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New Insights in Skeletal Muscle Channelopathies - A Rapidly Expanding Field
Jean-François Desaphy is a co-inventor, with no personal financial interest, of a European patent assigned to a pharmaceutical company regarding the use of a company drug in myotonic syndromes.
Recent advances in voltage-gated sodium channels, their pharmacology and related diseases
It is our pleasure to co-edit a Research Topic on voltage-gated sodium channels pharmacology and related diseases. We are in a process to inviting submissions of novel research article, state-of-the-art review papers and viewpoints on this topic. All the papers will follow a peer-review process according to the guidelines of Frontiers in Pharmacology. Voltage-gated sodium channel play a critical role in electrical signalling in many excitable cells such as neurons, skeletal muscle cells and cardiac myocytes. They are responsible for the initiation and the propagation of action potential, allowing integration of higher processes. They are formed by one alpha subunit that forms the pore of the...
Tissue-specific vascular endothelial signals and vector targeting. Part A
The field of genetics is rapidly evolving and new medical breakthroughs are occuring as a result of advances in knowledge of genetics. This series continually publishes imporatnt reviews of the broadest interest to geneticists and their colleagues in affiliated disciplines. * Provides contrasting roles of VEGF, giving researchers a better understanding of the underlying mechanisms of VEGF *Includes chapters that review research employing a variety of organisms, allowing researchers to compare and contrast *Focuses on material that translates basic research to real-life treatment applications, showing primary researchers how the basic science is being used in the clinical setting.
Advances in Genetics
The field of genetics is rapidly evolving and new medical breakthroughs are occurring as a result of advances in knowledge gained from genetics research. This series continually publishes important reviews of the broadest interest to geneticists and their colleagues in affiliated disciplines.
Taurine 4
Mitochondria from mammalian tissues possess an elaborate system for 2+ 2+ transporting Ca across their inner membrane which consists of Ca import, 2+ via the Ca uniporter, in response to the mitochondrial membrane 2+ + potential ?? and of Ca release by an antiport system in exchange for H + 9,23 or Na (see Fig. l) . Because the uniporter is dependent upon the external 2+ 2+ 2+ 2+ Ca concentration ([Ca ]), mitochondria accumulate Ca until the [Ca ] o o 2+ decreases to the level at which the uniporter activity balances the Ca efflux. 2+ The [Ca ] at which the uniporter and efflux activities are equal is defined o the “setpoint” andcorresponds to values between 0.3-3μM. 2+ Figure 1. The Ca transport system of the inner membrane of mammalian mitochondria. U, + 2+ + + uniporter. I, Na -independent efflux mechanism or Ca /2H exchanger. D, Na -dependent 2+ + efflux mechanism or Ca /2Na exchanger. PTP, permeability transition pore. FP, 11 flavoprotein. ?? membrane potential. ? pH gradient. Adapted from .
