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200 13$aLe classicisme ou le genie francais $eCe qui se concoit bien s'enonce clairement /$fAgnes Fleury
210  1$a[Place of publication not identified] :$c50 Minutes,$d2015.
215   $a1 online resource (33 p.)
225 1 $aMouvements littéraires ;$vv.2
300   $aDescription based upon print version of record.
311   $a2-8062-6210-0 
327   $aPage de titre; Le classicisme; Contexte; Monarchie absolue et classicisme; Les salons, creuset de la langue classique; La cour de Versailles comme arbitre du bon goût; La question de la grâce et le jansénisme; Caractéristiques; Imiter les Anciens : jusqu'où ?; Le culte de la vraisemblance, de l'équilibre et de la raison; Les classiques : des humanistes; L'âge d'or du théâtre; Principaux représentants; Pierre Corneille, l'homme du Cid; Jean Racine, le maître de la tragédie; Molière, l'artisan du rire; Jean de la Fontaine et le succès des Fables; Répercussions; En résumé; Pour aller plus loin
327   $aCopyright
330   $a Décryptez la littérature classique en moins d'une heure !Le classicisme émerge en Europe au XVIIe siècle, mais en France, il atteint surtout son apogée dans les années 1660-1680 à la cour de Louis XIV. Véritable âge d'or de la littérature et du théâtre, cette époque se caractérise avant tout par son culte de la vraisemblance, de l'équilibre et de la raison. Aujourd'hui encore, le classicisme est assimilé au génie français. Ce livre vous permettra d'en savoir plus sur :- Le contexte culturel dans lequel le classicisme s'inscrit- Les caractéristiques et spécificités du classicisme en France- Un
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200 00$aSystems biology /$fedited by Robert A. Meyers
205   $a1st ed.
210   $aWeinheim $cWiley-Blackwell$d2012
215   $a1 online resource (728 p.)
225 0 $aAdvances in molecular biology and medicine
300   $aDescription based upon print version of record.
311 08$a9783527326075 
311 08$a3527326073 
320   $aIncludes bibliographical references and index.
327   $aSystems Biology; Contents; Preface and Commentary; List of Contributors; Part I Biological Basis of Systems Biology; 1 Systems Biology; 1 Introduction; 2 What Is Systems Understanding?; 3 Why Are Biological Systems Different?; 3.1 Biological Complexity; 3.2 Global Properties of Biological Systems; 4 Systems Biology Modeling; 4.1 Network Biology; 4.2 Dynamic Network Models; 4.3 Reaction-Diffusion Models; 4.4 Holism versus Reductionism: The Global Dynamics of Networks; 4.5 Modeling Resources and Standards; 5 Future Prospects of Systems Biology; 5.1 Synthetic Biology
327   $a5.2 Conclusions: Where Are We?References; 2 Developmental Cell Biology; 1 Historical Perspective; 1.1 Origins of Cell Biology; 1.2 Origins of Developmental Biology; 1.3 Relationship between Cell and Developmental Biology; 2 Cell Activities Underlying Development; 2.1 Intracellular Signal Transduction; 2.2 Cell Signaling; 2.3 Cell-Cell Interactions; 2.4 Cell-Matrix Interaction; 2.3 Cell-Cell Interactions; 2.4 Cell-Matrix Interaction; 3 Cell Differentiation; 3 Cell Differentiation; 4 The Cell Cycle and Development; 4 The Cell Cycle and Development; 5 Organogenesis; 6 Stem Cells; 5 Organogenesis
327   $a6 Stem Cells7 Chimeras; 7 Chimeras; 8 microRNAs (miRNAs); 9 In vitro Fertilization; References; 8 microRNAs (miRNAs); 9 In vitro Fertilization; References; 3 Principles and Applications of Embryogenomics; 3 Principles and Applications of Embryogenomics; 1 Introduction; 1 Introduction; 2 Approaches; 2.1 Overview; 2 Approaches; 2.1 Overview; 2.2 Large-Scale Analysis of Gene Expression at the Transcriptome Level; 2.2 Large-Scale Analysis of Gene Expression at the Transcriptome Level; 2.3 Large-Scale Analysis of Gene Expression at the Proteome Level
327   $a2.4 Development and Evolution: Comparative Genomics2.5 Functional Genomics/Large-Scale Manipulation of Expression; 2.6 Computational Approaches; 3 Model Organisms for Embryogenomics; 3.1 Non-Mammalian Animals; 3.2 Mammalian; 3.3 Plants; 3.4 Suitability of Approaches for Particular Model Organisms Applied to the Study of Development; 4 Conclusions; References; 4 Interactome; 1 Introduction; 2 Experimental Techniques for DetectingProtein Interactions; 3 Computational Prediction of Protein Interactions; 3.1 Interaction Prediction from the Gene Patterns Across Genomes
327   $a3.2 Predicting Interaction from Sequence Coevolution3.3 Domain Interactions; 3.4 Coexpression Networks; 4 Exploring the Topology of the Interactome; 4.1 Global Properties; 4.2 Network Centrality and Protein Essentiality; 4.3 Network Modules; 4.4 Network Motifs and Related Concepts; 5 Comparing Protein-Protein Interaction Networks; 6 Databases of Protein and Domain Interactions; 7 Applications; 7.1 Predicting Protein Function; 7.2 Application to Human Diseases; 8 Looking Ahead: Towards the Dynamic Interactome; Acknowledgments; References; 5 Protein Abundance Variation; 1 Introduction
327   $a2 Biochemical Aspects Affecting Protein Abundance in Prokaryotes
330   $aSystems biology is a relatively new biological study field that focuses on the systematic study of complex interactions in biological systems, thus using a new perspective (integration instead of reduction) to study them. Particularly from year 2000 onwards, the term is used widely in the biosciences, and in a variety of contexts. Systems biology is the study of the interconnected aspect of molecular, cellular, tissue, whole animal and ecological processes, and comprises mathematical and mechanistic studies of dynamical, mesoscopic, open, spatiotemporally defined, nonlinear, complex syste
410  0$aCurrent Topics from the Encyclopedia of Molecular Cell Biology and Molecular Medicine
606   $aSystems biology
606   $aBiology
615  0$aSystems biology.
615  0$aBiology.
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