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© Research
Publication : Nature biotechnology

CRISPR RNA-guided integrases for high-efficiency, multiplexed bacterial genome engineering.

Scientific Fields
Diseases
Organisms
Applications
Technique

Published in Nature biotechnology - 01 Apr 2021

Vo PLH, Ronda C, Klompe SE, Chen EE, Acree C, Wang HH, Sternberg SH,

Link to Pubmed [PMID] – 33230293

Link to DOI – 10.1038/s41587-020-00745-y

Nat Biotechnol 2021 Apr; 39(4): 480-489

Existing technologies for site-specific integration of kilobase-sized DNA sequences in bacteria are limited by low efficiency, a reliance on recombination, the need for multiple vectors, and challenges in multiplexing. To address these shortcomings, we introduce a substantially improved version of our previously reported Tn7-like transposon from Vibrio cholerae, which uses a Type I-F CRISPR-Cas system for programmable, RNA-guided transposition. The optimized insertion of transposable elements by guide RNA-assisted targeting (INTEGRATE) system achieves highly accurate and marker-free DNA integration of up to 10 kilobases at ~100% efficiency in bacteria. Using multi-spacer CRISPR arrays, we achieved simultaneous multiplexed insertions in three genomic loci and facile, multi-loci deletions by combining orthogonal integrases and recombinases. Finally, we demonstrated robust function in biomedically and industrially relevant bacteria and achieved target- and species-specific integration in a complex bacterial community. This work establishes INTEGRATE as a versatile tool for multiplexed, kilobase-scale genome engineering.