Plant defense mechanisms against pathogens result in differential regulation of various processes of primary and secondary metabolism. Imaging techniques, such as fluorescence imaging and thermography, are very valuable tools providing spatial and temporal information about these processes. In this study, effects of Grapevine leafroll-associated virus 3 (GLRaV-3) on grapevine physiology were analyzed in pot-grown asymptomatic plants of the white cultivar Malvasía de Banyalbufar. The virus triggered changes in the activity of photosynthesis and secondary metabolism. There was a decrease in the photorespiratory intermediates glycine and serine in infected plants, possibly as a defense response against the infection. The content of malate, which plays an important role in plant metabolism, also decreased. These results correlate with the increased non-photochemical quenching found in infected plants. On the other hand, the concentration of flavonols (represented by myricetin, kaempferol and quercetin derivatives) and hydroxycinnamic acids (which include derivatives of caffeic acid) increased following infection by the virus. These compounds could be responsible for the increase in multicolor fluorescence F440 (blue fluorescence) and F520 (green fluorescence) on the leaves, and changes in the fluorescence parameters F440/F680, F440/F740, F520/F680, F520/F740 and F680/F740. The combined analysis of chlorophyll fluorescence kinetics and blue-green fluorescence emitted by phenolics could constitute disease signatures allowing the discrimination between GLRaV-3 infected and non-infected plants at very early stage of infection, prior to the development of symptoms.
Grapevine leafroll ampeloviruses have been recently grouped into two major clades, one for Grapevine leafroll associated virus (GLRaV) 1 and 3 and another one grouping GLRaV-4 and its variants. In order to understand biological factors mediating differential ampelovirus incidences in vineyards, quantitative real-time polymerase chain reactions were performed to assess virus populations in three grapevine varieties in which different infection status were detected: GLRaV-3 + GLRaV-4, GLRaV-3 + GLRaV-4 strain 5, and GLRaV-4 alone. Specific primers based on the RNA-dependent RNA polymerase (RdRp) domains of GLRaV-3, GLRaV-4, and GLRaV-4 strain 5 were used. Absolute and relative quantitations of the three viruses were achieved by normalization of data to the concentration of the endogenous gene actin. In spring, the populations of GLRaV-4 and GLRaV-4 strain 5 were 1.7 × 104 to 5.0 × 105 genomic RNA copies/mg of petiole tissue whereas, for GLRaV-3, values were significantly higher, ranging from 5.6 × 105 and 1.0 × 107 copies mg–1. In autumn, GLRaV-4 and GLRaV-4 strain 5 populations increased significantly, displaying values for genome copies between 4.1 × 105 and 6.3 × 106 copies mg–1, whereas GLRaV-3 populations displayed a less pronounced boost but were still significantly higher, ranging from 4.1 × 106 to 1.6 × 107 copies mg–1. To investigate whether additional viruses may interfere in the quantifications the small RNA populations, vines were analyzed by Ion Torrent high-throughput sequencing. It allowed the identification of additional viruses and viroids, including Grapevine virus A, Hop stunt viroid, Grapevine yellow speckle viroid 1, and Australian grapevine viroid. The significance of these findings is discussed.
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