Sequence divergence of four soilborne sugarbeet-infecting viruses.

Soilborne viruses are among the most harmful pathogens of sugarbeet (Beta vulgaris L.ssp. vulgaris) but most of them lack information on genetic variability due to paucity of sequence data. Only one isolate of Beet soil borne virus (BSBV; genus Pomovirus), Beet virus Q (BVQ; genus Pomovirus) and Beet soil borne mosaic virus (BSBMV; genus Benyvirus) has been characterised for the coat protein (CP) gene. In this study, the CP gene sequences of three isolates each of BSBV and Beet necrotic yellow vein virus (BNYVV; genus Benyvirus) (France, Germany and USA), two isolates of BVQ (France and Germany), and one isolate of BSBMV (USA) were determined. Phylogenetic analyses including sequences from databanks indicated that the French BNYVV isolate of this study belongs to so-called P-type, the American isolate to A-type and the German isolate to B-type. The CP genes of the three BSBV isolates characterised in this study and the one available from databank were highly identical (98.4-99.0% at nucleotide level; one variable amino acid). The BSBMV isolate studied here differed from the previously characterised isolate for five nucleotides and four amino acids in the CP region. The two BVQ isolates characterised in this study contained three additional nucleotides resulting in an additional amino acid residue (arginine) at CP position 86, as compared to the only isolate available in databank.

Molecular analyses of European A, B and P type sources of Beet necrotic yellow vein virus and detection of the rare P type in Kazakhstan.

Nucleotide sequence analyses revealed that the genomes of the various European types of Beet necrotic yellow vein virus (BNYVV), i.e. the A, B and P types, are strongly conserved. Almost identical sequences were found, for instance, for A types originating from The Netherlands, Italy and former Yugoslavia; these sequences were also almost identical to those determined c. 15 years ago by Bouzoubaa et al. (1985; 1986 and 1987). This sequence stability of BNYVV types is in contrast to a pronounced sequence variability observed with Beet soil-borne pomovirus, another Polymyxa-transmitted sugar beet virus with rod-shaped particles. Sequences of RNA 1, 2 and 4 of BNYVV sources from Kazakhstan were almost identical to those of the P type of BNYVV which so far had been found only in a small area around the French town of Pithiviers. RNA 5, which in Europe is found also only in the Pithiviers area, was detected in the bait plants grown in two out of three soil samples from different fields in Kazakhstan. It closely resembled RNA 5 from the Pithiviers area, but was very different from RNA 5 from various East Asian BNYVV sources.