Peter Willingmann

Detection and differentiation of serologically cross-reacting tobamoviruses of economical importance by RT-PCR and RT-PCR-RFLP

A procedure involving reverse transcription followed by the polymerase chain reaction (RT-PCR) using a single primer pair was developed for the detection of five tobamovirus species which are related serologically. Either with a subsequent restriction enzyme analysis (RT-PCR-RFLP) or with a RT-PCR using species specific primers the five species can be differentiated. To differentiate those species by serological means is time consuming and might give ambiguous results. With the example of the isolate OHIO V, which is known to break the resistance in a selection of Lycopersicon peruvianum, the suitability of the RT-PCR-RFLP technique to detect variability at the species level was shown. In sequence analysis 47 codons of the coat protein gene of this isolate were found to be mutated compared to a tobacco mosaic virus (TMV) coat protein gene sequence. Forty of these mutations were silent and did not change the amino acid sequence. Both procedures are suitable to detect mixed infections. In addition, the RT-PCR-RFLP give information on the relative amounts of the viruses that are present in a doubly infected plant. The RT-PCR-RFLP using general primers as well as the RT-PCR using species specific primers were proven to be useful for the diagnosis and control of the disease and will be helpful for resistance breeding, epidemiological investigations and plant virus collections.

A novel double-stranded RNA mycovirus from Fusarium graminearum: nucleic acid sequence and genomic structure

Ten Fusarium graminearum isolates from China were screened for dsRNA mycoviruses. Five dsRNAs (2.4 to 3.5 kbp) were purified from isolate China 9, cloned, and sequenced. BLAST analysis showed that the proteins encoded by dsRNA1 possess motifs that are conserved in RNA-dependent RNA polymerases, dsRNA2 resembles the hypothetical protein encoded by dsRNA3 of Magnaporthe oryzae chrysovirus 1, dsRNA4 shares no significant similarity to any published protein, and dsRNA5 has a C2H2 zinc finger domain. Tandem mass spectrophotometry, surface protein labeling of virus-like particles, SDS-PAGE, and protein BLAST results supports the notion that three of the virus segments code for structural proteins, of which dsRNA3 possibly codes for the capsid protein. Relative quantitative RT-PCR studies of the 5 dsRNAs suggested that the segments are encapsidated separately in unequal amounts. Genomic structure and phylogenic studies support the possibility that this virus may be a candidate for the type species of a novel genus in the family Chrysoviridae.

Optimized approaches for the sequence determination of double-stranded RNA templates.

Double-stranded RNA (dsRNA) is in many cases the only available template for molecular and diagnostic studies of RNA viruses. A novel mycovirus with a five dsRNAs segmented-genome served as a model system for the amplification and cloning of dsRNA segments using several PCR-based methods. Sequences obtained by the classical method; random PCR (rPCR) with a single primer assembled into 4 contigs out of the 5 segments. Moreover, using a modified single primer amplification technique (SPAT) resulted in the amplification of all or part of the dsRNA segments in one RT-PCR. Introducing such modifications into the FLAC method (full-length amplification of cDNA) resulted in amplicons comparable to those of the SPAT method. Full-length PCR products representing the five genomic segments were cloned and sequenced. The optimized conditions for each method are presented and discussed. In another approach, purified dsRNA segments were cloned directly into the blunt end pJET1.2 or the pGEM(®)-T cloning vectors with low efficiency though. This led to several sequences up to 2.2kb in length, which could constitute a starting material for other methods like primer walking or as probes for diagnosis.

The phylogenetic structure of the cluster of tobamovirus species serologically related to ribgrass mosaic virus (RMV) and the sequence of streptocarpus flower break virus (SFBV)

Summary.Ribgrass mosaic virus (RMV), turnip vein-clearing virus (TVCV) and Youcai mosaic virus (YoMV; formerly designated as oilseed rape mosaic virus; ORMV) belong to the genus Tobamovirus and are arranged in one out of three subgroups because of their common host range, serological cross-reactivity and amino acid composition of their coat proteins. The recently defined species Wasabi mottle virus (WMoV) is closely related to the same subgroup. The distinction of the four species is difficult and the lack of sequence information of a wide range of isolates has led to an unclear nomenclature. To clarify this situation we sequenced the coat protein genes from 18 isolates which were serologically related to members of the species of this cluster. The size of the coat protein was conserved with the exception of one isolate which revealed an N-terminal extension due to the mutation of three stop-codons. Phylogenetic analysis of these CP ORFs resulted in a tree with three clusters each containing at least one of the approved species RMV, TVCV and 1ptYoMV/WMoV in which our isolates were distributed. The tree was congruent and did support the present taxonomic status of species within this subgroup.For practical purpose we developed a subgroup 3 specific primer pair and a species differentiating restriction fragment length polymorphism (RFLP). Sequencing of the genome of Streptocarpus flower break virus (SFBV) which is serologically distantly related to the subgroup 3 viruses revealed a distinct genome organization. Therefore we propose that this virus should be regarded as a member of a species not belonging to any of the subgroups so far established.

An unusual large intergenic region in the S-RNA of a Bulgarian tomato spotted wilt virus isolate

Summary. The complete S-RNA sequences of four Bulgarian and one German isolate of tomato spotted wilt tospovirus were determined. All isolates show a high conservation in their N proteins, while the NSs proteins and the intergenic regions (IGR) are more variable. The Bulgarian isolate 10HK96 has the largest S-RNA (3364 nucleotides) among tomato spotted wilt viruses reported so far. The enlargement is based on an insertion of 365 nts in the IGR that may have resulted from stuttering of the viral polymerase or non-homologous recombination. This insertion is present in the N protein gene subgenomic messenger, upstream of a proposed transcription termination signal.

Pelargonium necrotic spot virus: a new member of the genus Tombusvirus

Summary.A virus isolate from Pelargonium spp., provisionally designated UPEV (

Posttranslational hypusination of the eukaryotic translation initiation factor-5A regulates Fusarium graminearum virulence.

{\underline {\rm u}}{\rm nknown} \ {\underline {\rm pe}} {\rm largonium} \ {\underline {\rm v}}{\rm irus}

The complete sequence of tobacco mosaic virus isolate Ohio V reveals a high accumulation of silent mutations in all open reading frames

), had isometric particles 31–33 nm in diameter, with a granular surface structure similar to that of viruses in three genera of family Tombusviridae. Immunoelectron microscopy proved that UPEV was serologically distinct from all examined morphologically similar members of the family Tombusviridae. The induced cytopathology was characterized by large cytoplasmic virion aggregates and the formation of multivesicular bodies derived from mitochondria. Analysis of the complete ssRNA genome sequence revealed four open reading frames (ORFs) arranged like those of viruses in the genera Tombusvirus and Aureusvirus. Sequence comparisons indicated that three of the four ORFs had a high identity (52–97% identical amino acids) with the respective ORFs of tombusvirus species, especially with Carnation Italian ringspot virus, but not with those of viruses in other genera in Tombusviridae. On the contrary, UPEV coat protein had a low indentity (36–53% identical amino acids) with that of the aureusvirus Pothos latent virus. The data suggested that UPEV originated in a recombination event between a tombus- and an aureusvirus. According to its original host and symptom expression we proposed the new virus be named Pelargonium necrotic spot virus (PeNSV) and classified it as a distinct and new species in the genus Tombusvirus.

Differentiation of Cucumber mosaic virus isolates by hybridization to oligonucleotides in a microarray format

Activation of eukaryotic translation initiation factor eIF5A requires a posttranslational modification, forming the unique amino acid hypusine. This activation is mediated by two enzymes, deoxyhypusine synthase, DHS, and deoxyhypusine hydroxylase, DOHH. The impact of this enzymatic complex on the life cycle of a fungal pathogen is unknown. Plant pathogenic ascomycetes possess a single copy of the eIF5A activated by hypusination. We evaluated the importance of imbalances in eIF5A hypusination in Fusarium graminearum, a devastating fungal pathogen of cereals. Overexpression of DHS leads to increased virulence in wheat, elevated production of the mycotoxin deoxynivalenol, more infection structures, faster wheat tissue invasion in plants and increases vegetatively produced conidia. In contrast, overexpression of DOHH completely prevents infection structure formation, pathogenicity in wheat and maize, leads to overproduction of ROS, reduced DON production and increased sexual reproduction. Simultaneous overexpression of both genes restores wild type-like phenotypes. Analysis of eIF5A posttranslational modification displayed strongly increased hypusinated eIF5A in DOHH overexpression mutant in comparison to wild type, and the DHS overexpression mutants. These are the first results pointing to different functions of differently modified eIF5A.

Sequences of tobacco rattle viruses from potato.

TMVOhioV was first described 1969 by [1] because it did break resistance of tomato breeding lines containing Tm-1- and Tm-2 resistance genes. It was obtained 1987 from Wetter (Saarbrücken, Germany) and transferred into the DSMZ-Plant Virus Collection (Braunschweig, Germany). A partial sequence of TMVOhioV, the CP gene, has been reported [11] and its comparison with a TMV type isolates (TMVtype), e.g. EMBL: V01409, revealed 50 point mutations in a total of 477 nucleotides (nts) leading to the replacement of only 7 amino acids (aa). In order to investigate the mutations in the non-translated regions and the number of silent mutation in the three other open reading frames (ORF), we sequenced the complete genome of isolate TMVOhioV and compared it to those of other Tobamoviruses.