Sociologie de la souveraineté : droit naturel et puissance souveraine

Nicolas Israël, professeur agrégé L’objet de ce séminaire a été de mesurer l’impact de la souveraineté politique sur le développement du droit naturel moderne. L’étude de la généalogie du droit naturel permet en effet d’Identifier la structure de la domination inhérente à la souveraineté. La théorie du droit naturel subjectif, au principe de la tradition des droits de l’homme, manifeste ainsi l’aptitude de la souveraineté politique à uniformiser voire à modeler la nature humaine. Emancipée du..

Les politiques des sciences. Séminaire alternatif

Michel Agier, Mathieu Arnoux, Alban Bensa, Alain Blum, Simona Cerutti, Francis Chateauraynaud, Robert Descimon, Nicolas Dodier, Jean-Claude Galey, Nancy L. Green, Christian Jouhaud, Christian Topalov, directeurs d’étudesIsabelle Backouche, Juliette Cadiot, Fanny Cosandey, Sophie Desrosiers, André Gunthert, Liora Israël, Cyril Lemieux, Mary Picone, Sylvain Piron, maîtres de conférencesIrène Bellier, directrice de recherche au CNRSMichel Barthélémy, Elie Haddad, Cédric Lomba, Birgit Müller, Sop..

Genealogia do direito moderno: o estado de necessidade

- Divulgação dos SUMÁRIOS das obras recentemente incorporadas ao acervo da Biblioteca Ministro Oscar Saraiva do STJ. Em respeito à Lei de Direitos Autorais, não disponibilizamos a obra na íntegra.- Localização na estante: 340.12 I85

L’arme du droit

coll. « Contester »International audienc

Role of mediatophore in connection with proteins of the active zone in synaptic transmission.

Mediatophore is a protein purified from Torpedo electric organ synaptosomes, which translocates acetylcholine (ACh) upon calcium action after reconstitution in artificial membranes. After expression in transfected cells, it endows these cells with a calcium-dependent release mechanism displaying clear quantal properties. The role of mediatophore in synaptic transmission is discussed in relation to the ultrastructural organization of the active zone and the cytosolic high calcium microdomains that transiently appear after presynaptic membrane depolarization

Incontinence anale : ne pas baisser les bras !

Incontinence anale : ne pas baisser les bras !. Printemps médical de Bourgogn

Organisation modulaire des séquences d'ADN répétées: application à l'étude des hélitrons non-autonomes dans le génome d'Arabidopsis thaliana

communication oral

Domain organization within repeated DNA sequences: application to the study of a family of transposable elements.

DomainOrganizer web page is available at www.irisa.fr/symbiose/DomainOrganizer/Motivation: The analysis of repeated elements in genomes is a fascinating domain of research that is lacking relevant tools for transposable elements (TEs), the most complex ones. The dynamics of TEs, which provides the main mechanism of mutation in some genomes, is an essential component of genome evolution. In this study we introduce a new concept of domain, a segmentation unit useful for describing the architecture of different copies of TEs. Our method extracts occurrences of a terminus-defined family of TEs, aligns the sequences, finds the domains in the alignment and searches the distribution of eachdomainin sequences. Afteraclassification step relative to the presence or the absence of domains, the method results in a graphical view of sequences segmented into domains. Results: Analysis of the new non-autonomous TE AtREP21 in the model plant Arabidopsis thaliana reveals copies of very different sizes and various combinations of domains which show the potential of our method

Domain organization within repeated DNA sequences: application to the study of a family of transposable elements.

DomainOrganizer web page is available at www.irisa.fr/symbiose/DomainOrganizer/Motivation: The analysis of repeated elements in genomes is a fascinating domain of research that is lacking relevant tools for transposable elements (TEs), the most complex ones. The dynamics of TEs, which provides the main mechanism of mutation in some genomes, is an essential component of genome evolution. In this study we introduce a new concept of domain, a segmentation unit useful for describing the architecture of different copies of TEs. Our method extracts occurrences of a terminus-defined family of TEs, aligns the sequences, finds the domains in the alignment and searches the distribution of eachdomainin sequences. Afteraclassification step relative to the presence or the absence of domains, the method results in a graphical view of sequences segmented into domains. Results: Analysis of the new non-autonomous TE AtREP21 in the model plant Arabidopsis thaliana reveals copies of very different sizes and various combinations of domains which show the potential of our method