Efficient artificial microRNA-mediated resistance against zucchini yellow mosaic virus in zucchini via agroinfiltration

Abstract

Zucchini yellow mosaic virus (ZYMV) infects cucurbits causing yellow mosaic in leaves, malformations in fruits, and degradation of the product quality. RNA interference (RNAi) is a cellular mechanism in eukaryotes and it is exploited to protect them against viruses. The artificial micro RNA (amiRNA) mediated approach was employed to develop resistance against ZYMV. Four amiRNAs, amiZYMV_HC-115s and amiZYMV_HC-1162s (sense), amiZYMV_HC-182as and amiZYMV_HC-196as (antisense), were computationally designed and introduced into the AtMIR390a backbone. At four days post agroinfiltration (dpa) of zucchini cotyledons the corresponding pre- and the mature amiRNAs were identified in local tissue. Upon ZYMV inoculation of zucchini, ZYMV titer was significantly lower where amiZYMV_HCs were applied in relation to control starting at two days post inoculation (dpi). Control zucchini plants exhibited symptoms at 5–8 dpi, whereas the amiZYMV_HC-treated zucchini had symptoms at 14 dpi; at 21 dpi treated zucchini exhibited a 16 %, 19 %, 32 %, and 42.5 % protection, respectively. For luffa, we observed a lower protection (0 %, 17 %, 22.5 %, and 31 % at 21 dpi). Nicotiana benthamiana DCL4 knock-down mutants were infected by ZYMV, whereas when the amiZYMV_HC-196as was agroinfiltrated ZYMV was not detected by RT-PCR. These results indicate that amiRNA-mediated resistance could be applied against ZYMV in zucchini.