Selectable one-step PCR-mediated integration of a degron for rapid depletion of endogenous human proteins.

Manipulation of protein stability with ligand-regulated degron fusions is a powerful method for investigating gene function. We developed a selectable cassette for easy C-terminal tagging of endogenous human proteins with the E. coli dihydrofolate reductase (eDHFR) degron using CRISPR/Cas9 genome editing. This cassette permits high-efficiency recovery of correct integration events using an in-frame self-cleaving 2A peptide and the puromycin resistance gene. PCR amplified donor eDHFR cassette fragments with 100 bases of homology on each end are integrated by homology-directed repair (HDR) of guide RNA (gRNA)-targeted double-stranded DNA breaks at the 3' ends of open reading frames (ORFs). As proof of principle, we generated cell lines in which three endogenous proteins were tagged with the eDHFR degron. When the antibiotic trimethoprim is removed from the media, each of the eDHFR-tagged proteins was depleted by >90% within 2-4 h, and this depletion was reversed by re-addition of trimethoprim. Since puromycin selection permits recovery of in-frame degron fusions with high efficiency using only 100-bp long regions of homology, this method should be applicable on a genome-wide scale for generating libraries of conditional mutant cell lines.