Ion Channels
 
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biology biology
 
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date published 26/11/2007
 
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section Summary
 
 
Structure and Function of Voltage-Gated Ion Channels Voltage-gated ion channels allow the flow of ions in response to changes in membrane voltage and are key elements in neuronal excitation and inhibition. Although ion channels can usually pass more than a single type of ion, voltage-gated channels are named according to the predominant ion that flows when the channel is open. Ion channels that are selective for Na+, K+, Ca2+, or Cl– have been described in neuronal membranes. Certain ion channels that are gated directly by chemical neurotransmitters such as glutamate and acetylcholine are selective for Na+, K+, and Ca2+ but exclude Cl– and are called nonselective cationic channels.
 
 
section Table of Contents
 
  1. Sodium (Na+) Channels Na+ channels are primarily responsible for the fast upstroke of action potentials, although in some neurons Na+ channels also contribute to lower-level depolarizations and pacemaker firing.
  2. Relations between primary protein structure and ion channel function in Na+ channels have been examined using mutations of specific amino acid residues.
  3. The net effect is similar to the scorpion toxins. Finally, certain local anesthetic drugs, including lidocaine and procaine, block Na+ channels by binding reversibly to sites within the hydrophobic regions of the ion channel.
  4. Delayed-rectifier channels open slowly and show little inactivation during prolonged depolarizations.
  5. M channels represent a class of K+ channels that are activated in a time- and voltage-dependent fashion but are blocked by the neurotransmitter, acetylcholine, acting at muscarinic receptors.
  6. KATP channels exist in the CNS and appear to be involved in regulating the release of certain neurotransmitters and perhaps in determining the response of some neurons to changes in intracellular energy levels.
  7. Calcium (Ca2+) Channels Because Ca2+ is involved in numerous cellular events including enzyme activation, gene expression, and neurotransmitter release, the regulation of intracellular Ca2+ levels is of major importance to neurons.
  8. Most structural information about Ca2+ channels comes from skeletal muscle HVA Ca2+ channels.
 
 
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