Molecular characterization of A2 and D strains of Soybean mosaic virus, which caused a recent virus outbreak in soybean cultivar Sachiyutaka in Chugoku and Shikoku regions of Japan

Coat protein sequences of two isolates in strain A₂ and five isolates in strain D of Soybean mosaic virus (SMV), which caused a recent mosaic outbreak in soybeans (cv. Sachiyutaka) in Chugoku and Shikoku in Japan, were compared to published data on 15 other Asian-origin isolates. Sequence comparison and cluster analysis showed that SMV isolates of strain A₂ from these districts were closely related, as were those of strain D, but strains A₂ and D were not. Thus, the two strains may have different origins and be carried through seed transmission.     

Identification and validation of a quantitative trait locus associated with wheat yellow mosaic virus pathotype I resistance in a Japanese wheat variety

Yellow mosaic disease, caused by wheat yellow mosaic virus (WYMV), is one of the most serious diseases of winter wheat (Triticum aestivum L.) in Japan. The three pathotypes of WYMV are distributed in different geographical areas: pathotype I is found mainly in western and central Japan (Kanto), pathotype II in northern Japan (Tohoku and Hokkaido) and pathotype III on the southern island of Japan (Kyushu). A total of 246 doubled‐haploid (DH) lines, derived from a cross between ‘Yumechikara’ (resistant) and ‘Kitahonami’ (susceptible), were evaluated for 2 years for their resistance to WYMV pathotype I. A single major quantitative trait locus, Q.Ymym, mapping to chromosome 2D was associated with resistance to pathotype I in ‘Yumechikara’. This is the first time a QTL responsible for pathotype I resistance has been identified. Fine mapping of Q.Ymym indicated that it was on a tight linkage block originating from ‘Yumechikara’, and the markers associated with this block will accelerate the development of varieties resistant to WYMV pathotype I.     

Preparation and characterization of polyclonal antibody against resting spores of Olpidium virulentus, fungal vector of lettuce big-vein disease

Research on Olpidium virulentus, the vector of the serious lettuce big-vein disease, is difficult because its resting spores persist in soil and retain virus for years and the fungus is not culturable. We developed protocols to obtain purified, viable resting spores from infected roots using an enzymatic treatment and two-step density gradient centrifugation and to generate a polyclonal antibody against these spores. The antibody was species-specific in a direct immunostaining assay and in western blots produced two specific bands (ca. 30.5, 29.0 kDa) against resting spores. The detection limit for resting spores in an indirect ELISA was 200 spores/100 μL.     

Further evidence of Mirafiori lettuce big-vein virus but not of Lettuce big-vein associated virus with big-vein disease in lettuce

Mirafiori lettuce big-vein virus (MLBVV) and Lettuce big-vein associated virus (LBVaV) are found in association with big-vein disease of lettuce. Discrimination between the two viruses is critical for elucidating the etiology of big-vein disease. Using specific antibodies to MLBVV and LBVaV for western blotting and exploiting differences between MLBVV and LBVaV in host reaction of cucumber and temperature dependence in lettuce, we separated the two viruses by transfering each virus from doubly infected lettuce plants to cucumber or lettuce plants. A virus-free fungal isolate was allowed to acquire the two viruses individually or together. To confirm the separation, zoospores from MLBVV-, LBVaV-, and dually infected lettuce plants were used for serial inoculations of lettuce seedlings 12 successive times. Lettuce seedlings were infected at each transfer either with MLBVV alone, LBVaV alone, or both viruses together, depending on the virus carried by the vector. Lettuce seedlings infected with MLBVV alone developed the big-vein symptoms, while those infected with LBVaV alone developed no symptoms. In field surveys, MLBVV was consistently detected in lettuce plants from big-vein-affected fields, whereas LBVaV was detected in lettuce plants not only from big-vein-affected fields but also from big-vein-free fields. LBVaV occurred widely at high rates in winter-spring lettuce-growing regions irrespective of the presence of MLBVV and, hence, of the presence of the big-vein disease.     

Diversity of rDNA-ITS sequences of <Emphasis Type="Italic">Polymyxa graminis</Emphasis> from wheat and barley in Japan

Polymyxa graminis is a soil-borne obligate organism that transmits bymoviruses and furoviruses to barley and wheat. We analyzed rDNA-ITS sequences of P. graminis from roots of wheat and barley in fields in Japan and obtained five kinds of sequences; two sequences were almost the same as known ribotype Ia and IIa, respectively, and three were close to ribotype Ib. When infection of P. graminis was examined using PCR, ribotype Ia was detected only in barley, but ribotypes Ib and IIa were detected in both wheat and barley. Our analysis suggested that Japanese ribotype Ib transmits furoviruses and bymoviruses.     

Plant viruses and viroids in Japan

Journal of General Plant Pathology - An increasing number of plant viruses and viroids have been reported from all over the world due largely to metavirogenomics approaches with technological...     

Nucleotide sequence of the coat protein gene of Mirafiori lettuce virus

 The coat protein (CP) gene of Mirafiori lettuce virus (MiLV), a tentative member of the genus Ophiovirus was isolated and sequenced. The established sequence consists of 1514 nucleotides including one open reading frame (ORF) with 1311 nucleotides that encodes 437 amino acids with a relative molecular mass 48 543. When the ORF was expressed in Escherichia coli, the obtained protein was confirmed as CP by Western blotting using an antiserum against MiLV. Database searches showed that the CP gene of MiLV has a sequence similar to that of Citrus psorosis virus (CPsV), the type species of the genus Ophiovirus. The comparison between MiLV and CPsV CP genes revealed that the identities of the nucleotide and amino acid sequences were 46.5% and 30.9%, respectively. Received: July 29, 2002 / Accepted: October 2, 2002     

Molecular analysis and virus transmission tests place Olpidium virulentus, a vector of Mirafiori lettuce big-vein virus and tobacco stunt virus, as a distinct species rather than a strain of Olpidium brassicae

The rDNA-ITS sequences of ten single-sporangium isolates of Olpidium virulentus (a noncrucifer strain of Olpidium brassicae), which transmits Mirafiori lettuce big-vein virus (MLBVV) and tobacco stunt virus (TStV), were compared with those of six single-sporangium isolates of O. brassicae. The sequence similarity within isolates of O. virulentus or O. brassicae was almost identical (98.5%–100.0%), but was low between the two species (79.7%–81.8%). In a phylogenetic analysis of the rDNA-ITS region, O. virulentus and O. brassicae fell into two distinct clusters, indicating that O. virulentus, a vector of MLBVV and TStV, is a distinct species rather than a strain of O. brassicae.