Jorg Schubert

Bio: Jorg Schubert is an academic researcher. The author has contributed to research in topics: Potyviridae & Wheat streak mosaic virus. The author has an hindex of 1, co-authored 1 publications receiving 56 citations.

Phylogenetic relationships, strain diversity and biogeography of tritimoviruses

Abstract: North American and Eurasian isolates of Wheat streak mosaic virus (WSMV; genus Tritimovirus) and Oat necrotic mottle virus (ONMV; genus Rymovirus) were examined. Nine WSMV isolates differentially infected oat, barley, inbred maize line SDp2 and sorghum line KS56. The WSMV isolates clustered into groups based on phylogenetic analyses of the capsid protein (CP) cistron and flanking regions. WSMV isolates from the United States (US) and Turkey were closely related, suggesting recent movement between continents. Although more divergent, WSMV from Iran (WSMV-I) also shared a most recent common ancestor with the US and Turkish isolates. Another group of WSMV isolates from central Europe and Russia may represent a distinct Eurasian population. Complete genome sequences of WSMV from the Czech Republic (WSMV-CZ) and Turkey (WSMV-TK1) were determined and comparisons based on complete sequences yielded relationships similar to those based on partial sequences. ONMV-Pp recovered from blue grass (Poa pratensis L.) in Germany displayed the same narrow host range as ONMV-Type from Canada. Western blots revealed a heterologous relationship among CP of WSMV and ONMV. Phylogenetic analyses of the capsid protein cistron and flanking genomic regions indicated that WSMV and ONMV are related species sharing 74·2–76·2% (nucleotide) and 79·2–81·0% (amino acid) identity. Thus, ONMV should be removed from the genus Rymovirus and designated a definitive member of the genus Tritimovirus. Phylogenetic analyses further suggest that Sugarcane streak mosaic virus is not a tritimovirus, and may represent a new genus within the family Potyviridae.

Molecular criteria for genus and species discrimination within the family Potyviridae

Abstract: A phylogenetic analysis of the optimised nucleotide (nt) alignment of the entire ORFs of a representative of each fully-sequenced species in the family Potyviridae provided strong support for several subgroups within the genus Potyvirus. A complete set of two-way comparisons was done between the sequences for the entire ORF and for each gene amongst all the 187 complete sequences from the family. Most species had 50–55% nt identity to other members of their genus in their ORFs but there were significant groups of more closely related species and species demarcation criteria were <76% nt identity and <82% amino acid identity. The corresponding thresholds for species demaracation using nt identity values for the individual genes ranged from 58% (P1 gene) to 74–78% (other genes) although a few comparisons between different species exceeded these values. For the entire ORF, genus demarcation criteria were <46% nt identity but this did not separate rymoviruses from potyviruses. Comparisons in the CI gene most accurately reflected those for the complete ORF and this region would therefore be the best for diagnostic and taxonomic studies if only a sub-portion of the genome is to be sequenced. Further comparisons were then made using all the 1220 complete capsid protein (CP) genes. These studies suggest that 76–77% nt identity is the optimal species demarcation criterion for the CP. The study has also helped to allocate the correct virus name to some sequences from the international databases that currently have incorrect or redundant names. The taxonomic status of the current genus Rymovirus and of three unassigned species in the family is discussed. Significant discontinuities in the distributions within and between the currently defined species suggest that the continuum of variation that is theoretically available is constrained or disrupted by molecular barriers that must have some biological significance.

EVOLUTION OF WHEAT STREAK MOSAIC VIRUS: Dynamics of Population Growth Within Plants May Explain Limited Variation

Abstract: Like many other plant RNA viruses, Wheat streak mosaic virus (WSMV) sequence diversity within and among infected plants is low given the large number of virions produced. This may be explained by considering aspects of plant virus life history. Intracellular replication of RNA viruses is predominately linear, not exponential, which means that the rate at which mutations accumulate also is linear. Bottlenecks during systemic movement further limit diversity. Analysis of mixed infections with two WSMV isolates suggests that about four viral genomes participate in systemic invasion of each tiller. Low effective population size increases the role of stochastic processes on dynamics of plant virus population genetics and evolution. Despite low pair-wise diversity among isolates, the number of polymorphic sites within the U.S. population is about the same as between divergent strains or a sister species. Characteristics of polymorphism in the WSMV coat protein gene suggest that most variation appears neutral.

Wheat curl mite, Aceria tosichella , and transmitted viruses: an expanding pest complex affecting cereal crops

Abstract: The wheat curl mite (WCM), Aceria tosichella, and the plant viruses it transmits represent an invasive mite-virus complex that has affected cereal crops worldwide. The main damage caused by WCM comes from its ability to transmit and spread multiple damaging viruses to cereal crops, with Wheat streak mosaic virus (WSMV) and Wheat mosaic virus (WMoV) being the most important. Although WCM and transmitted viruses have been of concern to cereal growers and researchers for at least six decades, they continue to represent a challenge. In older affected areas, for example in North America, this mite-virus complex still has significant economic impact. In Australia and South America, where this problem has only emerged in the last decade, it represents a new threat to winter cereal production. The difficulties encountered in making progress towards managing WCM and its transmitted viruses stem from the complexity of the pathosystem. The most effective methods for minimizing losses from WCM transmitted viruses in cereal crops have previously focused on cultural and plant resistance methods. This paper brings together information on biological and ecological aspects of WCM, including its taxonomic status, occurrence, host plant range, damage symptoms and economic impact. Information about the main viruses transmitted by WCM is also included and the epidemiological relationships involved in this vectored complex of viruses are also addressed. Management strategies that have been directed at this mite-virus complex are presented, including plant resistance, its history, difficulties and advances. Current research perspectives to address this invasive mite-virus complex and minimize cereal crop losses worldwide are also discussed.

Triticum mosaic virus: a distinct member of the family potyviridae with an unusually long leader sequence.

Abstract: Tatineni, S., Ziems, A. D., Wegulo, S. N., and French, R. 2009. Triticum mosaic virus: A distinct member of the family Potyviridae with an unusually long leader sequence. Phytopathology 99:943-950. The complete genome sequence of Triticum mosaic virus (TriMV), a member in the family Potyviridae, has been determined to be 10,266 nucleotides (nt) excluding the 3′ polyadenylated tail. The genome encodes a large polyprotein of 3,112 amino acids with the “hall-mark proteins” of potyviruses, including a small overlapping gene, PIPO, in the P3 cistron. The genome of TriMV has an unusually long 5′ nontranslated region of 739 nt with 12 translation initiation codons and three small open reading frames, which resemble those of the internal ribosome entry site containing 5′ leader sequences of the members of Picornaviridae. Pairwise comparison of 10 putative mature proteins of TriMV with those of representative members of genera in the family Potyviridae revealed 33 to 44% amino acid identity within the highly conserved NIb protein sequence and 15 to 29% amino acid identity within the least conserved P1 protein, suggesting that TriMV is a distinct member in the family Potyviridae. In contrast, TriMV displayed 47 to 65% amino acid sequence identity with available sequences of mature proteins of Sugarcane streak mosaic virus (SCSMV), an unassigned member of the Potyviridae. Phylogenetic analyses of the complete polyprotein, NIa-Pro, NIb, and coat protein sequences of representative species of six genera and unassigned members of the family Potyviridae suggested that TriMV and SCSMV are sister taxa and share a most recent common ancestor with tritimoviruses or ipomoviruses. These results suggest that TriMV and SCSMV should be classified in a new genus, and we propose the genus Poacevirus in the family Potyviridae, with TriMV as the type member. Additional keyword: wheat. Viruses from several different families infect wheat (Triticum aestivum L.) in the Great Plains and other parts of the United States. These viruses include Agropyron mosaic virus (AgMV), Barley yellow dwarf virus, Soil-borne wheat mosaic virus, Triticum mosaic virus (TriMV), Wheat American striate mosaic virus, Wheat mosaic virus, and Wheat streak mosaic virus (WSMV) (6,20,21). Among these viruses, WSMV is an economically important virus causing significant yield losses in the United States (6). TriMV was recently reported from Kansas, naturally infecting WSMV-resistant wheat cultivars (20); however, the impact of this virus on yield losses in wheat remains to be known. The Potyviridae is the largest family of positive-stranded RNA viruses infecting plants, divided into six genera based on their genetic relatedness, vector transmission, and genome organization (2,5). The genus Potyvirus, with Potato virus Y (PVY) as the type member, contains numerous economically important aphidtransmitted virus species and is the most thoroughly characterized genus among the family Potyviridae. Other genera include Rymovirus, with Ryegrass mosaic virus (RGMV) as the type species, transmitted by Abacarus mites; Tritimovirus, with WSMV as the type member, vectored by wheat curl mites (Aceria tosichella); Ipomovirus, with Sweet potato mild mottle virus (SPMMV) as the type species, transmitted by whiteflies; and Macluravirus, with Maclura mosaic virus (MacMV) as the type species, with characteristic short virus particles transmitted by aphids. These five genera all contain monopartite viruses, whereas the genus Bymovirus, with Barley yellow mosaic virus (BaYMV) as the type member, contains bipartite viruses transmitted by plasmodio