Highly efficient activation of endogenous gene in grape using CRISPR/dCas9-based transcriptional activators.

Overexpression and knockout (or knockdown) of gene of interest are two commonly used strategies for gene functional study. Clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9 system-mediated gene knockout had been applied in most plant species, including grapevine. However, CRISPR/dCas9 (deactivated Cas9)-based transcriptional activation is still unreported in fruit crops, although a few studies had been documented in Arabidopsis and rice. Here, we tested two transcriptional activators VP64 and TV for transcriptional activation of endogenous genes in grape. Both the dCas9-VP64 and dCas9-TV systems are efficient enough for transcriptional activation of the UDP-glucose flavonoid glycosyltransferases (UFGT) gene in grape cells. The effectiveness of the dCas9-VP64 system in UFGT activation was about 1.6- to 5.6-fold, while the efficiency of the dCas9-TV system was around 5.7- to 7.2-fold. Moreover, in grapevine plants, highly efficient activation of the cold-responsive transcription factor gene CBF4 was achieved by using the dCas9-TV system. The expression of CBF4 was increased 3.7- to 42.3-fold in transgenic plants. Compared with the wild-type plants, the CBF4-activated plants exhibited lower electrolyte leakage after cold treatment. Our results demonstrate the effectiveness of the dCas9-VP64 and dCas9-TV system in gene activation in grape, which will facilitate application of transcriptional activation in this economically important species.