Grapevine Leaf Mottling and Deformation (GLMD) is a grapevine disease that has been associated with a trichovirus, the grapevine Pinot gris virus (GPGV). A wide diversity in the severity of GLMD disease symptoms has been recorded worldwide, but the relationship of this diversity to the sequence variation in the GPGV genome is still a matter of debate. Results from comparative analysis of GPGV genomic sequences have suggested an association of polymorphisms at the 3’-end of the movement protein (MP) with GLMD severity. Here, the 3’-terminus of the MP gene of a GPGV infectious clone derived from an isolate from grapevine showing severe symptoms (fvg-12), was substituted with a 356 bp synthetic DNA fragment having a sequence resembling that of another GPGV isolate (fvg-15), recovered from an asymptomatic grapevine. The clone containing this chimeric construct was root-inoculated in virus-free Kober rootstocks along with the clones containing the fvg-12 and fvg-15 full length sequence. Remarkable differences in virus titre, accumulation of GPGV-derived small interfering RNAs (siRNAs), alterations in the gene expression of boron transporters and, to a lesser extent, in symptom expression were recorded among plants infected with either one of the three GPGV derived clones. In particular, the chimeric clone behaviour was indistinguishable from that of the donor of the small 356 bp fragment and significantly different from the other. Thus, this work experimentally confirmed the critical role of the GPGV-MP C-terminus in determining the fate of the infection, as it had been previously hypothesized on the basis of comparative sequence analysis.
Polymorphisms at the 3’end of the movement protein (MP) gene of grapevine Pinot gris virus (GPGV) affect virus titre and small interfering RNA accumulation in GLMD disease
Tarquini G.;Ermacora P.;Firrao G.
2021-01-01
Abstract
Grapevine Leaf Mottling and Deformation (GLMD) is a grapevine disease that has been associated with a trichovirus, the grapevine Pinot gris virus (GPGV). A wide diversity in the severity of GLMD disease symptoms has been recorded worldwide, but the relationship of this diversity to the sequence variation in the GPGV genome is still a matter of debate. Results from comparative analysis of GPGV genomic sequences have suggested an association of polymorphisms at the 3’-end of the movement protein (MP) with GLMD severity. Here, the 3’-terminus of the MP gene of a GPGV infectious clone derived from an isolate from grapevine showing severe symptoms (fvg-12), was substituted with a 356 bp synthetic DNA fragment having a sequence resembling that of another GPGV isolate (fvg-15), recovered from an asymptomatic grapevine. The clone containing this chimeric construct was root-inoculated in virus-free Kober rootstocks along with the clones containing the fvg-12 and fvg-15 full length sequence. Remarkable differences in virus titre, accumulation of GPGV-derived small interfering RNAs (siRNAs), alterations in the gene expression of boron transporters and, to a lesser extent, in symptom expression were recorded among plants infected with either one of the three GPGV derived clones. In particular, the chimeric clone behaviour was indistinguishable from that of the donor of the small 356 bp fragment and significantly different from the other. Thus, this work experimentally confirmed the critical role of the GPGV-MP C-terminus in determining the fate of the infection, as it had been previously hypothesized on the basis of comparative sequence analysis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.