Results 301 to 310 of about 318,767 (318)
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Current Opinion in Pediatrics, 2001
Diseases as different as cardiac arrhythmias, epilepsy, myotonia, malignant hyperthermia, familial hyperinsulinism, and Bartter syndrome have all been linked to mutations in genes encoding ion channels. This has been made possible by an exciting and fruitful collaboration between clinicians, geneticists, and physiologists. It has led to a more detailed
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Diseases as different as cardiac arrhythmias, epilepsy, myotonia, malignant hyperthermia, familial hyperinsulinism, and Bartter syndrome have all been linked to mutations in genes encoding ion channels. This has been made possible by an exciting and fruitful collaboration between clinicians, geneticists, and physiologists. It has led to a more detailed
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2007
In this chapter, a detailed protocol is given for ion-channel reconstitution in the two most used model membranes: planar bilayers and liposomes. In the planar bilayer section, methods are described for the expression of ion channels in Xenopus laevis oocytes, the isolation of their membranes, the insertion of ion channels into the bilayer by vesicle ...
Francisco J, Morera +4 more
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In this chapter, a detailed protocol is given for ion-channel reconstitution in the two most used model membranes: planar bilayers and liposomes. In the planar bilayer section, methods are described for the expression of ion channels in Xenopus laevis oocytes, the isolation of their membranes, the insertion of ion channels into the bilayer by vesicle ...
Francisco J, Morera +4 more
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Biochemical Society Transactions, 2007
Neuronal excitability is determined by the flux of ions through ion channels. Many types of ion channels are expressed in the central nervous system, each responsible for its own aspect of neuronal excitability, from postsynaptic depolarization to action potential generation to neurotransmitter release.
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Neuronal excitability is determined by the flux of ions through ion channels. Many types of ion channels are expressed in the central nervous system, each responsible for its own aspect of neuronal excitability, from postsynaptic depolarization to action potential generation to neurotransmitter release.
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Current Opinion in Neurobiology, 1991
It now appears that most of the ion channels discovered in glia are similar or identical to their neuronal equivalents. Recent studies show that glial cells can sense and respond to neuronal signals and that neurons may influence both the development and maintenance of ion channel expression of certain glial cells. Although they lack excitability, glia
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It now appears that most of the ion channels discovered in glia are similar or identical to their neuronal equivalents. Recent studies show that glial cells can sense and respond to neuronal signals and that neurons may influence both the development and maintenance of ion channel expression of certain glial cells. Although they lack excitability, glia
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1998
There are specific alterations in the structure or function of ion channels in the epileptic brain. Some of these alterations may promote hyperexcitability, whereas others may protect neurons from the deleterious effects of epileptic discharges. With the use of human tissue resected from epilepsy patients and the comparison of cellular properties to ...
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There are specific alterations in the structure or function of ion channels in the epileptic brain. Some of these alterations may promote hyperexcitability, whereas others may protect neurons from the deleterious effects of epileptic discharges. With the use of human tissue resected from epilepsy patients and the comparison of cellular properties to ...
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Designing Biomimic Two-Dimensional Ionic Transport Channels for Efficient Ion Sieving
ACS Nano, 2021Mengchen Zhang +2 more
exaly
Ion Exchange Membranes: Constructing and Tuning Ion Transport Channels
Advanced Functional Materials, 2022Peipei Zuo, Ziang Xu, Jin Ran
exaly
Self‐Expanding Ion‐Transport Channels on Anodes for Fast‐Charging Lithium‐Ion Batteries
Angewandte Chemie - International Edition, 2022Lu Qi, Guoxing Li, Yuliang Li
exaly
Ion channels versus ion pumps: the principal difference, in principle
Nature Reviews Molecular Cell Biology, 2009David C Gadsby, Gadsby David C
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