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.
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