Literature DB >> 33972753

Constructing ion channels from water-soluble α-helical barrels.

Alistair J Scott1,2, Ai Niitsu1,3, Huong T Kratochvil4, Eric J M Lang1, Jason T Sengel5, William M Dawson1, Kozhinjampara R Mahendran6,7, Marco Mravic4, Andrew R Thomson1,8, R Leo Brady9,10, Lijun Liu11,12, Adrian J Mulholland1,10, Hagan Bayley6, William F DeGrado4, Mark I Wallace5, Derek N Woolfson13,14,15.   

Abstract

The design of peptides that assemble in membranes to form functional ion channels is challenging. Specifically, hydrophobic interactions must be designed between the peptides and at the peptide-lipid interfaces simultaneously. Here, we take a multi-step approach towards this problem. First, we use rational de novo design to generate water-soluble α-helical barrels with polar interiors, and confirm their structures using high-resolution X-ray crystallography. These α-helical barrels have water-filled lumens like those of transmembrane channels. Next, we modify the sequences to facilitate their insertion into lipid bilayers. Single-channel electrical recordings and fluorescent imaging of the peptides in membranes show monodisperse, cation-selective channels of unitary conductance. Surprisingly, however, an X-ray structure solved from the lipidic cubic phase for one peptide reveals an alternative state with tightly packed helices and a constricted channel. To reconcile these observations, we perform computational analyses to compare the properties of possible different states of the peptide.

Entities:  

Year:  2021        PMID: 33972753     DOI: 10.1038/s41557-021-00688-0

Source DB:  PubMed          Journal:  Nat Chem        ISSN: 1755-4330            Impact factor:   24.427


  62 in total

Review 1.  Coiled-Coil Design: Updated and Upgraded.

Authors:  Derek N Woolfson
Journal:  Subcell Biochem       Date:  2017

2.  A monodisperse transmembrane α-helical peptide barrel.

Authors:  Kozhinjampara R Mahendran; Ai Niitsu; Lingbing Kong; Andrew R Thomson; Richard B Sessions; Derek N Woolfson; Hagan Bayley
Journal:  Nat Chem       Date:  2016-11-14       Impact factor: 24.427

3.  Packing of apolar side chains enables accurate design of highly stable membrane proteins.

Authors:  Marco Mravic; Jessica L Thomaston; Maxwell Tucker; Paige E Solomon; Lijun Liu; William F DeGrado
Journal:  Science       Date:  2019-03-29       Impact factor: 47.728

Review 4.  The coming of age of de novo protein design.

Authors:  Po-Ssu Huang; Scott E Boyken; David Baker
Journal:  Nature       Date:  2016-09-15       Impact factor: 49.962

5.  Rational design of proteins that exchange on functional timescales.

Authors:  James A Davey; Adam M Damry; Natalie K Goto; Roberto A Chica
Journal:  Nat Chem Biol       Date:  2017-10-23       Impact factor: 15.040

6.  Accurate computational design of multipass transmembrane proteins.

Authors:  Peilong Lu; Duyoung Min; Frank DiMaio; Kathy Y Wei; Michael D Vahey; Scott E Boyken; Zibo Chen; Jorge A Fallas; George Ueda; William Sheffler; Vikram Khipple Mulligan; Wenqing Xu; James U Bowie; David Baker
Journal:  Science       Date:  2018-03-02       Impact factor: 47.728

7.  De novo design of a transmembrane Zn²⁺-transporting four-helix bundle.

Authors:  Nathan H Joh; Tuo Wang; Manasi P Bhate; Rudresh Acharya; Yibing Wu; Michael Grabe; Mei Hong; Gevorg Grigoryan; William F DeGrado
Journal:  Science       Date:  2014-12-19       Impact factor: 47.728

8.  Synthetic amphiphilic peptide models for protein ion channels.

Authors:  J D Lear; Z R Wasserman; W F DeGrado
Journal:  Science       Date:  1988-05-27       Impact factor: 47.728

Review 9.  De novo protein design, a retrospective.

Authors:  Ivan V Korendovych; William F DeGrado
Journal:  Q Rev Biophys       Date:  2020-02-11       Impact factor: 5.318

10.  Computational design of G Protein-Coupled Receptor allosteric signal transductions.

Authors:  Kuang-Yui Michael Chen; Daniel Keri; Patrick Barth
Journal:  Nat Chem Biol       Date:  2019-12-02       Impact factor: 15.040
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  6 in total

Review 1.  Protein Design: From the Aspect of Water Solubility and Stability.

Authors:  Rui Qing; Shilei Hao; Eva Smorodina; David Jin; Arthur Zalevsky; Shuguang Zhang
Journal:  Chem Rev       Date:  2022-08-03       Impact factor: 72.087

2.  Water Nanoconfined in a Hydrophobic Pore: Molecular Dynamics Simulations of Transmembrane Protein 175 and the Influence of Water Models.

Authors:  Charlotte I Lynch; Gianni Klesse; Shanlin Rao; Stephen J Tucker; Mark S P Sansom
Journal:  ACS Nano       Date:  2021-11-16       Impact factor: 15.881

3.  Spiers Memorial Lecture: Analysis and de novo design of membrane-interactive peptides.

Authors:  Huong T Kratochvil; Robert W Newberry; Bruk Mensa; Marco Mravic; William F DeGrado
Journal:  Faraday Discuss       Date:  2021-12-24       Impact factor: 4.394

Review 4.  Controlling Synthetic Cell-Cell Communication.

Authors:  Jefferson M Smith; Razia Chowdhry; Michael J Booth
Journal:  Front Mol Biosci       Date:  2022-01-05

5.  Origin of Proteolytic Stability of Peptide-Brush Polymers as Globular Proteomimetics.

Authors:  Hao Sun; Baofu Qiao; Wonmin Choi; Nicholas Hampu; Naneki C McCallum; Matthew P Thompson; Julia Oktawiec; Steven Weigand; Omar M Ebrahim; Monica Olvera de la Cruz; Nathan C Gianneschi
Journal:  ACS Cent Sci       Date:  2021-12-02       Impact factor: 14.553

6.  Assembly of transmembrane pores from mirror-image peptides.

Authors:  Smrithi Krishnan R; Kalyanashis Jana; Amina H Shaji; Karthika S Nair; Anjali Devi Das; Devika Vikraman; Harsha Bajaj; Ulrich Kleinekathöfer; Kozhinjampara R Mahendran
Journal:  Nat Commun       Date:  2022-09-14       Impact factor: 17.694
  6 in total

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