Monitoring Genomic Structural Rearrangements Resulting from Gene Editing

Author:

Bailey Susan M.12,Cross Erin M.2,Kinner-Bibeau Lauren2,Sebesta Henry C.2,Bedford Joel S.12,Tompkins Christopher J.2

Affiliation:

1. Department of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO 80523, USA

2. KromaTiD, Inc., Longmont, CO 80501, USA

Abstract

The cytogenomics-based methodology of directional genomic hybridization (dGH) enables the detection and quantification of a more comprehensive spectrum of genomic structural variants than any other approach currently available, and importantly, does so on a single-cell basis. Thus, dGH is well-suited for testing and/or validating new advancements in CRISPR-Cas9 gene editing systems. In addition to aberrations detected by traditional cytogenetic approaches, the strand specificity of dGH facilitates detection of otherwise cryptic intra-chromosomal rearrangements, specifically small inversions. As such, dGH represents a powerful, high-resolution approach for the quantitative monitoring of potentially detrimental genomic structural rearrangements resulting from exposure to agents that induce DNA double-strand breaks (DSBs), including restriction endonucleases and ionizing radiations. For intentional genome editing strategies, it is critical that any undesired effects of DSBs induced either by the editing system itself or by mis-repair with other endogenous DSBs are recognized and minimized. In this paper, we discuss the application of dGH for assessing gene editing-associated structural variants and the potential heterogeneity of such rearrangements among cells within an edited population, highlighting its relevance to personalized medicine strategies.

Funder

KromaTiD, Inc.

Publisher

MDPI AG

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