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Engineering E. coli strains using antibiotic-resistance-gene-free plasmids

Matthew B. Amrofell, Sunaina Rengarajan, Scott Vo, Erick S Ramirez Tovar, Larissa LoBello, Gautam Dantas, Tae Seok Moon

2023Cell Reports Methods32 citationsDOIOpen Access PDF

Abstract

We created a generalizable pipeline for antibiotic-resistance-gene-free plasmid (ARGFP)-based cloning using a dual auxotrophic- and essential-gene-based selection strategy. We use auxotrophic selection to construct plasmids in engineered E. coli DH10B cloning strains and both auxotrophic- and essential-gene-based selection to (1) select for recombinant strains and (2) maintain a plasmid in E. coli Nissle 1917, a common chassis for engineered probiotic applications, and E. coli MG1655, the laboratory "wild-type" E. coli strain. We show that our approach has comparable efficiency to that of antibiotic-resistance-gene-based cloning. We also show that the double-knockout Nissle and MG1655 strains are simple to transform with plasmids of interest. Notably, we show that the engineered Nissle strains are amenable to long-term plasmid maintenance in repeated culturing as well as in the mouse gut, demonstrating the potential for broad applications while minimizing the risk of antibiotic resistance spread via horizontal gene transfer.

Topics & Concepts

PlasmidBiologyAuxotrophyEscherichia coliCloning (programming)GeneMicrobiologyAntibiotic resistanceGene knockoutGeneticsAntibioticsProgramming languageComputer scienceCRISPR and Genetic EngineeringBacterial Genetics and BiotechnologyViral Infectious Diseases and Gene Expression in Insects
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