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The brain is an extremely energy consuming part of the body, which makes it dangerously vulnerable to metabolic stress. It’s no wonder then that abnormalities of brain energy metabolism are becoming the usual suspects and a hallmark of many neurodegenerative diseases. The socioeconomic burden of these alone begs for urgent measures to be taken for better understanding both fundamental and applied problems of neuroenergetics and neuroprotection. For instance, brain imaging reveals that the diseased brains of Alzheimer’s patients cannot efficiently utilize the vital brain fuel, glucose. The resulting energy deficit causes neuronal hyperactivity, seizures and cognitive impairments. Administ...
How new genetic techniques are revolutionizing the study of neural circuits for both invertebrate and vertebrate systems. Understanding how specific types of neurons contribute to behaviour is an ambitious goal. For invertebrate model systems (e.g. worms, flies), neurons in the brain are often too small to be studied routinely by electrophysiological approaches. For vertebrates, large ensembles of cells have to be studied, and these cells are often distributed over considerable volumes e.g. GABAergic interneurons in neocortex. Cell type-selective manipulations may be a way forward for treating illness. Before such aims can be realized, or even appreciated as feasible, the brain circuitry in ...
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The research field of somatosensory processing in mammals has experienced revolutionary changes in recent years. Accumulation of basic and clinical data has greatly accelerated, and new phenomena have emerged. With the aid of new, refined methods, molecular and cellular changes have been described, underlying the signal transduction-transmission between the internal/external environment and the central nervous system have been described. The discovery of the interaction between the nervous and the immune system has, for example changed our view on the development of inflammatory diseases, while the cloning of genes encoding different trophic factors has boosted studies revealing profound cha...
Fluorescent proteins are intimately connected to research in the life sciences. Tagging of gene products with fluorescent proteins has revolutionized all areas of biosciences, ranging from fundamental biochemistry to clinical oncology, to environmental research. The discovery of the Green Fluorescent Protein, its first, seminal application and the ingenious development of a broad palette of fluorescence proteins of other colours, was consequently recognised with the Nobel Prize for Chemistry in 2008. Fluorescent Proteins II highlights the physicochemical and biophysical aspects of fluorescent protein technology beyond imaging. It is tailored to meet the needs of physicists, chemists and biologists who are interested in the fundamental properties of fluorescent proteins, while also focussing on specific applications. The implementations described are cutting-edge studies and exemplify how the physical and chemical properties of fluorescent proteins can stimulate novel findings in life sciences.
The advent of next-generation sequencing technologies has resulted in a remarkable increase our understanding of human and animal neurological disorders through the identification of disease causing or protective sequence variants. However, in many cases, robust disease models are required to understand how changes at the DNA, RNA or protein level affect neuronal and synaptic function, or key signalling pathways. In turn, these models may enable understanding of key disease processes and the identification of new targets for the medicines of the future. This e-book contains original research papers and reviews that highlight either the impact of next-generation sequencing in the understanding of neurological disorders, or utilise molecular, cellular, and whole-organism models to validate disease-causing or protective sequence variants.
« Ces lignes sont élaborées sous l’égide d’une des plus belles et des plus énigmatiques métaphores jamais écrites, celle du combat de Jacob avec l’ange. » Henri Korn soutient ici que l’enjeu symbolique de cette lutte de Jacob avec lui-même est le droit à la connaissance en dépit de l’interdiction divine. Enfant d’immigrés polonais juifs laïcs ayant survécu à la France de Vichy avant de devenir un neurobiologiste de renommée mondiale, Henri Korn a toujours porté haut la liberté de penser. Il retrace dans ce livre, conçu comme un roman, les hasards et les éblouissements d’une vie consacrée à la science, et comment le vécu familial, culturel et social a pu i...
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