Background Gene editing technology has provided researchers with the ability to modify genome sequences in almost all eukaryotes. Gene-edited cell lines are being used with increasing frequency in both bench research and targeted therapy. Despite the great importance and universality of gene editing, however, precision and efficiency are hard to achieve with the prevailing editing strategies, such as homology-directed DNA repair (HDR) and the use of base editors (BEs). Results & Discussion Our group has developed a novel gene editing technology to indicate DNA variation with an independent selection marker using an HDR strategy, which we named Gene Editing through an Intronic Selection marker (GEIS). GEIS uses a simple process to avoid nonhomologous end joining (NHEJ)-mediated false-positive effects and achieves editing efficiency as high as 91% without disturbing endogenous gene splicing and expression. We re-examined the correlation of the conversion tract and editing efficiency, and our data suggest that GEIS has the potential to edit approximately 99% of gene editing targets in human and mouse cells. The results of further comprehensive analysis suggest that the strategy may be useful for introducing multiple DNA variations in cells.