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Neuropeptide Analogs, Conjugates, and Fragments
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Epigenetic Gene Expression and Regulation reviews current knowledge on the heritable molecular mechanisms that regulate gene expression, contribute to disease susceptibility, and point to potential treatment in future therapies. The book shows how these heritable mechanisms allow individual cells to establish stable and unique patterns of gene expression that can be passed through cell divisions without DNA mutations, thereby establishing how different heritable patterns of gene regulation control cell differentiation and organogenesis, resulting in a distinct human organism with a variety of differing cellular functions and tissues. The work begins with basic biology, encompasses methods, cellular and tissue organization, topical issues in epigenetic evolution and environmental epigenesis, and lastly clinical disease discovery and treatment. Each highly illustrated chapter is organized to briefly summarize current research, provide appropriate pedagogical guidance, pertinent methods, relevant model organisms, and clinical examples. - Reviews current knowledge on the heritable molecular mechanisms that regulate gene expression, contribute to disease susceptibility, and point to potential treatment in future therapies - Helps readers understand how epigenetic marks are targeted, and to what extent transgenerational epigenetic changes are instilled and possibly passed onto offspring - Chapters are replete with clinical examples to empower the basic biology with translational significance - Offers more than 100 illustrations to distill key concepts and decipher complex science.
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Prokaryotic gene expression is not only of theoretical interest but also of highly practical significance. It has implications for other biological problems, such as developmental biology and cancer, brings insights into genetic engineering and expression systems, and has consequences for important aspects of applied research. For example, the molecular basis of bacterial pathogenicity has implications for new antibiotics and in crop development. Prokaryotic Gene; Expression is a major review of the subject, providing up-to-date coverage as well as numerous insights by the prestigious authors. Topics covered include operons; protein recognition of sequence specific DNA- and RNA-binding sites; promoters; sigma factors, and variant tRNA polymerases; repressors and activators;; post-transcriptional control and attenuation; ribonuclease activity, mRNA stability, and translational repression; prokaryotic DNA topology, topoisomerases, and gene expression; regulatory networks, regulatory cascades and signal transduction; phosphotransfer reactions; switch systems, transcriptional and translational modulation, methylation, and recombination mechanisms; pathogenicity, toxin regulation and virulence determinants; sporulation and genetic regulation of antibiotic production;; origins of regulatory molecules, selective pressures and evolution of prokaryotic regulatory mechanisms systems. Over 1100 references to the primary literature are cited. Prokaryotic Gene Expression is a comprehensive and authoritative review of current knowledge and research in the area. It is; essential reading for postgraduates and researchers in the field. Advanced undergraduates in biochemistry, molecular biology, and microbiology will also find this book useful.
Gene expression. --- Genes --- Genetic regulation --- Expression
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Over the past decade, the transient gene expression (TGE) technology platform has been actively pursued to produce a wide range of therapeutic proteins, monoclonal antibodies, and vaccines for mainly preclinical assessment, due to its short development times and low overall cost. This book updates the latest advances in the field, with focusing on systematic description of the technology from cell lines, cell culture conditions, vector construction, expression strategy, current protocols, optimisation of the procedure, and potential for clinical application. As a conclusion, the author foresee
Gene expression. --- Genes --- Genetic regulation --- Expression
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Gene expression --- Genes --- Genetic regulation --- Expression
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Gene expression. --- Genes --- Genetic regulation --- Expression
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This book offers practical advice to researchers interested in using the technique of RT-PCR differential display to help them understand the function of individual genes in specific tissues or cells of an organism, either as part of normal development and aging, or in disease processes.
Gene expression. --- Genes --- Genetic regulation --- Expression --- Gene expression --- Polymerase chain reaction. --- Research --- Methodology.
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Plant genetics --- Plants --- Genetics --- Plant gene expression --- Plant genetic regulation --- Plant gene expression. --- Plant genetic regulation. --- Plant genetics. --- Genes, Plant. --- Gene Expression Regulation, Plant. --- Genetic regulation --- Plant cellular control mechanisms --- Plant molecular genetics --- Gene expression --- Regulation, Gene Expression, Plant --- Plant Gene Expression Regulation --- Regulation of Gene Expression, Plant --- Plant Genes --- Gene, Plant --- Plant Gene --- Genome, Plant --- Regulation --- Plant Ecology
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The analysis of changes in gene activity in tissues and cells of plants is a way of measuring developmental and environmental responses. This volume provides detailed accounts of new and established techniques used to carry out such analyses.
Plant gene expression. --- Plant molecular genetics. --- Molecular genetics --- Plant genetics --- Plant molecular biology --- Gene expression --- Plant molecular genetics --- Plant gene expression
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Understanding mechanisms of gene regulation that are independent of the DNA sequence itself - epigenetics - has the potential to overthrow long-held views on central topics in biology, such as the biology of disease or the evolution of species. High throughput technologies reveal epigenetic mechanisms at a genome-wide level, giving rise to epigenomics as a new discipline with a distinct set of research questions and methods. Leading experts from academia, the biotechnology and pharmaceutical industries explain the role of epigenomics in a wide range of contexts, covering basic chromatin biology, imprinting at a genome-wide level, and epigenomics in disease biology and epidemiology. Details on assays and sequencing technology serve as an up-to-date overview of the available technological tool kit. A reliable guide for newcomers to the field as well as experienced scientists, this is a unique resource for anyone interested in applying the power of twenty-first-century genomics to epigenetic studies.
Epigenetics. --- Gene expression. --- Genes --- Genetic regulation --- Genetics --- Expression
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