Abstract
The newly developed CRISPR/Cas9 system for targeted gene knockout or editing has recently been shown to function in plants in both transient expression systems as well as in primary T1 transgenic plants. However, stable transmission of genes modified by the Cas9/single guide RNA (sgRNA) system to the T2 generation and beyond has not been demonstrated. Here we provide extensive data demonstrating the efficiency of Cas9/sgRNA in causing modification of a chromosomally integrated target reporter gene during early development of transgenic Arabidopsis plants and inheritance of the modified gene in T2 and T3 progeny. Efficient conversion of a nonfunctional, out-of-frame GFP gene to a functional GFP gene was confirmed in T1 plants by the observation of green fluorescent signals in leaf tissues as well as the presence of mutagenized DNA sequences at the sgRNA target site within the GFP gene. All GFP-positive T1 transgenic plants and nearly all GFP-negative plants examined contained mutagenized GFP genes. Analyses of 42 individual T2 generation plants derived from 6 different T1 progenitor plants showed that 50% of T2 plants inherited a single T-DNA insert. The efficiency of the Cas9/sgRNA system and stable inheritance of edited genes point to the promise of this system for facile editing of plant genes.
Highlights
In recent years, zinc finger nuclease (ZFN) technology [1] and TAL Effector Nuclease (TALEN) technology [2,3,4,5] have become powerful gene editing tools for targeted gene modification in human cells, fruit flies, zebrafish, nematodes and plants
In this report we demonstrate that the Cas9/single guide RNA (sgRNA) system delivered by Agrobacterium tumefaciens is fully functional when delivered to Arabidopsis by the floral dip method
Double strand DNA breaks (DSBs) at the target site in a nonfunctional GFP gene caused by ZFN, TALEN and Cas9/sgRNA expression are most often repaired by the non-homologous end joining (NHEJ) DNA repair mechanism
Summary
Zinc finger nuclease (ZFN) technology [1] and TAL Effector Nuclease (TALEN) technology [2,3,4,5] have become powerful gene editing tools for targeted gene modification in human cells, fruit flies, zebrafish, nematodes and plants. Results using T1 transgenic Arabidopsis are presented showing efficient targeting of specific DNA sequences for DNA cleavage and error-prone repair by NHEJ (i.e., successful conversion of an out-of-frame mutant GFP gene to a functional GFP gene that provides a visual demonstration and verification of Cas9/sgRNA activity).
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