Abstract
The most powerful way to probe protein function is to characterize the consequence of its deletion. Compared to conventional gene knockout (KO), conditional knockout (cKO) provides an advanced gene targeting strategy with which gene deletion can be performed in a spatially and temporally restricted manner. However, for most species that are amphiploid, the widely used Cre-flox conditional KO (cKO) system would need targeting loci in both alleles to be loxP flanked, which in practice, requires time and labor consuming breeding. This is considerably significant when one is dealing with multiple genes. CRISPR/Cas9 genome modulation system is advantaged in its capability in targeting multiple sites simultaneously. Here we propose a strategy that could achieve conditional KO of multiple genes in mouse with Cre recombinase dependent Cas9 expression. By transgenic construction of loxP-stop-loxP (LSL) controlled Cas9 (LSL-Cas9) together with sgRNAs targeting EGFP, we showed that the fluorescence molecule could be eliminated in a Cre-dependent manner. We further verified the efficacy of this novel strategy to target multiple sites by deleting c-Maf and MafB simultaneously in macrophages specifically. Compared to the traditional Cre-flox cKO strategy, this sgRNAs-LSL-Cas9 cKO system is simpler and faster, and would make conditional manipulation of multiple genes feasible.
Highlights
At a precise location[8,9,10]
By targeting EGFP or c-Maf/MafB genes using specified sgRNAs, we prove the principle that one-step transgenic construction of LSL-Cas[9] together with specified sgRNAs can serve as a fast and convenient conditional knockout (cKO) strategy
We show that transgenic construction of LSL-Cas[9] with specified sgRNAs could be used as a conditional knockout strategy
Summary
At a precise location[8,9,10]. The genomic DNA is repaired by non-homologous end joining (NHEJ), introducing mutations that could effectively interrupt the open reading frame, and thereby results in a functional KO of the encoded protein. Compared to other genome editing methods, the CRISPR/Cas[9] system has a significant unique advantage in that it can target multiple genomic sites simultaneously[9]. In this study we sought to use loxP-stop-loxP (LSL) cassette to control the Cas[9] expression to achieve efficient cKO. By targeting EGFP or c-Maf/MafB genes using specified sgRNAs, we prove the principle that one-step transgenic construction of LSL-Cas[9] together with specified sgRNAs can serve as a fast and convenient cKO strategy
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