceuticals, fuels, and food engineering. Here, over a dozen leading experts offer a close examination of structural polysaccharides, genetic modification of polysaccharides, polysaccharide degradation routes, pretreatments for enzymatic hydrolysis, hemicellulose-degrading enzymes, biomass valorization processes, oligosaccharide production, and enzyme immobilization for the hydrolysis of polysaccharides, among other topics and related research protocols. A final chapter considers perspectives and challenges in an evolving, carbohydrate-based economy.

"From the scientists and chefs who discovered this new culinary science, and the company that created and maintains the enormous database, here is a fabulous reference to 10,000 food pairings for use in both professional and home kitchens."--

This book provides a comprehensive reference guide to plant-derived antioxidants, their beneficial effects, mechanisms of action, and role in disease prevention and improving general health (anti-ageing effect). The content is divided into three main parts, the first of which covers various antioxidants (such as polyphenols, carotenoids, tocopherols, tocotrienols, glutathione, ascorbic acid), their origins, plant biochemistry and industrial utilization. In turn, the book's second, main part focuses on antioxidants' beneficial health effects, explains biochemical fundamentals such as the free radical theory and oxidative stress, and discusses antioxidants' role in e.g. cancer, cardiovascular diseases, inflammation, degenerative diseases and ageing. The third part reviews general laboratory methods for antioxidant screening, preservation and determination.   Written by an international team of experts, this highly interdisciplinary book will benefit a broad range of health professionals and researchers working in biochemistry, biotechnology, nutrition, plant science and food chemistry. It offers an indispensable, up-to-date guide for anyone interested in antioxidants and the role of a plant-based diet in disease prevention and control

This unique book covers the molecular aspects of plant stress and the various industrial applications. Chapters cover many important topics in the biology of plant stress, including morphological and physiological changes of plants due to accumulation of pollutants.

The brain is crucial for the regulation of whole-body metabolism and behavior. The pancreas-derived hormone insulin modulates brain function and affects energy metabolism as well as cognition. This is partially achieved by modulating several types of brain cell populations including those relevant to satiety and reward. Importantly, brains of Alzheimer's disease patients exhibit a signature of brain insulin resistance with perturbed brain metabolism. This book will cover the basics of insulin signaling in the brain and will describe concepts of insulin resistance, a feature of type 2 diabetes. Moreover insulin's effect on cognitive function will be pointed out and the association between brain insulin resistance and neurodegenerative diseases discussed. Additionally, potential behavioral and pharmacological concepts which can affect brain insulin signaling will be summarized.Key Features:Summarizes insulin and the closely related IGF-1 receptor signaling Depicts concepts of insulin resistance Highlights the importance of conserved brain insulin signaling for brain function, metabolism, and behaviorDescribes potential behavioral and pharmacological approaches to support brain insulin signaling

This book presents recent scientific investigations in microbial ecology and systematics. Current research on microorganisms is presented as a perfect book for studies on "Microbial Systematics". This book will serve as an important resource for practising research and review for the scientific community.

Traditional studies in mycology mainly deal with damage caused by fungi, for instance, diseases of plants, animal ailments, air-borne pathogens, decomposition of wood and production of mycotoxins in food. Applied mycology focuses on the fermentation of foods (flours, bakery products, cheese and others) and production of fermented products (wine, beer and spirit). Further value-added approaches show the significance of fungi in the production of bioactive metabolites and pharmaceuticals used in the treatment of human diseases, including cancer, and plant diseases (e.g. pest control). Due to a dependence on fossil resources, production of bio-renewable merchandise gained importance and fungi serve as potential biological agents in sustaining global economy. Recent developments in mycology revealed their significance in the fields of advanced research, in particular building materials, packaging resources, electronic devises and leather-like goods. In addition, fungi possess several qualities to degrade non-biodegradable compounds in the ecosystem and assist in sustainable waste bioremediation.This book covers the current biotechnological advances and bio-prospect potential of fungi. Fungal biopolymers possess various applications, including prebiotics, therapeutics, immunoceuticals, drug-discovery and drug-delivery. Fungal bioactive metabolites have several implications beyond antibiotics, such as volatiles, biofuels, nematicides and pigments. They also serve as prospective tools in the production of nanoparticles of medicinal, nutritional and industrial significance. In view of environmental protection, fungal activity and products aid in bioremediation via degradation of xenobiotics and solid wastes. Fungi can produce agriculturally compatible metabolites to enhance plant production. Knowledge on fungal genomics facilitates the gene manipulation towards biotechnological applications (disease diagnosis, pathogen detection, gene expression and mutualistic interactions). This book addresses the application of fungi in different areas and serves as a potential knowledge bank for graduates, post-graduates and researchers contemplating fungal applications.

This book, Extremophiles: General and Plant Biomass Based Biorefinery, explores the potential of extremophiles in industries and biomass based biorefinery. The book sheds light on diversity and various applications of thermophiles, psychrophiles, halophiles, alkaliphiles and acidophiles for the production of value-added products including biofuels, extremozymes, etc. The chapters comprehensively emphasize the utility of extremophiles in sustainable biorefinery bioprocesses. This book is an integrated source of literature for scientists, engineers, academicians, and students working in the area of extremophiles, microbial technology and biorefinery.