[Molecular properties of potato spindle tuber viroid (PSTVd) isolates from the collection of the Russian Research Institute of Phytopathology].

The complete nucleotide sequences of more than 100 isolates of PSTVd collected from locations in the territory of Russia and the former USSR have been determined. These sequences represent 42 individual sequence variants, each containing 1-10 mutations with respect to the "intermediate" or type strain of PSTVd (GenBank Acc. No. v01465). Isolates containing 2-5 mutations were the most common, and 24 sequence variants are described here for the first time. Twenty one isolates contained a mutation found only in Russian and Ukrainian isolates of PSTVd up till now; i.e., replacement of the adenine at position 121 with cytosine (A121C). Many of these isolates contained two mutations--deletion of one of the three adenine residues occupying positions 118-120 plus replacement of the adenine at position 121 with either uracil or cytosine (A120, A121U/C). Both combinations of mutations were phenotypically neutral, i.e. symptom expression in Rutgers tomato was unaffected. Phylogenetic analysis of the sequences of different PSTVd isolates presented in work together with sequences of other naturally-occurring isolates obtained from Internet databases suggesting that known PSTVd isolates may be divided into four groups: i) a group of isolates from potato, tomato and solanaceous ornamentals where the type strain of PSTVd (PSTVd.018) may be considered to represent the ancestral sequence, ii) a group of isolates from potato, tomato and solanaceous ornamentals where PSTVd.123 play the same role as PSTVd.018 for the first group, and iii) a group of potato isolates where PSTVd.125 is a possible ancestral sequence. The fourth and most divergent group of PSTVd isolates differs significantly from these first three groups. The majority of isolates in this group originate from New Zealand and Australia and infect different solanaceous hosts (tomato, pepper, cape gooseberry, potato, and others).

Molecular Detection and Identification of Group 16SrI and 16SrXII Phytoplasmas Associated with Diseased Potatoes in Russia.

Phytoplasmal diseases have long been suspected to occur in several potato-growing regions in Russia on the basis of symptoms and the presence of insect vectors. Symptoms resembling stolbur are most prevalent, but round leaf disease, potato witches'-broom, and potato purple top wilt also occur (1). The phytoplasma etiologies of these diseases have never been verified by molecular means. During the summer of 2006, 33 potato plants exhibiting various symptoms including purple top, round leaves, and stolbur-like symptoms characterized by purple top, stunting, bud proliferation, and formation of aerial tubers were randomly collected from the Volga River Region, Central Region, and Northern Caucasian Region in Russia. DNA extracts were prepared from 1.0 g of petioles and leaf mid veins according to a modified procedure with the Qiagen DNeasy Plant Mini Kit (Qiagen, Valencia, CA) as previously described (2). A nested PCR with primer pair P1/P7 in the first amplification followed by R16F2n/R16R2n in the second amplification was performed to detect phytoplasmas in infected potato samples (4). Potato plants maintained in the greenhouse were used as healthy controls. A negative control devoid of DNA templates was included in all PCR assays. One microliter of diluted (1:30) PCR product from the first amplification was used as the template in the nested PCR. Eight of 33 potato samples tested positive in the first PCR. Twelve of 33 potato samples tested positive in nested PCR. Nine of the 12 potato samples that tested positive for phytoplasma exhibited stolbur-like symptoms; the other three samples exhibited round leaves, stunting, or proliferation. The remaining symptomatic samples that exhibited nonspecific purple or yellow discoloration of terminal leaves, without other specific stolbur-like symptoms, may be infected by other pathogens. Restriction fragment length polymorphism (RFLP) analysis of nested PCR products (R16F2n/R16R2n amplicons, 1.2 kb) was performed. PCR products (6 µl) were digested singly with the restriction enzymes AluI, HaeIII, HhaI, HpaII, KpnI, MseI, RsaI, and Tsp509I. Comparison of RFLP profiles with published profiles (3) was used for identification of the putative phytoplasmas detected. Among the 12 PCR positive potato samples, 10 showed very similar or identical RFLP profiles to stolbur phytoplasma, a strain belonging to stolbur phytoplasma group (16Sr XII), subgroup 16SrXII-A and closely related strains, and two showed RFLP profiles similar to those of aster yellows phytoplasma group (16SrI). Nucleotide sequence analysis of cloned 16S rDNA (GenBank Accession Nos. EU344884-EU344890 and EU333396-EU333400) confirmed the results of the RFLP analyses and also indicated that the two samples showing 16SrI profiles were simultaneously infected with two phytoplasma strains belonging to subgroups 16SrI-A and 16SrI-B. To our knowledge, this is the first confirmation by molecular procedures that stolbur phytoplasma (16SrXII-A) is prevalent in several potato-growing regions and is the first report of 16SrI-A and 16SrI-B phytoplasmas associated with potatoes in Russia. References: (1) D. Z. Bogoutdinov. Potato Phytoplasmas and Methods of Their Study. Samara State Agricultural University, Samara, 2000. (2) M. J. Green et al. Plant Dis. 83:482, 1999. (3) I.-M. Lee et al. Int. J. Syst. Bacteriol. 48:1153, 1998. (4) I.-M. Lee et al. Plant Dis. 90:989, 2006.

Russian isolates of potato spindle tuber viroid.

Forty PSTVd isolates collected from five regions of Russia (North-western, Central, Volga region, Northern Caucasus and the Far East) were sequenced during 2006-2008. All isolates lacked the adenine residue present at position 123 of the type strain; i.e., PSTVd-intermediate (GenBank V01465). Nineteen Russian isolates also contained an adenosine --> cytosine substitution at position 120. Twenty two additional unique changes were also observed in one or more of the isolates sequenced.

Identification of phytoplasma species associated with potato diseases in Russia.

Four out of six known potato diseases attributed to phytoplasma infection were previously reported to occur in Russia based on a combination of biological properties such as symptomatology and/or vector relationships and electron microscopy of infected phloem tissue. In 2007, the first molecular identification of potato diseases causing symptoms including purple top, round leaves, stunting, bud proliferation and formation of aerial tubers was carried out using PCR methods. A nested PCR using primer pair P1/P7 in the first amplification followed by R16F2n/R16R2n in the second amplification was performed to detect phytoplasma in infected potato samples. PCR products were digested singly with several restriction enzymes. Comparison of RFLP profiles with published profiles was used for identification of the putative phytoplasma detected. The majority of 49 PCR positive potato samples showed RFLP profiles of 16S rDNA sequences very similar or identical to stolbur phytoplasma, a strain belonging to stolbur phytoplasma group (16Sr XII), subgroup 16SrXII-A, and only two showed RFLP profiles similar to those of aster yellow phytoplasma strains ('Candidatus Phytoplasma asteris') belonging to aster yellows phytoplasma group (16SrI), subgroup 16SrI-A and 16SrI-B. The results demonstrated that stolbur phytoplasma is prevalent in several potato growing regions of Russia.

Evaluation of oat cultivars and lines under infection with barley yellow dwarf virus.

Thirteen domestic and foreign oat cultivars and eight breeding lines bred from the University of Illinois were evaluated for resistance to barley yellow dwarf (BYD) using artificial inoculation with Rhopalosiphum padi viruliferous for an isolate of Barley yellow dwarf virus-PAV endemic to Moscow region origin. Cultivar Blaze and six Illinois lines showed the best grain yields under disease pressure that resembled a BYD epidemic.