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image/svg+xml Jakob Voss, based on art designer at PLoS, modified by Wikipedia users Nina and Beao Closed Access logo, derived from PLoS Open Access logo. This version with transparent background. http://commons.wikimedia.org/wiki/File:Closed_Access_logo_transparent.svg Jakob Voss, based on art designer at PLoS, modified by Wikipedia users Nina and Beao Protein Sciencearrow_drop_down
image/svg+xml Jakob Voss, based on art designer at PLoS, modified by Wikipedia users Nina and Beao Closed Access logo, derived from PLoS Open Access logo. This version with transparent background. http://commons.wikimedia.org/wiki/File:Closed_Access_logo_transparent.svg Jakob Voss, based on art designer at PLoS, modified by Wikipedia users Nina and Beao
Protein Science
Article . 2023 . Peer-reviewed
License: Wiley Online Library User Agreement
Data sources: Crossref
Protein Science
Article . 2023
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Photomodulation of the ASIC1a acidic pocket destabilizes the open state

Authors: Matthew L. Rook; Tyler W. McCullock; Tyler Couch; John D. Lueck; David M. MacLean;

Photomodulation of the ASIC1a acidic pocket destabilizes the open state

Abstract

AbstractAcid‐sensing ion channels (ASICs) are important players in detecting extracellular acidification throughout the brain and body. ASICs have large extracellular domains containing two regions replete with acidic residues: the acidic pocket, and the palm domain. In the resting state, the acidic pocket is in an expanded conformation but collapses in low pH conditions as the acidic side chains are neutralized. Thus, extracellular acidification has been hypothesized to collapse the acidic pocket that, in turn, ultimately drives channel activation. However, several observations run counter to this idea. To explore how collapse or mobility of the acidic pocket is linked to channel gating, we employed two distinct tools. First, we incorporated the photocrosslinkable noncanonical amino acids (ncAAs) 4‐azido‐L‐phenylalanine (AzF) or 4‐benzoyl‐L‐phenylalanine (BzF) into several positions in the acidic pocket. At both E315 and Y318, AzF incorporation followed by UV irradiation led to right shifts in pH response curves and accelerations of desensitization and deactivation, consistent with restrictions of acidic pocket mobility destabilizing the open state. Second, we reasoned that because Cl− ions are found in the open and desensitized structures but absent in the resting state structures, Cl− substitution would provide insight into how stability of the pocket is linked to gating. Anion substitution resulted in faster deactivation and desensitization, consistent with the acidic pocket regulating the stability of the open state. Taken together, our data support a model where acidic pocket collapse is not essential for channel activation. Rather, collapse of the acidic pocket influences the stability of the open state of the pore.

Related Organizations
Keywords

Acid Sensing Ion Channels, Molecular Conformation, Hydrogen-Ion Concentration

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selected citations
These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
BIP!Citations provided by BIP!
popularity
This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
BIP!Popularity provided by BIP!
influence
This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
BIP!Influence provided by BIP!
impulse
This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
BIP!Impulse provided by BIP!
6
Top 10%
Average
Top 10%
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