A compact vector for scarless gene editing in E. coli
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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.
