Litcius/Paper detail

A genetic toolkit and gene switches to limit Mycoplasma growth for biosafety applications

Alícia Broto, Erika Gaspari, Samuel Miravet‐Verde, Vítor A. P. Martins dos Santos, Mark Isalan

2022Nature Communications26 citationsDOIOpen Access PDF

Abstract

Mycoplasmas have exceptionally streamlined genomes and are strongly adapted to their many hosts, which provide them with essential nutrients. Owing to their relative genomic simplicity, Mycoplasmas have been used to develop chassis for biotechnological applications. However, the dearth of robust and precise toolkits for genomic manipulation and tight regulation has hindered any substantial advance. Herein we describe the construction of a robust genetic toolkit for M. pneumoniae, and its successful deployment to engineer synthetic gene switches that control and limit Mycoplasma growth, for biosafety containment applications. We found these synthetic gene circuits to be stable and robust in the long-term, in the context of a minimal cell. With this work, we lay a foundation to develop viable and robust biosafety systems to exploit a synthetic Mycoplasma chassis for live attenuated vectors for therapeutic applications.

Topics & Concepts

Synthetic biologyBiosafetyChassisBiologyContext (archaeology)Computational biologyComputer scienceGenomeExploitGeneGeneticsBiotechnologyComputer securityEngineeringPaleontologyStructural engineeringMicrobial infections and disease researchBacteriophages and microbial interactionsAquaculture disease management and microbiota
A genetic toolkit and gene switches to limit Mycoplasma growth for biosafety applications | Litcius