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This book introduces students to methods that will help them understand behaviour in terms of cellular components and their interactions in non-intuitive ways, which calls for an interdisciplinary approach combining mathematical, chemical, computational and biological strategies. Tibor Ganti was one of the early pioneers who proposed a theoretical framework to understand living principles in terms of chemical transformation cycles and their coupling. The twenty-first century then brought with it a novel ‘systems’ paradigm, which shone new light on all previous work and was accompanied by numerous implications for the way we conceive of chemical and biological complexity today. This book seeks to equip students to take advantage of any field that investigates living systems. Based on a conceptualisation of science-oriented branches, engineering-oriented branches and biology as astoundingly complex fields, those structures laden with biochemical detail encompass a deeper theory unifying our knowledge of designed systems. Readers will be pleasantly surprised at how lucidly the topics are presented. The book offers an indispensable resource for students and professionals working in systems and synthetic biology or any of the various related fields of research.
Life sciences. --- Bioinformatics. --- Systems biology. --- Biostatistics. --- Life Sciences. --- Systems Biology. --- Computational Biology/Bioinformatics. --- Synthetic biology. --- Computational biology --- Bioinformatics --- Biological systems --- Molecular biology --- Biology --- Engineering --- Bioengineering --- Biological models. --- Statistical methods. --- Bio-informatics --- Biological informatics --- Information science --- Systems biology --- Models, Biological --- Data processing --- Biological statistics --- Biometrics (Biology) --- Biostatistics --- Biomathematics --- Statistics --- Statistical methods
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The book uses an integrated approach to predict the behavior of various biological interactions. It further discusses how synthetic biology gathers the information about various systems, in order to either devise an entirely new system, or, to modulate existing systems. The book also tackles the concept of modularity, where biological systems are visualized in terms of their parts. The chapters discuss how the principles of engineering are being used in biomedical sciences, to design biological circuits that can harbor multiple inputs and generate multiple outputs; to create genetic networks and control gene activity, in order to generate a desired response. The book aims to help the readers develop an array of biological parts, and to use these parts to develop synthetic circuits that can be assembled like electronic circuits. The ultimate aim of the book will be to serve as an amalgamation of key ideas of how judiciously synthetic biology could be exploited in therapeutic device and delivery mechanism.
Synthetic biology. --- Biomedical engineering. --- Biological models. --- Models, Biological --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Biology --- Metabolism. --- Biomedical Engineering/Biotechnology. --- Systems Biology. --- Metabolomics. --- Biomedical Engineering and Bioengineering. --- Anabolism --- Catabolism --- Metabolism, Primary --- Primary metabolism --- Biochemistry --- Physiology --- Systems biology. --- Computational biology --- Bioinformatics --- Biological systems --- Molecular biology
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Systems and Synthetic Immunology focuses on the similarities between biology and engineering at the systems level, which are important for applying engineering theories to biology problems. With the advent of new genomic techniques, there are numerous systematic investigations underway in the scientific world. This volume highlights techniques that can be used to effectively combine two of the most essential biological fields - Systems Biology and Synthetic Immunology. The respective chapters discuss the role of synthetic immunology in biotechnology, production of biomaterials, and their use in vaccine delivery. Further topics include the importance of cytokines; the use of genomic engineering tools in immunotherapy; immunosensors; nanotherapeutics; and bioinformatics tools in biomedical applications. Given its scope, the book offers readers an up-to-date and comprehensive review of this unique and dynamic field of research.
Immunology. --- Systems biology. --- Computational biology --- Bioinformatics --- Biological systems --- Molecular biology --- Immunobiology --- Life sciences --- Serology --- Biomedical engineering. --- Cytokines. --- Growth factors. --- Genetic engineering. --- Systems Biology. --- Biomedical Engineering/Biotechnology. --- Cytokines and Growth Factors. --- Genetic Engineering. --- Designed genetic change --- Engineering, Genetic --- Gene splicing --- Genetic intervention --- Genetic surgery --- Genetic recombination --- Biotechnology --- Transgenic organisms --- Cell growth factors --- Cellular growth factors --- Growth peptides --- Growth promoting substances --- Growth substances --- Peptide growth factors --- Peptide regulatory factors --- Polypeptide growth factors --- Cytokines --- Peptides --- Cellular immunity --- Immune response --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Regulation --- Sistema immunitari --- Biologia --- Enginyeria genètica --- Intervenció genètica --- Manipulació genètica --- Recombinació genètica --- ADN recombinant --- Clonatge --- Clonatge molecular --- Enginyeria de proteïnes --- Enginyeria genètica animal --- Enginyeria genètica vegetal --- Teràpia genètica --- Fecundació in vitro --- Organismes transgènics --- Ciències biològiques --- Ciències de la vida --- Adaptació (Biologia) --- Anatomia --- Biodiversitat --- Bioelectrònica --- Bioenginyeria --- Bioespeleologia --- Biofísica --- Biogeografia --- Biolingüística --- Biologia aquàtica --- Biologia computacional --- Biologia de la conservació --- Biologia de poblacions --- Biologia del desenvolupament --- Biologia econòmica --- Biologia espacial --- Biologia experimental --- Biologia humana --- Biomatemàtica --- Biometria --- Bioquímica --- Biotecnologia --- Cèl·lules --- Citologia --- Criobiologia --- Cronobiologia --- Ecologia --- Embriologia --- Evolució (Biologia) --- Exobiologia --- Fecundació --- Filogènia --- Fisiologia --- Fotobiologia --- Generació espontània --- Genètica --- Geobiologia --- Immunologia --- Metabolisme --- Microbiologia --- Mimetisme (Biologia) --- Morfogènesi --- Mort (Biologia) --- Neurobiologia --- Ontogènesi --- Parasitologia --- Partenogènesi --- Protoplasma --- Psicobiologia --- Radiobiologia --- Regeneració (Biologia) --- Reproducció --- Sexualitat (Biologia) --- Simbiosi --- Variació (Biologia) --- Vitalisme --- Biomassa --- Ciències naturals --- Evolució --- Història de la biologia --- Il·lustració biològica --- Vida (Biologia) --- Sistema immunològic --- Cèl·lules immunocompetents --- Medul·la òssia --- Sistema limfàtic
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The book serves as an amalgamation of knowledge and principles used in the area of systems and synthetic biology, and targets inter-disciplinary research groups. The readers from diversified areas would be benefited by the valuable resources and information available in one book. Microbiome projects with efficient data handling can fuel progress in the area of microbial synthetic biology by providing a ready to use plug and play chassis. Advances in gene editing technology such as the use of tailor made synthetic transcription factors will further enhance the availability of synthetic devices to be applied in the fields of environment, agriculture and health. The different chapters of the book reviews a broad range of topics, including food microbiome in ecology, use of microbiome in personalized medicine, machine learning in biomedicine. The book also describes ways to harness and exploit the incredible amounts of genomic data. The book is not only limited to medicine but also caters to the needs of environmentalists, biochemical engineers etc. Ii will be of interest to advanced students and researchers in life sciences, computational biology, microbiology and other inter-disciplinary areas. .
Bacteriology. --- Microbiology. --- Medical microbiology. --- Systems biology. --- Biomedical engineering. --- Eukaryotic Microbiology. --- Medical Microbiology. --- Systems Biology. --- Biomedical Engineering/Biotechnology. --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Computational biology --- Bioinformatics --- Biological systems --- Molecular biology --- Microbial biology --- Biology --- Microorganisms --- Microbiology
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Machine learning. --- Bioinformatics. --- Systems biology. --- Computational biology --- Bioinformatics --- Biological systems --- Molecular biology --- Bio-informatics --- Biological informatics --- Biology --- Information science --- Systems biology --- Learning, Machine --- Artificial intelligence --- Machine theory --- Data processing --- Aprenentatge automàtic --- Bioinformàtica
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This book introduces students to methods that will help them understand behaviour in terms of cellular components and their interactions in non-intuitive ways, which calls for an interdisciplinary approach combining mathematical, chemical, computational and biological strategies. Tibor Ganti was one of the early pioneers who proposed a theoretical framework to understand living principles in terms of chemical transformation cycles and their coupling. The twenty-first century then brought with it a novel ‘systems’ paradigm, which shone new light on all previous work and was accompanied by numerous implications for the way we conceive of chemical and biological complexity today. This book seeks to equip students to take advantage of any field that investigates living systems. Based on a conceptualisation of science-oriented branches, engineering-oriented branches and biology as astoundingly complex fields, those structures laden with biochemical detail encompass a deeper theory unifying our knowledge of designed systems. Readers will be pleasantly surprised at how lucidly the topics are presented. The book offers an indispensable resource for students and professionals working in systems and synthetic biology or any of the various related fields of research.
Biomathematics. Biometry. Biostatistics --- Molecular biology --- Biology --- Biotechnology --- Programming --- bio-informatica --- biologie --- biostatistiek --- biotechnologie --- biometrie --- moleculaire biologie
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The book uses an integrated approach to predict the behavior of various biological interactions. It further discusses how synthetic biology gathers the information about various systems, in order to either devise an entirely new system, or, to modulate existing systems. The book also tackles the concept of modularity, where biological systems are visualized in terms of their parts. The chapters discuss how the principles of engineering are being used in biomedical sciences, to design biological circuits that can harbor multiple inputs and generate multiple outputs; to create genetic networks and control gene activity, in order to generate a desired response. The book aims to help the readers develop an array of biological parts, and to use these parts to develop synthetic circuits that can be assembled like electronic circuits. The ultimate aim of the book will be to serve as an amalgamation of key ideas of how judiciously synthetic biology could be exploited in therapeutic device and delivery mechanism.
Biology --- Human biochemistry --- Physiology of nutrition. Metabolism --- Biotechnology --- medische biochemie --- bio-engineering --- biologie --- biomedische wetenschappen --- biotechnologie --- stofwisseling
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Systems and Synthetic Immunology focuses on the similarities between biology and engineering at the systems level, which are important for applying engineering theories to biology problems. With the advent of new genomic techniques, there are numerous systematic investigations underway in the scientific world. This volume highlights techniques that can be used to effectively combine two of the most essential biological fields - Systems Biology and Synthetic Immunology. The respective chapters discuss the role of synthetic immunology in biotechnology, production of biomaterials, and their use in vaccine delivery. Further topics include the importance of cytokines; the use of genomic engineering tools in immunotherapy; immunosensors; nanotherapeutics; and bioinformatics tools in biomedical applications. Given its scope, the book offers readers an up-to-date and comprehensive review of this unique and dynamic field of research.
General embryology. Developmental biology --- Histology. Cytology --- Molecular biology --- Biology --- Plant embryology and development --- Animal physiology. Animal biophysics --- Human biochemistry --- Immunology. Immunopathology --- Biotechnology --- immunologie --- medische biochemie --- biologie --- cytokines --- genetische manipulatie --- groeifactoren
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The book serves as an amalgamation of knowledge and principles used in the area of systems and synthetic biology, and targets inter-disciplinary research groups. The readers from diversified areas would be benefited by the valuable resources and information available in one book. Microbiome projects with efficient data handling can fuel progress in the area of microbial synthetic biology by providing a ready to use plug and play chassis. Advances in gene editing technology such as the use of tailor made synthetic transcription factors will further enhance the availability of synthetic devices to be applied in the fields of environment, agriculture and health. The different chapters of the book reviews a broad range of topics, including food microbiome in ecology, use of microbiome in personalized medicine, machine learning in biomedicine. The book also describes ways to harness and exploit the incredible amounts of genomic data. The book is not only limited to medicine but also caters to the needs of environmentalists, biochemical engineers etc. Ii will be of interest to advanced students and researchers in life sciences, computational biology, microbiology and other inter-disciplinary areas. .
General microbiology --- Histology. Cytology --- Biology --- Human biochemistry --- Medical microbiology, virology, parasitology --- Biotechnology --- medische microbiologie --- medische biochemie --- biologie --- microbiologie --- bacteriologie
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