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Literature DB >> 26814170

A Tunable Protein Piston That Breaks Membranes to Release Encapsulated Cargo.

Jessica K Polka^1,2, Pamela A Silver^1,2.

Abstract

Movement of molecules across membranes in response to a stimulus is a key component of cellular programming. Here, we characterize and manipulate the response of a protein-based piston capable of puncturing membranes in a pH-dependent manner. Our protein actuator consists of modified R bodies found in a bacterial endosymbiont of paramecium. We express and purify R bodies from in E. coli; these pistons undergo multiple rounds of rapid extension and retraction. We developed a high throughput screen for mutants with altered pH sensitivity for tuning of the extension process. We show that the R bodies are capable of acting as synthetic pH-dependent pistons that can puncture E. coli membranes to release the trapped content. As such, these protein machines present a novel way to selectively rupture membrane compartments and will be important for programming cellular compartmentalization.

Entities: Species

Keywords: Kappa particles; bioengineering; biotechnology; conformational change; protein assembly; refractile bodies

Mesh：

Substances：

Year: 2016 PMID： 26814170 DOI： 10.1021/acssynbio.5b00237

Source DB: PubMed Journal: ACS Synth Biol ISSN： 2161-5063 Impact factor: 5.110

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Cited

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