1000 resultados para Hörmann, Ludwig v., 1837-


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Erétrie est l'une de ces cités qui ont fait la grandeur de la Grèce antique. La ville a conservé d'importants vestiges, dont plusieurs chefs-d'oeuvre artistiques. Depuis 1964, des archéologues suisses en poursuivent l'exploration commencée il y a plus d'un siècle. De ces recherches, menées en étroite collaboration avec les autorités grecques, est né le projet d'offrir pour la première fois au public un aperçu de la vie d'une cité grecque à travers quelque 500 objets de prestige et de la vie courante. L'ouvrage accompagne une exposition, organisée par l'Ecole suisse d'archéologie en Grèce, en collaboration avec l'Antikenmuseum Basel und Sammlung Ludwig

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Low-threshold (T-type) Ca(2+) channels encoded by the Ca(V)3 genes endow neurons with oscillatory properties that underlie slow waves characteristic of the non-rapid eye movement (NREM) sleep EEG. Three Ca(V)3 channel subtypes are expressed in the thalamocortical (TC) system, but their respective roles for the sleep EEG are unclear. Ca(V)3.3 protein is expressed abundantly in the nucleus reticularis thalami (nRt), an essential oscillatory burst generator. We report the characterization of a transgenic Ca(V)3.3(-/-) mouse line and demonstrate that Ca(V)3.3 channels are indispensable for nRt function and for sleep spindles, a hallmark of natural sleep. The absence of Ca(V)3.3 channels prevented oscillatory bursting in the low-frequency (4-10 Hz) range in nRt cells but spared tonic discharge. In contrast, adjacent TC neurons expressing Ca(V)3.1 channels retained low-threshold bursts. Nevertheless, the generation of synchronized thalamic network oscillations underlying sleep-spindle waves was weakened markedly because of the reduced inhibition of TC neurons via nRt cells. T currents in Ca(V)3.3(-/-) mice were <30% compared with those in WT mice, and the remaining current, carried by Ca(V)3.2 channels, generated dendritic [Ca(2+)](i) signals insufficient to provoke oscillatory bursting that arises from interplay with Ca(2+)-dependent small conductance-type 2 K(+) channels. Finally, naturally sleeping Ca(V)3.3(-/-) mice showed a selective reduction in the power density of the σ frequency band (10-12 Hz) at transitions from NREM to REM sleep, with other EEG waves remaining unaltered. Together, these data identify a central role for Ca(V)3.3 channels in the rhythmogenic properties of the sleep-spindle generator and provide a molecular target to elucidate the roles of sleep spindles for brain function and development.

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Collection : Les archives de la Révolution française ; 6.2.1769

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Référence bibliographique : Rol, 55158