A compact vector for scarless gene editing in E. coli
Listed in
This article is not in any list yet, why not save it to one of your lists.Abstract
Here we present pCASKD, a single-plasmid system for scarless chromosomal editing in Escherichia coli. Our plasmid pCASKD integrates CRISPR-Cas9-mediated counterselection, Lambda-Red recombineering, and temperature-sensitive plasmid curing into a 12 Kb vector to enable kilobase-scale insertions and deletions using a linear dsDNA donor and homologous recombination. Using the flagellar stator motAB locus as a model, we demonstrate that pCASKD enables efficient knock-in and knock-out edits with lower donor DNA input and reduced false positives compared with its parent, multi-plasmid system, No-SCAR. Using a single plasmid reduces transformation steps, accelerates screening, and increases the frequency of correctly edited clones. The protocol can be completed in five days, with potential for further optimization, offering a compact and efficient alternative for microbial genome engineering.
