Molekylærbiologi

This reference book compiles updated research on non-coding RNAs and their role in producing high-yielding plants with no penalties under changing climates. The book covers the sequencing, identification, prediction, identification, characterization, and targets of non-coding RNAs to engineer high-yielding crops.

Human health depends upon access to high-quality proteins for our diet and pharmaceutical use. This book deals with the nature of toxicity as it applies to proteins in food and drugs.

The book includes current and emerging concepts in the areas of environmental biotechnology such as pollution sources, control and measurement, solid waste management, bioremediation, biofuels, biosensors, bioleaching, conservation biotechnology and more. The book also includes recent innovations made in this field and incorporates case studies to help in understanding the concepts. This book applies principles from multidisciplinary sciences of environmental engineering, metabolic engineering, rDNA technology and omics to study the role of microbes and plants in tackling environmental issues. It also includes content related to risk assessment and environmental management systems. Each chapter provides problems and solutions of different topics with diagrammatic illustrations and tables for students, researchers and other professionals in environmental biotechnology.Explores cutting-edge technologies, including nanotechnology-based bioremediation, value-added products from waste and emerging techniques related to environmental risk assessment and monitoringReviews the current methods being applied in the environment field for pollution control, waste management, biodegradation of organic and inorganic pollutants and so onProvides in-depth knowledge of the latest advancements in the field of environmental biotechnology such as bioleaching, biomining and advances in biotechnology-based conservation of biodiversityIntroduces undergraduate and post-graduate students to basic concepts of environmental biotechnology and allied fieldsDiscusses different products such as biofuels, biopolymers and biosensors that are being produced using biotechnological methods, thus contributing towards the goal of sustainable developmentDr. Neetu Sharma is Assistant Professor in the Department of Biotechnology, GGDSD College, Chandigarh, India. The main thrust of her research centers on biotechnology, bioremediation and nanotechnology.Abhinashi Singh Sodhi is Assistant Professor in the Department of Biotechnology, GGDSD College, Chandigarh, India. His current research focuses on waste reduction, valorization and bioproduct formation.Dr. Navneet Batra is Associate Professor and Head, Department of Biotechnology, GGDSD College, Chandigarh, India. He has extensive academic and research experience of over 20 years with specialization in biotechnology and biochemical engineering.

Chitosan-Based Hybrid Nanomaterials focuses on chitosan, an abundantly occurring biopolymer, to present possibilities for the removal of contaminants and a greener approach towards a cleaner environment - combining nanotechnology with the deployment of naturally occurring materials to remedy environmental challenges. This book fills research gaps and what is known about chitosan-based nanomaterials. Considering the importance of naturally occurring materials with the applied knowledge of nanotechnology in the field of environmental restoration, this book is an ideal resource for interested parties and career professionals.

This edited book is an in-depth compilation of recent tools and techniques, concepts and strategies used globally in plant molecular farming (PMF) for the cost-effective bulk production of recombinant proteins, secondary metabolites, and other biomolecules. The book presents an overview of success stories of PMF applications from developing countries to address poverty, achieve zero hunger, good health and well-being, thus achieving the UN SDGs 1, 2, and 3.The book deep dives into recent extraction and downstream processing methodologies, its co-existence with conventional agriculture, global governance and finally opportunities, challenges, and future perspectives in plant molecular farming. It focuses on plastid/chloroplast transformation (transplastomics) and its application in plant molecular farming. The books highlight recent advances in genome editing, synthetic biology, glycosylation and glyco-engineering for improved plant molecular farming by marker-free andtissue-specific systems via cisgenic and transgenic crops. In depth discussions on biosafety issues and bio-containment strategies have also been included.The book has 15 chapters authored by globally leading experts on the subject, presenting opportunities & challenges for bio-industrial researchers and entrepreneurs. It is useful to researchers, industrialists, entrepreneurs, policy planners, academician, and students across the disciplines.

This book collates various aspects of stress tolerance in crop plants. It primarily focuses on the heat and temperature related stress, starting from the severity of the problem on quantity and quality of yield under the threat of global climate change. The content also explores other mechanistic dimensions such as physiochemical and molecular mechanism underlying thermotolerance, signaling mechanism under heat stress, role of heat shock proteins in modulating thermotolerance, omics approach for development of climate smart-crop. Chapters discuss different approaches used in the past to develop heat stress tolerant crop plants, list of developed thermotolerant agriculturally important crop plants, redox homeostasis under heat stress, nutrient uptake and use efficiency in plants under heat stress and much more. The book is a useful compilation for researchers working in the area of abiotic stress tolerance in crop plants, as well as for students of plant physiology and agricultural sciences.

Nanotechnology has shown great potential to alleviate increasing pressure to meet food needs for our increasing human population, Novel agricultural innovations are required to enhance the health of edible crops and per unit area yield without impacting the associated environment in a negative way. Recent advancements in nanotechnology-based agricultural solutions have proven to help overcome the problems in agriculture that are associated with run-off of essential fertilizers from agricultural soils, low nutrient accumulation by crops, as well as to control insects, pests, and seasonal biotic factors, treatment of wastewater used for irrigation, plant uptake of xenobiotics (heavy metals, pesticides, industrial chemicals, drugs, and so on) that may be present in contaminated soils. Additionally, the consumption of such food crops may result in malnourishment and plant-mediated transfer of toxic substances among humans especially in underprivileged and rural populations. Agents to stimulate plant growth include various types of nanomaterials such as carbon nanotubes, metal, and metal-oxide nanoparticles. Applications of particular nutrients or elements in crop plants can be shown to aid human nourishment (either by directly inducing its uptake or indirectly through enhancing the intracellular levels of other associated elements that ultimately boost the synthesis of the desired nutrient in plants). It is also important to consider the competence and fate of nanomaterials in soil ecosystems. The entry route of nanomaterials into the environment includes both natural and anthropogenic sources. In order to achieve sustainable and safe use of nanotechnological products in agriculture, similar environmental conditions must be simulated on lab scale with the careful selection of organisms related to agriculture. Thus, emphasis should be placed on the judicial use of nano-enabled products without compromising the sustainability of the environment and human health. This comprehensive book highlights recent field research as well as contributions from academicians in the lab. This book addresses the major aspects related to nanotechnology, biofortification of crops, and human and environmental health.

The field molecular pathway analysis evolves rapidly, and many progressive methods have recently been discovered. Molecular Pathway Analysis Using High-Throughput OMICS Data contains the largest collections of molecular pathways. For the first time, guidelines on how to do genomic, epigenetic, transcriptomic, proteomic, and metabolomic data analysis in real-world research practice are given. Molecular Pathway Analysis Using High-Throughput OMICS Molecular Data also focuses on the pathway analysis applications for solving tasks in biotechnology, pharmaceutics, and molecular diagnostics ¿¿It demonstrates how pathway analysis can be applied for the research and treatment of chronic and acute diseases, for next-generation molecular diagnostics, for drug design and preclinical testing; relevant real-world examples, molecular tests, and web resources will be reviewed in-depth.¿ ¿¿The book shows a tendency of erasing the borders between chemistry, physics, informatics, mathematics, biology, and medicine by means of novel research approaches and instruments, providing a truly multidisciplinary approach.

MicroRNA in Human Infectious Diseases offers an overview of the therapeutic and diagnostic role microRNAs can play in treating infectious diseases. Beginning with an introduction on microRNAs and their mechanisms, the book then delves into the therapeutic role of microRNAs in various categories of diseases, including bacterial, viral, and parasitic. A wide range of diseases are explored, including STDs, typhoid, tuberculosis, Dengue fever, Ebola, Covid-19, Malaria, Leishmaniasis, and Lymphatic filariasis. The final section of the book covers microRNA-based system approaches, considering aspects such as web-based tools available for detecting and predicting microRNA targets and the latest technologies for modifying and manipulating microRNAs. This volume explores microRNA across a multitude of conditions and is an ideal reference for those involved in the investigation and development of treatments in this area.

Tauchen Sie ein in die Welt der Epigenetik, die Ihnen erklärt, wie Sie Ihre Gesundheit fördern und das Beste aus sich selbst herausholen können. Zunächst führt Sie das Werk in die molekularen Grundlagen ein, wie jede einzelne Zelle funktioniert und Information über ihre Umgebung verarbeitet. Letzteres hat sehr viel mit Epigenetik zu tun, die ein zentrales Thema in diesem Buch ist. Die Epigenetik, die für die Identität der mehr als 400 verschiedenen Zelltypen unseres Körpers entscheidend ist, hat auch einen dynamischen Aspekt. Sie lernen, wie intrazellulärer Signalübertragungswege über extrazelluläre Signale aktiviert werden und damit Transkriptionsfaktoren und Chromatin-modifizierenden Enzymen beeinflussen. Viele dieser Signale stammen direkt oder indirekt von unserer Ernährung. Letztere ist das wichtigste externe Signal, dem wir täglich ausgesetzt sind. Das führt zum zweiten zentralen Thema dieses Buches, der Nutrigenomik. Die Nahrung, die wir täglich zu uns nehmen, ist weit mehr als eine Ansammlung von Kohlenhydraten, Proteinen, Lipiden, Vitaminen und Mineralien, die Energie und Bausteine für unseren Körper liefert. Das faszinierende Fachgebiet der Nutrigenomik beschreibt die Wechselwirkung zwischen Nahrungsmolekülen, ihren Metaboliten und unserem (Epi)genom. Viele Nahrungsbestandteile, wie beispielsweise ungesättigte Fettsäuren, aktivieren direkt Transkriptionsfaktoren oder verursachen Veränderungen in den Konzentrationen von Metaboliten. Diese beeinflussen wiederum die Aktivität von Chromatin-modifizierenden Enzymen. Auf diese Weise ¿sprechen¿ Moleküle unseres Frühstücks, Mittagessen oder Abendessen mit unserem Genom bzw. Epigenom. Tauchen Sie ein in die faszinierende Welt der Selbstheilung und Verantwortung für Ihre Gesundheit!

This volume provides new approaches and technologies into roles of poly(A) metabolism in translation, RNA stability, and quality control of gene expression. 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 key tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Deadenylation: Methods and Protocols aims to pave the way for future investigations of the complex regulatory networks that control mRNA stability and expression.

This book is a concise overview of modern approaches to N-alkylation and N-arylation of primary, secondary and tertiary amines using alkylating and arylating reagents with amino sources found in both basic and applied chemical research.

This book serves as an introduction to the concepts of medical biotechnology, with great details about fundamentals and early disciplines of study as well as emerging fields and the latest research. The book follows a chronological order from the earliest discoveries and breakthroughs of medical biotechnology to the latest areas of study. The book contains up-to-date citations for each chapter and section, which makes it easy for the reader to understand the concept and also to follow the latest developments in the particular area. It is an ideal book for undergraduate and graduate students who aspire to derive basic knowledge and are also keen on learning about the latest advancements in the field of medical biotechnology. 

This is the first book to explore the science underlying the Jerusalem artichoke, which is also known as Helianthus tuberosus L. and it is attracting increasing interest among food scientists and professionals worldwide. Due to a wide perspective for the production of inulin due to its high economic and ecological importance, the development of technologies for isolating and processing tuberous sunflower raw materials using environmentally friendly technologies (green chemistry and white biotechnology) and the global production of inulin shows an increasing tendency. Here we focus on the latest technological achievements related to the use of inulin in the food processing. In this book, readers will find full explanation of the conceptual aspects and the latest research results on a wide range of topics, including the relevant characteristics and applications from various fields. Written by leading scientists in the field, the book will be a valuable resource for students and researchers in the fields of food chemistry, nutritional science, physiology, and bioengineers, as well as for professionals in the food industry.

This book provides a unique, comprehensive, and up-to-date overview of the various NADPH oxidases and narrates the history of their discovery, biochemical characteristics, genetics, molecular structure, and multiple functions in health and disease. It covers the subject in a manner that serves both the expert and the novice researcher in the field.The book starts with an overview of the major milestones in the discovery of the archetypical NADPH oxidase, known as cytochrome b558, and its cytosolic regulators. This is followed by personal recollections by pioneers of the field, descriptions of the work of the major figures of the past by their followers, and a rendering of the history of the discovery of the Nox family. The central section of the book consists of chapters devoted specifically to an in depth description of the individual members of the Nox family, and is followed by chapters focused on the modulators of their function. A subsequent section comprises chapters dealing with methodologies of Nox research, interaction with other proteins, and Nox inhibitors. A distinct section of the book deals with non-mammalian Noxs, from amoeba to zebrafish. Subsequent chapters focus on Nox structure, a field in which extraordinary progress was made in recent years. The volume ends with chapters on Chronic Granulomatous Disease, the consequence of Nox loss-of-function, and its treatment by gene therapy. The coda is a crystal ball perspective of the hopes for the clinical translation of basic Nox research. Written for biochemists, cell biologists, molecular biologists, and clinicians, this book is aimed at both senior scientists and young investigators in the field.

Molecular Impacts of Nanoparticles on Plants and Algae covers molecular mechanisms of plants/algae related to cellular uptake, translocation of nanoparticles, and genome, transcriptome, proteome, and metabolome responses against it. The book introduces readers to state-of-the-art developments and trends of nanoparticles and plants/algae including interactions of nanoparticles with biological compounds in vitro. Nanoscience and nanotechnology have rapidly been developed in the last few decades, and they have a wide range of applications in industry, medicine, food, and agriculture. In agriculture, nanoparticles (NPs) have successfully been used for growth regulation, crop protection and improvement. This book presents the most recent findings on nanoparticle and plant/algae interaction by focusing on molecular response mechanisms at genome, transcriptome, proteome and metabolome levels. In addition, uptake and translocation mechanism of nanoparticles are assessed both in plant and algae. Throughout this book, the latest developments and discoveries are highlighted, along with open problems and future challenges in molecular mechanisms of plants/algae as a response of nanoparticles.

Advances in Physical Organic Chemistry, Volume 57 presents the latest reviews of recent work in physical organic chemistry, providing a valuable source of information that is ideal not only for physical organic chemists applying their expertise to both novel and traditional problems, but also for non-specialists across diverse areas who identify a physical organic component in their approach to research. The book's hallmark is its quantitative, molecular level understanding of phenomena across a diverse range of disciplines.

Transglutaminase: Fundamentals and Applications, a new volume in the Foundations and Frontiers in Enzymology series, stands as a comprehensive resource on this increasingly important class of enzymes. Following an introduction to the field, international experts discuss basic biology and structure - function relationships of transglutaminases, ongoing fundamental research, and new application areas, including food processing, material synthesis, biomedicine, disease treatment, and biotechnology. Approaches for sourcing transglutaminases from animals, plants, and microorganisms are considered, followed by chapters on applied uses in biomedicine, skin, bone biology, medicine, drug development, tissue engineering, seafood bioprocessing, dairy bioprocessing, synthesis of materials and polymers, and as an immobilization agent.Research protocols are also provided, including research rationale, design, substrates, assays, and microassay steps for studying transglutaminases.

Biocatalysis in Asymmetric Synthesis, a new volume in the Foundations and Frontiers of Enzymology series, offers an applied discussion on synthesizing biological catalysts using asymmetric synthesis for varying applications. Here, global experts in the field analyze a wide variety of biocatalysts and their physical states, process conditions for their asymmetric synthesis, solvents required during synthesis, and even downstream procedures for the recovery of final products. The book adopts an interdisciplinary approach, merging fundamental biology and its synthetic applications across industries with a wide range of practical examples, from directed evolution to biotransformation and production of novel enzymes and non-conventional catalysts. Throughout the book, the impact and application of biocatalysis in sustainable processing is considered in-depth. This book will also help non-experts in biocatalysis to apply this knowledge in their own research, providing a thorough overview of the ways asymmetric biocatalytic approaches may be adapted for different disciplines and downstream products.

Ion Channels in Cancer, Volume 92 in the Current Topics in Membranes series, highlights advances in the field, including chapters on the Interplay of calcium and potassium signals in cell cycle and cancer, Non-conducting functions of ion channels in cancer and neurological disease, Sodium channels and progression of solid tumors, The Elusive Nav1.7: From Pain to Cancer, Signaling Pathways in cancer: Channels Interactome as a novel therapeutic target, Ion channels in cancer drugs resistance, CLIC1: A potential therapeutic target for malignant glioma, Beyond the Building Blocks: Amino Acids as modulators of ion channels and transporters, and Activation of potassium channels unveils tumor vulnerability.

Ionizing Radiation and the Immune Response, Part B, Volume 378 reviews the latest knowledge on the immune response induced by ionizing radiations. Specific chapters in this new release include NK functions in radio-induced immune response, TRT and immune response, Radio-induced immune response and lipid metabolism, Effect of protons and heavy ions on immune response, Effect of flash therapy and mini beam on immune response, Radio-induced lymphopenia, CT to potentiate radio-induced immune response, Impact of RT on healthy tissues (inflammation), Radio-induced macrophagic response, To use nanoparticles and ionizing radiations to modulate immune response: opinion of the chemist, biologist and clinician, and much more. Other sections cover the Role of Dendritic cells in radiation-induced immune response, the Relationship between the tumor microenvironment and the efficacy of the radiotherapy/immunotherapy combination, and Biomarkers of radiation induced response to optimize radio-immunotherapy combination.

Biostimulants in Plant Protection and Performance provides the latest research on biostimulants, a diverse class of compounds that includes substances or microorganisms that are helpful in sustainable plant growth and development. These substances accelerate plant growth, yield, and chemical composition even under unfavorable conditions, and include nitrogen-containing compounds, humic materials, some specific compounds released by microbes, plants, and animals, various seaweed extracts, bio-based nanomaterials, phosphite, silicon, and more. Additionally, the book discusses new generation products and bioproducts that are being developed for sustainable plant growth and protection, including research updates in biotechnology, nanobiotechnology, and the protective role of biostimulants. As the use of new generation biostimulants can enhance plant production systems through a significant reduction of synthetic chemicals, such as pesticides and fertilizers, and even elicit plant tolerance to various climate change-related stresses, this book is a welcomed edition to many fields of study.

Enzymes in RNA Science and Biotechnology, Volume 691 in the Methods in Enzymology series, highlights new advances in the field, including chapters on Reverse transcriptase Part I (discovery, preparation, general utilization, MarathonRT for routine RT-PCR and for cDNA synthesis on challenging RNA templates Structured RNAs, repeat RNAs and more, Engineering TNA Polymerases Through Iterative Cycles of Directed Evolution, Reverse transcriptase Part II (RNA structure mapping and determination), RNA G-quadruplex (rG4) structure detection using RTS and SHALiPE assays, tRNA Structure-seq in vivo and in droplets, Capture the in vivo intact RNA structurome by CAP-STRUCTURE-seq, and more.

The Enzymes, Volume 54 highlights new advances in enzymes, with new chapters on a variety of topics, including the History of The Enzymes, Impact of The Enzymes in chronicling biochemical processes and pathways, Metabolism and Catalysis, Mitochondrial ATP synthase, The respiratory chain, A century of mitochondrial research, Five decades of metalloenzymology, Mechanisms of catalysis, Mitochondrial fatty acid synthesis and associated processes, Signaling, MAPK cascades: Origins, mechanisms and current status, Sphingolipids: From structural components to signaling hubs, Protein Homeostasis and Hydrolysis, Mitochondrial AAA+ proteases, Hsp70 and JDP proteins: structure-function perspective on molecular chaperone activity. Other sections cover DNA Replication and Repair, Structure-function studies of DNA replication proteins, and Helicases required for nucleotide excision repair.

Insect Pathology, Third Edition offers the most comprehensive research on the topic of insect pathology, spanning the diversity of insects with a more diverse array of microbes. This book provides a full update on new approaches for studying the genetics, development, evolution, and ecology of insect pathogens. Written by leading researchers and experts, the book includes coverage of revolutionary genome editing tools, such as CRISPR-Cas9, which have been developed for multiple insect pathogen systems and provides insights into the molecular underpinnings of insect pathogens and their hosts. This book also updates modern molecular techniques, "omics? approaches, and newly applied findings.These new and revised topics are critical for understanding current perspectives in the field, making this book a needed reference for insect pathologists, entomologists, microbiologists, mycologists, nematologists, protistologists, ecologists, and practitioners of biological control of insect pests. New and long-time students of insect pathology will also find this new edition useful.