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Rattle Virus (rattle + virus)
Kinds of Rattle Virus Selected AbstractsTobraviruses,plant pathogens and tools for biotechnologyMOLECULAR PLANT PATHOLOGY, Issue 4 2010STUART A. MACFARLANE SUMMARY The tobraviruses, Tobacco rattle virus (TRV), Pea early-browning virus (PEBV) and Pepper ringspot virus (PepRSV), are positive-strand RNA viruses with rod-shaped virus particles that are transmitted between plants by trichodorid nematodes. As a group, these viruses infect many plant species, with TRV having the widest host range. Recent studies have begun to dissect the interaction of TRV with potato, currently the most commercially important crop disease caused by any of the tobraviruses. As well as being successful plant pathogens, these viruses have become widely used as vectors for expression in plants of nonviral proteins or, more frequently, as initiators of virus-induced gene silencing (VIGS). Precisely why tobraviruses should be so effective as VIGS vectors is not known; however, molecular studies of the mode of action of the tobravirus silencing suppressor protein are shedding some light on this process. [source] Rapid analysis of Jatropha curcas gene functions by virus-induced gene silencingPLANT BIOTECHNOLOGY JOURNAL, Issue 9 2009Jian Ye Summary Jatropha curcas L. is a small, woody tree of the Euphorbiaceae family. This plant can grow on marginal land in the tropical and subtropical regions and produces seeds containing up to 30% oil. Several Asian countries have selected Jatropha for large scale planting as a biodiesel feedstock. Nevertheless, Jatropha also possesses several undesirable traits that may limit its wide adoption. An improved understanding of plant development and the regulation of fatty acid (FA) and triacylglyceride biosynthesis in Jatropha is particularly facilitative for the development of elite crops. Here, we show that a tobacco rattle virus (TRV) vector can trigger virus-induced gene silencing (VIGS) in Jatropha. Our optimized method produced robust and reliable gene silencing in plants agroinoculated with recombinant TRV harbouring Jatropha gene sequences. We used VIGS to investigate possible functions of 13 Jatropha genes of several functional categories, including FA biosynthesis, developmental regulation and toxin biosynthesis, etc. Based on the effects of VIGS on the FA composition of newly emerged leaves, we determined the function of several genes implicated in FA biosynthesis. Moreover, VIGS was able to discriminate independent functions of related gene family members. Our results show that VIGS can be used for high-throughput screening of Jatropha genes whose functions can be assayed in leaves. [source] Silencing a prohibitin alters plant development and senescenceTHE PLANT JOURNAL, Issue 1 2005Jen-Chih Chen Summary Prohibitins, highly conserved mitochondrial proteins, have been shown to play important roles in cell cycling and senescence in animals and yeast. Sequences with high similarity to prohibitins have been identified in a number of plant species, but their function has not yet been demonstrated. The deduced amino acid sequences of PhPHB1 and PhPHB2, sequences that we identified in a petunia floral expressed sequence tag (EST) database, show high similarity to those of prohibitin-1 and prohibitin-2 proteins, respectively, reported from yeast, animals and plants. Southern analysis suggested that these genes were members of small gene families with at least two prohibitin-1 homologs and four prohibitin-2 homologs. When we downregulated expression of prohibitin-1 using a Tobacco rattle virus-based (TRV), virus-induced gene silencing system (VIGS), we observed plants with smaller and distorted leaves and flowers. Cells in silenced flowers were larger than in control flowers, indicating a substantial reduction in the number of cell divisions that took place during corolla development. The life of silenced flowers was shorter than that of controls, whether on the plant or detached. The respiration of silenced flowers was higher than that of controls, and we observed a marked increase in the abundance of transcripts of a catalase and a small heat-shock protein in the silenced flowers. Our data indicate that prohibitins play a key role in plant development and senescence. [source] Virus-induced gene silencing in tomatoTHE PLANT JOURNAL, Issue 6 2002Yule Liu Abstract We have previously demonstrated that a tobacco rattle virus (TRV)-based vector can be used in virus-induced gene silencing (VIGS) to study gene function in Nicotiana benthamiana. Here we show that recombinant TRV infects tomato plants and induces efficient gene silencing. Using this system, we suppressed the PDS, CTR1 and CTR2 genes in tomato. Suppression of CTR1 led to a constitutive ethylene response phenotype and up-regulation of an ethylene response gene, CHITINASE B. This phenotype is similar to Arabidopsis ctr1 mutant plants. We have constructed a modified TRV vector based on the GATEWAY recombination system, allowing restriction- and ligation-free cloning. Our results show that tomato expressed sequence tags (ESTs) can easily be cloned into this modified vector using a single set of primers. Using this vector, we have silenced RbcS and an endogenous gene homologous to the tomato EST cLED3L14. In the future, this modified vector system will facilitate large-scale functional analysis of tomato ESTs. [source] Detection, distribution and control of Potato mop-top virus, a soil-borne virus, in northern EuropeANNALS OF APPLIED BIOLOGY, Issue 2 2010J. Santala Potato mop-top virus (PMTV; genus Pomovirus; family Virgaviridae) is transmitted by the soil-borne Spongospora subterranea f.sp. subterranea, a protoctist that causes powdery scab on potato. PMTV is distributed widely in the potato growing areas in South and North America, Japan and northwestern Europe. This article reviews the current knowledge on detection, distribution and control of PMTV with focus on the Baltic Sea region. Since the 1980s, PMTV has caused great economic losses to potato production in the Nordic countries (Norway, Sweden, Denmark and Finland), but its occurrence in other countries of the Baltic Sea region remained unknown. To fill this knowledge gap, harmonised sampling and virus detection procedures including bioassays and serological and molecular methods were employed by 21 research institutions to detect PMTV in potato tubers and soil samples in 2005,2008. Potato growing areas were widely contaminated with PMTV in the Nordic countries. Only the main seed potato production area in northern Sweden and the High Grade seed potato production zone in Finland were negative for PMTV. Intensive and systematic surveys in Poland in 2004,2008 found no evidence of PMTV, except a single PMTV-infected tuber detected in 2008. Surveys in the Baltic countries (Lithuania, Latvia and Estonia) and northwestern Russia (Leningrad province) were negative for PMTV, except infection of minitubers in a screenhouse in Latvia in 2005. Varying percentages of tubers expressing spraing symptoms in Sweden, Norway, Denmark and Poland were infected with Tobacco rattle virus, and bioassays indicated similar results for Russia. Incidence of symptomless infections with PMTV was high in tubers of many potato cultivars. Here, we discuss the contrasting patterns of distribution of PMTV in the Baltic Sea region, factors playing a role in dispersal and establishment of PMTV in new fields and means for controlling PMTV and its spread to new areas. We emphasise the use of the current virus-specific methods for the detection of PMTV in symptomless potato tubers and the high risks of disseminating PMTV to new fields and areas in viruliferous resting spores of S. subterranea in the soil adhering to seed tubers. PMTV-resistant potato cultivars will provide the only sustainable means for preventing yield losses in the infested fields and the prospects of resistance breeding are summarised. [source] | ||||||||||