Fast and Quantitative Identification of Ex Vivo Precise Genome Targeting-Induced Indel Events by IDAA

Saskia König, Zhang Yang, Hans Heugh Wandall, Claudio Mussolino, Eric Paul Bennett

1 Citationer (Scopus)

Abstract

Recent developments in gene targeting methodologies such as ZFNs, TALENs, and CRISPR/Cas9 have revolutionized approaches for gene modifications in cells, tissues, and whole animals showing great promise for translational applications. With regard to CRISPR/Cas9, a variety of repurposed systems have been developed to achieve gene knock-out, base editing, targeted knock-in, gene activation/repression, epigenetic modulation, and locus-specific labeling. A functional communality of all CRISPR/Cas9 applications is the gRNA-dependent targeting specificity of the Cas9/gRNA complex that, for gene knock-out (KO) purposes, has been shown to dictate the indel formation potential. Therefore, the objective of a CRISPR/Cas9 KO set up is to identify gRNA designs that enable maximum out-of-frame insertion and/or deletion (indel) formation and thus, gRNA design becomes a proxy for optimal functionality of CRISPR/Cas9 KO and repurposed systems. To this end, validation of gRNA functionality depends on efficient, accurate, and sensitive identification of indels induced by a given gRNA design. For in vitro indel profiling the most commonly used methods are based on amplicon size discrimination or sequencing. Indel detection by amplicon analysis (IDAA™) is an alternative sensitive, fast, and cost-efficient approach ideally suited for profiling of indels induced by Cas9/gRNA with similar sensitivity, specificity, and resolution, down to single base discrimination, as the preferred next-generation sequencing-based indel profiling methodologies. Here we provide a protocol that is based on complexed Cas9/gRNA RNPs delivered to primary peripheral blood mononuclear cells (PBMCs) isolated from healthy individuals followed by quantitative IDAA indel profiling. Importantly, the protocol described benefits from a short "sample-to-data" turnaround time of less than 5 h. Thus, this protocol describes a methodology that provides a suitable and effective solution to validate and quantify the extent of ex vivo CRISPR/Cas9 targeting in primary cells.

OriginalsprogEngelsk
TitelCRISPR Gene Editing
RedaktørerYonglun Luo
Antal sider22
ForlagHumana Press
Publikationsdato2019
Sider45-66
ISBN (Trykt)978-1-4939-9169-3
ISBN (Elektronisk)978-1-4939-9170-9
DOI
StatusUdgivet - 2019
NavnMethods in Molecular Biology
Vol/bind1961
ISSN1064-3745

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