Backbone Mutations in Transmembrane Domains of a Ligand-Gated Ion Channel: Implications for the Mechanism of Gating
Abstract
An approach to identify backbone conformational changes underlying nicotinic acetylcholine receptor (nAChR) gating was developed. Specific backbone peptide bonds were replaced with an ester, which disrupts backbone hydrogen bonds at the site of mutation. At a conserved proline residue (αPro221) in the first transmembrane (M1) domain, the amide-to-ester mutation provides receptors with near-normal sensitivity, although the natural amino acids tested other than Pro produce receptors that gate with a much larger EC₅₀ than normal. Therefore, a backbone hydrogen bond at this site may interfere with normal gating. In the αM2 domain, the amide-to-ester mutation yielded functional receptors at 15 positions, 3 of which provided receptors with >10-fold lower EC₅₀ than wild type. These results support a model for gating that includes significant changes of backbone conformation within the M2 domain.
Additional Information
© 1999 Cell Press. Under an Elsevier user license. We thank Cesar Labarca for gathering some of the data on conventional mutants in the M1 domain; Hong Dang for sharing unpublished information concerning the α 7 receptor; Sonia Pollit and Peter Schultz for samples of leucic acid and pipecolic acid; and members of our laboratory for much discussion. This research was supported by grants from the NIH (grants NS11756 and NS34407) and by National Research Service Awards to P. M. E. and Y. Z.Additional details
- Eprint ID
- 103214
- Resolver ID
- CaltechAUTHORS:20200514-152725398
- NS11756
- NIH
- NS34407
- NIH
- NIH Predoctoral Fellowship
- Created
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2020-05-14Created from EPrint's datestamp field
- Updated
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2021-11-16Created from EPrint's last_modified field