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Protein Conformation. --- Protein Denaturation. --- Protein Folding. --- Structure-Activity Relationship. --- Proteins --- Protéines --- Pathophysiology. --- Structure-activity relationships. --- Metabolism --- Disorders. --- Physiopathologie --- Pathophysiology --- Structure-activity relationships --- Disorders --- Protéines --- Protein Conformation --- Protein Denaturation --- Protein Folding --- Structure-Activity Relationship --- 577.122 --- 577.122 Protein metabolism --- Protein metabolism --- Relationship, Structure-Activity --- Relationships, Structure-Activity --- Structure Activity Relationship --- Structure-Activity Relationships --- Protein Folding, Globular --- Folding, Globular Protein --- Folding, Protein --- Foldings, Globular Protein --- Foldings, Protein --- Globular Protein Folding --- Globular Protein Foldings --- Protein Foldings --- Protein Foldings, Globular --- Proteostasis --- Protein Multimerization --- Intrinsically Disordered Proteins --- Denaturation, Protein --- Denaturations, Protein --- Protein Denaturations --- Conformation, Protein --- Conformations, Protein --- Protein Conformations --- Proteids --- Biomolecules --- Polypeptides --- Proteomics --- Metabolism&delete& --- Protein metabolism disorders --- Proteins - Pathophysiology --- Proteins - Structure-activity relationships --- Proteins - Metabolism - Disorders
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Detailed characterization of fuzzy interactions will be of central importance for understanding the diverse biological functions of intrinsically disordered proteins in complex eukaryotic signaling networks. In this volume, Peter Tompa and Monika Fuxreiter have assembled a series of papers that address the issue of fuzziness in molecular interactions. These papers provide a broad overview of the phenomenon of fuzziness and provide compelling examples of the central role played by fuzzy interactions in regulation of cellular signaling processes and in viral infectivity. These contributions summarize the current state of knowledge in this new field and will undoubtedly stimulate future research that will further advance our understanding of fuzziness and its role in biomolecular interactions.
Fuzzy systems. --- Protein binding. --- Protein Conformation. --- Protein folding. --- Proteins -- Conformation. --- Proteins --- Protein folding --- Protein binding --- Fuzzy systems --- Protein Unfolding --- Molecular Conformation --- Investigative Techniques --- Protein Folding --- Molecular Structure --- Biophysical Processes --- Biochemical Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Biochemical Processes --- Chemical Processes --- Chemical Phenomena --- Biophysical Phenomena --- Physical Processes --- Phenomena and Processes --- Physical Phenomena --- Protein Denaturation --- Protein Conformation --- Human Anatomy & Physiology --- Health & Biological Sciences --- Animal Biochemistry --- Conformation --- Conformation. --- Systems, Fuzzy --- Binding, Protein --- Folding of proteins --- Protein conformation --- Folding --- Medicine. --- Molecular biology. --- Biomedicine. --- Biomedicine general. --- Molecular Medicine. --- Molecular biochemistry --- Molecular biophysics --- Biochemistry --- Biophysics --- Biomolecules --- Systems biology --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- System analysis --- Fuzzy logic --- Allosteric proteins --- Radioligand assay --- Health Workforce --- Biomedicine, general.
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Molecular biology --- Human biochemistry --- medische biochemie --- biochemie --- moleculaire biologie
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Detailed characterization of fuzzy interactions will be of central importance for understanding the diverse biological functions of intrinsically disordered proteins in complex eukaryotic signaling networks. In this volume, Peter Tompa and Monika Fuxreiter have assembled a series of papers that address the issue of fuzziness in molecular interactions. These papers provide a broad overview of the phenomenon of fuzziness and provide compelling examples of the central role played by fuzzy interactions in regulation of cellular signaling processes and in viral infectivity. These contributions summarize the current state of knowledge in this new field and will undoubtedly stimulate future research that will further advance our understanding of fuzziness and its role in biomolecular interactions.
Molecular biology --- Human biochemistry --- medische biochemie --- biochemie --- moleculaire biologie
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