Comparison of permeation mechanisms in sodium-selective ion channels

Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na+-selective transport remain obscured by diverse protein chemistries within this family of ion channels. In particular, bacterial and mammalian sodium channels are known to...

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Published inNeuroscience letters Vol. 700; pp. 3 - 8
Main Authors Boiteux, Céline, Flood, Emelie, Allen, Toby W.
Format Journal Article
LanguageEnglish
Published Ireland Elsevier B.V 01.05.2019
Subjects
Acid sensing ion channel
Acid Sensing Ion Channels - chemistry
Acid Sensing Ion Channels - physiology
Animals
Bacterial Proteins - chemistry
Bacterial Proteins - physiology
Humans
Ion Channel Gating
Ion permeation
Ion selectivity
Molecular dynamics simulation
Permeability
Protein Conformation
Voltage-gated sodium channel
Voltage-Gated Sodium Channels - chemistry
Voltage-Gated Sodium Channels - physiology
Acid sensing ion channel
Molecular dynamics simulation
Ion permeation
Voltage-gated sodium channel
Ion selectivity
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Abstract Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na+-selective transport remain obscured by diverse protein chemistries within this family of ion channels. In particular, bacterial and mammalian sodium channels are known to exhibit similar relative ion permeabilities for Na+ over K+ ions, despite their distinct signature EEEE and DEKA sequences. Atomic-level molecular dynamics simulations using high-resolution bacterial channel structures and mammalian channel models have begun to describe how these sequences lead to analogous high field strength ion binding sites that drive Na+ conduction. Similar complexes have also been identified in unrelated acid sensing ion channels involving glutamate and aspartate side chains that control their selectivity. These studies suggest the possibility of a common origin for Na+ selective binding and transport.
AbstractList Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na+-selective transport remain obscured by diverse protein chemistries within this family of ion channels. In particular, bacterial and mammalian sodium channels are known to exhibit similar relative ion permeabilities for Na+ over K+ ions, despite their distinct signature EEEE and DEKA sequences. Atomic-level molecular dynamics simulations using high-resolution bacterial channel structures and mammalian channel models have begun to describe how these sequences lead to analogous high field strength ion binding sites that drive Na+ conduction. Similar complexes have also been identified in unrelated acid sensing ion channels involving glutamate and aspartate side chains that control their selectivity. These studies suggest the possibility of a common origin for Na+ selective binding and transport.
Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na -selective transport remain obscured by diverse protein chemistries within this family of ion channels. In particular, bacterial and mammalian sodium channels are known to exhibit similar relative ion permeabilities for Na over K ions, despite their distinct signature EEEE and DEKA sequences. Atomic-level molecular dynamics simulations using high-resolution bacterial channel structures and mammalian channel models have begun to describe how these sequences lead to analogous high field strength ion binding sites that drive Na conduction. Similar complexes have also been identified in unrelated acid sensing ion channels involving glutamate and aspartate side chains that control their selectivity. These studies suggest the possibility of a common origin for Na selective binding and transport.
Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na + -selective transport remain obscured by diverse protein chemistries within this family of ion channels. In particular, bacterial and mammalian sodium channels are known to exhibit similar relative ion permeabilities for Na + over K + ions, despite their distinct signature EEEE and DEKA sequences. Atomic-level molecular dynamics simulations using high-resolution bacterial channel structures and mammalian channel models have begun to describe how these sequences lead to analogous high field strength ion binding sites that drive Na + conduction. Similar complexes have also been identified in unrelated acid sensing ion channels involving glutamate and aspartate side chains that control their selectivity. These studies suggest the possibility of a common origin for Na + selective binding and transport.
Author Flood, Emelie
Boiteux, Céline
Allen, Toby W.
AuthorAffiliation 1 School of Science, RMIT University, Melbourne, Australia
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  surname: Allen
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Keywords Acid sensing ion channel
Molecular dynamics simulation
Ion permeation
Voltage-gated sodium channel
Ion selectivity
Language English
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Snippet Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na+-selective transport remain...
Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na -selective transport remain...
Voltage-gated sodium channels are the molecular components of electrical signaling in the body, yet the molecular origins of Na + -selective transport remain...
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SubjectTerms Acid sensing ion channel
Acid Sensing Ion Channels - chemistry
Acid Sensing Ion Channels - physiology
Animals
Bacterial Proteins - chemistry
Bacterial Proteins - physiology
Humans
Ion Channel Gating
Ion permeation
Ion selectivity
Molecular dynamics simulation
Permeability
Protein Conformation
Voltage-gated sodium channel
Voltage-Gated Sodium Channels - chemistry
Voltage-Gated Sodium Channels - physiology
Title Comparison of permeation mechanisms in sodium-selective ion channels
URI https://dx.doi.org/10.1016/j.neulet.2018.05.036
https://www.ncbi.nlm.nih.gov/pubmed/29807068
https://search.proquest.com/docview/2046606298
https://pubmed.ncbi.nlm.nih.gov/PMC6592624
Volume 700
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