The nucleotide sequence of the infectious cloned DNA components of potato yellow mosaic virus

The complete nucleotide sequence of a Venezuelan isolate of potato yellow mosaic virus (PYMV) has been determined, showing it to be typical of subgroup I geminiviruses in that it is whitefly-transmitted, has a circular, bipartite ssDNA genome and possesses bidirectionally orientated open reading frames (ORFs). The two genomic components have little sequence similarity apart from a common region of 268 nucleotides (nt) which is almost identical. Analysis of ORFs revealed six potential coding regions encoding proteins of M(r)>10K, four in PYMV A (2593 nt) and two in PYMV B (2547 nt), which are preceded by regulatory transcription elements and have polyadenylation signals present at the ends. Amino acid sequence alignments of PYMV DNA ORF-encoded proteins with those encoded by other previously sequenced geminivirus ORFs show that PYMV is closely related to those geminiviruses isolated from the New World, especially in the putative coat protein gene regions.Peer reviewe

Edible vaccines

The ultimate vaccine is an oral vaccine which given once protects against a multitude of diseases. Furthermore this ultimate vaccine needs to be very stable and inexpensive to produce. Probably this latter condition can be met only if the vaccines are produced in plants. Such vaccines are called 'edible vaccines'. Edible vaccines can be produced in plants in many ways. Using recombinant plant-virus, CPMV, it was shown that plants can produce massive amounts of chimaeric virus particles which protect after a single injection the target animal against disease. The final step, oral administration, is being addressed at present. Preliminary experiments by others suggest that this step may be solved sooner than expected

Characterisation of tomato golden mosaic virus as a geminivirus

Peer reviewe

Systemic infection of petunia by mechanical inoculation with tomato golden mosaic virus

Aangetoond werd dat Petunia hybrida systemisch kan worden geïnfecteerd met het 'tomato golden mosaic virus' (TGMV), een virus dat behoort tot de groep van de geminivirussen. Mechanische inoculatie van petuniaplanten met TGMV gaf in de systemisch geïnfecteerde bladeren symptomen, die eerder in een aantal andere Solanaceae waren waargenomen. Daar in eerdere proeven petunia niet met TGMV kon worden geïnfecteerd en DNA-replicatie en symptoomontwikkeling wel optrad in, voor de beide genomen van het virus, transgene planten, werd gesuggereerd dat het hier een geval betrof van uitbreiding van de waardplantenreeks. De hier gepresenteerde resultaten kunnen echter tot andere conclusies leiden. Het is namelijk mogelijk, dat bepaalde F-hybriden van petunia resistenter zijn tegen het virus. Verschillen in de symptoomontwikkeling zijn echter ook niet uit te sluiten en zouden veroorzaakt kunnen worden door premunitie als gevolg van de aanwezigheid van het manteleiwit in opnieuw geïnfecteerde cellen.Peer reviewe

Plant-derived vaccine protects target animals against a viral disease

The successful expression of animal or human virus epitopes on the surface of plant viruses has recently been demonstrated. These chimeric virus particles (CVPs) could represent a cost-effective and safe alternative to conventional animal cell-based vaccines. We report the insertion of oligonucleotides coding for a short linear epitope from the VP2 capsid protein of mink enteritis virus (MEV) into an infectious cDNA clone of cowpea mosaic virus and the successful expression of the epitope on the surface of CVPs when propagated in the black-eyed bean, Vigna unguiculata. The efficacy of the CVPs was established by the demonstration that one subcutaneous injection of 1 mg of the CVPs in mink conferred protection against clinical disease and virtually abolished shedding of virus after challenge with virulent MEV, demonstrating the potential utility of plant CVPs as the basis for vaccine development. The epitope used occurs in three different virus species-MEV, canine parvovirus, and feline panleukopenia virus-and thus the same vaccine could be used in three economically important viral hosts-mink, dogs, and cats, respectively