The gene encoding the triple gene block protein 1 (TGBp1) of Potato mop-top virus (PMTV) was cloned into expression vector pQE32 tagging the protein with 6xHis on the N-terminus. When the gene was enshortened on its 3¢-end by two different restriction digestions, efficient and high yield bacterial expression was achieved in both cases, as shown by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) and Western blot. One of these two constructs was used for raising rabbit polyclonal antibodies. The obtained sera and antibodies were tested for the detection of PMTV in laboratory host Nicotiana benthamiana and natural host Solanum tuberosum by enzyme-linked immunosorbent assay (ELISA) as well as by Western blots. The obtained antisera are more suitable for Western blot analysis of infected plants than for ELISA.
The coat protein (CP) coding regions of two Czech Potato mop‐top virus (PMTV) isolates were sequenced and shown to be identical. One, the Korneta isolate CP gene, was cloned in several expression vectors. The recombinant PMTV‐CP was expressed in Escherichia coli and the purified recombinant protein was used to produce PMTV‐specific polyclonal antibodies. The antiserum had a titre of 1 : 2000 in an indirect enzyme‐linked immunosorbent assay (ELISA) and reacted specifically in immunoblotting and IPTA‐ ELISA (indirect plate‐trapped antigen (PTA)‐ELISA).
The entire nucleotide sequence for the coding regions of a Danish PMTV isolate 54-15 was determined and compared to other known and sequenced isolates of PMTV. Many nucleotide and amino acid changes were found in parts of RNA coding for the triple gene block (TGB) proteins and in the part of the RNA coding for the read-through region of the coat protein (CP). These regions for two other isolates, the mild one 54-10 and the severe one 54-19, were sequenced. Only two amino acid changes were found to correlate with the subdivision of isolates according to symptom development into mild and severe subgroups. In addition, the phylogenetic tree was obtained suggesting the closest relationship between isolates 54-15 and 54-10. Although the sequence comparisons indicate a high genetic stability of PMTV populations, a surprising change was found in the newly sequenced isolates--the replacement of the AUG start codon of the fourth gene of the TGB encoding RNA, coding for a cystein-rich protein, by the less efficient GUG start codon.
In the framework of PVS eradication from breeding materials of Czech potato cultivars, the systematic research was devoted to: susceptibility of cultivars, occurrence of PVS in imported and domestic materials, and to maintenance of virus-free basic grades potatoes on breeding stations. In the field-exposure trials was proved high level of susceptibility of most cultivars to PVS and by contraries, gradualy increased proportion of maintained virus-free cultivars of foreign, as well as domestic origin. Nevertheless severe infestation still persist in some of them. The contemporary situation with maintenance of virus-free basic material in CR was demonstrated.
The nucleotide sequence was determined for Czech potato mop-top virus (PMTV) isolate Korneta-Nemilkov, found in the potato field situated in South Bohemia. The nucleotide and amino acid sequences were compared with other PMTV isolates available in databases. The sequence identity was always >99% when Czech isolate RNA 2 and RNA 3 sequences were compared with each of the 3 Danish isolates and with Sw isolate, and slightly lower when compared to Scottish isolates. Similarity of deduced proteins was 100% for 5 out of 6 proteins used in comparison of Czech isolate with Danish isolate 54-15. The only difference between 2 isolates was found in coat protein (CP) gene. Interestingly, the CP of the Czech isolate seems to be 100% identical to the one of Sw, while many changes were found in the region encoding TGBp2, TGBp3 and cysteine-rich protein (CRP) for these 2 isolates. The lowest similarity scores were found when comparing the Czech isolate CRP with CRP of Scottish isolates.
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