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CRISPR/Cas-Based Gene Editing Tools for Large DNA Fragment Integration

Shuhan Yang, Guang Hu, Jianming Wang, Jie Song

2024ACS Synthetic Biology13 citationsDOI

Abstract

In recent years, gene editing technologies have rapidly evolved to enable precise and efficient genomic modification. These strategies serve as a crucial instrument in advancing our comprehension of genetics and treating genetic disorders. Of particular interest is the manipulation of large DNA fragments, notably the insertion of large fragments, which has emerged as a focal point of research in recent years. Nevertheless, the techniques employed to integrate larger gene fragments are frequently confronted with inefficiencies, off-target effects, and elevated costs. It is therefore imperative to develop efficient tools capable of precisely inserting kilobase-sized DNA fragments into mammalian genomes to support genetic engineering, gene therapy, and synthetic biology applications. This review provides a comprehensive overview of methods developed in the past five years for integrating large DNA fragments with a particular focus on burgeoning CRISPR-related technologies. We discuss the opportunities associated with homology-directed repair (HDR) and emerging CRISPR-transposase and CRISPR-recombinase strategies, highlighting their potential to revolutionize gene therapies for complex diseases. Additionally, we explore the challenges confronting these methodologies and outline potential future directions for their improvement with the overarching goal of facilitating the utilization and advancement of tools for large fragment gene editing.

Topics & Concepts

CRISPRGenome editingComputational biologyRecombinaseBiologySynthetic biologyGeneGeneticsComputer scienceRecombinationCRISPR and Genetic EngineeringInnovation and Socioeconomic DevelopmentRNA Interference and Gene Delivery
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