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Harnessing eukaryotic retroelement proteins for transgene insertion into human safe-harbor loci

Xiaozhu Zhang, Briana Van Treeck, Connor A. Horton, Jeremy J. R. McIntyre, Sarah M. Palm, Justin L Shumate, Kathleen Collins

2024Nature Biotechnology55 citationsDOIOpen Access PDF

Abstract

Current approaches for inserting autonomous transgenes into the genome, such as CRISPR-Cas9 or virus-based strategies, have limitations including low efficiency and high risk of untargeted genome mutagenesis. Here, we describe precise RNA-mediated insertion of transgenes (PRINT), an approach for site-specifically primed reverse transcription that directs transgene synthesis directly into the genome at a multicopy safe-harbor locus. PRINT uses delivery of two in vitro transcribed RNAs: messenger RNA encoding avian R2 retroelement-protein and template RNA encoding a transgene of length validated up to 4 kb. The R2 protein coordinately recognizes the target site, nicks one strand at a precise location and primes complementary DNA synthesis for stable transgene insertion. With a cultured human primary cell line, over 50% of cells can gain several 2 kb transgenes, of which more than 50% are full-length. PRINT advantages include no extragenomic DNA, limiting risk of deleterious mutagenesis and innate immune responses, and the relatively low cost, rapid production and scalability of RNA-only delivery.

Topics & Concepts

BiologyTransgeneCas9Insertional mutagenesisCRISPRRNAMutagenesisGenome editingGeneticsGenomeGeneDNARetrotransposonComputational biologyMutationTransposable elementCRISPR and Genetic EngineeringAnimal Genetics and ReproductionRNA Interference and Gene Delivery