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Imagine trying to understand an engine without visualizing its moving parts. Biological processes involve far more complex chemical reactions and components than any engine. Furthermore, the parts work together to do many more functions than an engine which sole task is to turn a shaft. Understanding the implications of the three-dimensional coordinates for a molecule with several thousand atoms requires an understanding of, and practice with, 3D imaging. For many biologists, this means acquiring a whole new set of skills. Foundations of Structural Biology is aimed at helping the re
DNA. --- DNA-binding protein interactions. --- DNA-Binding Proteins. --- DNA-protein interactions. --- DNA--Structure. Proteins--Structure. DNA-binding protein interactions. Three-dimensional imaging in biology. DNA--chemistry. DNA-Binding Proteins--metabolism. Proteins--chemistry. Structure-Activity R. --- Proteins. --- Structure. --- Structure-Activity Relationship. --- Three-dimensional imaging in biology. --- DNA --- Proteins --- DNA-binding protein interactions --- Three-dimensional imaging in biology --- Amino Acids, Peptides, and Proteins --- Pharmacological Phenomena --- Metabolic Phenomena --- Biochemical Phenomena --- Natural Science Disciplines --- Nucleic Acids --- Disciplines and Occupations --- Physiological Phenomena --- Nucleic Acids, Nucleotides, and Nucleosides --- Chemicals and Drugs --- Chemical Phenomena --- Phenomena and Processes --- Structure-Activity Relationship --- Metabolism --- DNA-Binding Proteins --- Chemistry --- Human Anatomy & Physiology --- Health & Biological Sciences --- Animal Biochemistry --- Structure --- Three-dimensional biological imaging --- DNA-protein binding --- Interactions, DNA-protein --- Protein-DNA interactions --- Deoxyribonucleic acid --- Desoxyribonucleic acid --- Thymonucleic acid --- TNA (Nucleic acid) --- Imaging systems in biology --- DNA-ligand interactions --- Protein binding --- Deoxyribose --- Nucleic acids --- Genes --- Chemistry. --- Metabolism.
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Now in two-colour throughout, the fourth edition of Eukaryotic Transcription Factors has been completely rewritten and restructured to take into account the tremendous advances in our understanding of transcription factors and the mechanisms by which they act. Considerable emphasis has been given to the interaction between transcription factors and chromatin structure. Also included is an entirely new section on the mediator complex and expansion of the space devoted to co-activators and co-repressors.This book is essential reading for all those who wish to understand the impac
Eukaryotic Cells. --- Gene Expression Regulation. --- Transcription Factors. --- Transcription, Genetic. --- Transcription factors. --- Genetic transcription --- Eukaryotic cells. --- Facteurs de transcription --- Transcription génétique --- Cellules eucaryotes --- Regulation. --- Régulation --- Genetic transcription. --- Genetic regulation --- Genetic transcription factors --- Proteins --- Transcription factors --- Eukaryotic cells --- MOLECULAR STRUCTURE --- BASE SEQUENCE --- DNA-BINDING PROTEINS --- GENETIC PREDISPOSITION TO DISEASE --- TRANSCRIPTION, GENETIC --- DNA-DIRECTED RNA POLYMERASES --- CHROMATIN --- TRANSCRIPTION FACTORS --- ULTRASTRUCTURE
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The suggestion for this collection of essays originated in part from a course given to graduate students at the University of Pennsylvania School of Medicine. In sections of this course, the conceptual developments in the fields of membrane transport and cellular respiration were traced to illustrate general aspects of the development of ideas in a scientific field. Discussions with peers on the topic also greatly enhanced the development of the project as it is reflected in this book. The volume reflects the breadth and scope of this rapidly developing field, and is an excellent treatise of a
Cell membranes --- Cell membranes. --- Cell surfaces --- Cytoplasmic membranes --- Plasma membranes --- Plasmalemma --- Membranes (Biology) --- Glycocalyces --- Amino acids --- Biological transport, active. --- Biochemistry --- Biochemistry. --- Biophysics. --- Dna repair. --- Dna replication. --- Dna --- Energy transfer. --- Energy metabolism --- Genetic code. --- Proteins --- Rna --- Sulfur --- Metabolism --- Disorders. --- Metabolism. --- History. --- Biosynthesis. --- Research --- 577.1 --- Biochimie --- History --- Histoire --- DNA --- DNA Repair. --- DNA Replication. --- Genetic Code. --- Protein Biosynthesis. --- RNA --- biosynthesis. --- Molecular biology --- General biochemistry --- History of natural sciences --- Philosophy --- Physics, chemistry, biology. --- General. --- history --- Vitamins --- Trace elements --- Accessory elements --- Microelements --- Micronutrients --- Minerals, Trace --- Minor elements --- Trace metals --- Trace minerals --- Agricultural chemicals --- Chemical elements --- Nutrition --- Avitaminosis --- DNA Repair --- DNA Replication --- Genetic Code --- Protein Biosynthesis --- Protein Biosynthesis, Ribosomal --- Protein Synthesis, Ribosomal --- Ribosomal Peptide Biosynthesis --- mRNA Translation --- Genetic Translation --- Peptide Biosynthesis, Ribosomal --- Protein Translation --- Translation, Genetic --- Biosynthesis, Protein --- Biosynthesis, Ribosomal Peptide --- Biosynthesis, Ribosomal Protein --- Genetic Translations --- Ribosomal Protein Biosynthesis --- Ribosomal Protein Synthesis --- Synthesis, Ribosomal Protein --- Translation, Protein --- Translation, mRNA --- mRNA Translations --- Peptide Biosynthesis --- Codon, Initiator --- Codon, Terminator --- Code, Genetic --- Codes, Genetic --- Genetic Codes --- Codon --- Histone Code --- Replication, Autonomous --- Autonomous Replication --- Autonomous Replications --- DNA Replications --- Replication, DNA --- Replications, Autonomous --- Replications, DNA --- DNA-Binding Proteins --- Virus Replication --- S Phase --- Base Excision Repair --- Excision Repair --- Nucleotide Excision Repair --- Base Excision Repairs --- Excision Repair, Base --- Excision Repair, Nucleotide --- Excision Repairs --- Nucleotide Excision Repairs --- Repair, Base Excision --- Repair, Excision --- Repairs, Base Excision --- DNA-Formamidopyrimidine Glycosylase --- DNA Repair Enzymes --- Targeted Gene Repair --- biosynthesis --- Issue --- 577.122 --- 577.122 Protein metabolism --- Protein metabolism --- metabolism --- Amino Acid Metabolism, Inborn Errors --- Amino Acids --- 577.1 <035> --- Metabolism&delete& --- Disorders --- Amino Acid Metabolism Disorders, Inborn --- Amino Acid Metabolism, Inborn Error --- Amino Acid Metabolism, Inherited Disorders --- Amino Acidopathies, Inborn --- Congenital Amino Acidopathies --- Inborn Errors, Amino Acid Metabolism --- Inherited Errors of Amino Acid Metabolism --- Amino Acidopathies, Congenital --- Amino Acidopathy, Congenital --- Amino Acidopathy, Inborn --- Congenital Amino Acidopathy --- Inborn Amino Acidopathies --- Inborn Amino Acidopathy --- Amino compounds --- Organic acids --- Peptides --- 577.1 <035> Chemical bases of life. Biochemistry and bio-organic chemistry generally--Grote handboeken. Compendia --- Chemical bases of life. Biochemistry and bio-organic chemistry generally--Grote handboeken. Compendia --- Amino acid metabolism --- Amino acid metabolism, Inborn errors of --- Aminoacidopathies --- Molécules --- Molécules --- Sulphur - Metabolism --- Amino acids - Metabolism - Disorders --- Amino acids - Metabolism --- Amino Acids - metabolism --- Sulfur - metabolism --- Acides aminés --- metabolism. --- Métabolisme --- Bioenergetics --- Microbial respiration --- Carbohydrates --- Carbohydrate metabolism --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Composition --- Biochemistry - history --- Energy metabolism - Research - History --- Structure moléculaire --- Alchemy [not cas]
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