Project description:AGO protein immunoprecipitation was combined with high-throughput sequencing of associated small RNAs. AGO2, AGO10, and to a lesser extent AGO1 were shown to associate with siRNAs derived from silencing suppressor (HC-Pro)-deficient TuMV-AS9, but not with siRNAs derived from wild-type TuMV. Co-immunoprecipitation and small RNA sequencing revealed that viral siRNAs broadly associated with wild-type HC-Pro during TuMV infection. These results support the hypothesis that suppression of antiviral silencing during TuMV infection, at least in part, occurs through sequestration of virus-derived siRNAs away from antiviral AGO proteins by HC-Pro.

Project description:Successful subversion of translation initiation factors 4E and 4G determines the infection success of potyviruses, the largest group of viruses affecting plants. Functional redundancy among these factors allows to engineer resistances through their genetic inactivation, however recent findings indicate that this strategy may be deleterious for the plant health and virus susceptibility. Here, we explored the cause of these adverse effects by studying the role of the Arabidopsis eIF4E1, which inactivation was previously reported not only to confer plant virus resistance, but also to induce increased susceptibility to the potyvirus turnip mosaic virus (TuMV). We report that eIF4E1 is required to maintain the global plant translational activity and to restrict TuMV accumulation during infection, as its absence is associated with a favoured virus multiplication over host translation.

Project description:Mustard (Brassica juncea) was tested for Turnip mosaic virus infection. Small RNA of the plant was extracted and converted to DNA according to Ho, T., et al. (2006) Journal of Virological Methods 136:217-223, with primers modified to contain 454 adapter nucleotide sequences. The DNA then passed quality control through Bioanalyzer and Nanodrop before sequenced by 454 Life Sciences. Keywords: siRNA One sample analyzed by 454 high-throughput sequencing technology

Project description:Virus infection triggers widespread silencing of host genes by a distinct class of endogenous siRNAs in Arabidopsis This study constructed and sequenced two independent small RNA libraries from the upper uninoculated leaves of (i) WT Arabidopsis plants 14 d after mock inoculation and of (ii) rdr1 rdr6 plants 14 d after infection with Fny CMV-Δ2b, and one library each from the upper uninoculated leaves of (iii) WT, (iv) rdr1, and (v) rdr6 plants 14 d after infection with TuMV-GFP. Coimmunoprecipitation with FLAG- and HA-specific antibodies was used to obtain (vi,vii) AGO1 and (viii,ix) AGO2 complexes, respectively, from the FLAG-AGO1/ago1-36 and HA-AGO2 plants 14 d after infection with Fny CMV-Δ2b for extracting total loaded small RNAs for the construction and sequencing of small RNA libraries.

Project description:Wheat streak mosaic virus (WSMV) and Triticum mosaic virus (TriMV) are type members of Tritimovirus and Poacevirus genera, respectively, in the family Potyviridae, and are transmitted by wheat curl mites. Co-infection of these two viruses causes synergistic interaction with increased virus accumulation and disease severity in wheat. In this study, we examined the effects of synergistic interaction between WSMV and TriMV on endogenous small (s) RNAs and virus-specific small interfering RNAs (vsiRNAs) in susceptible (Arapahoe) and temperature-sensitive resistant (Mace) wheat cultivars at 27C and 18C. Single- and double-infections in wheat caused a shift in the profile of endogenous sRNAs from 24 nt being the most predominant in healthy plants to 21 nt in infected wheat. Additionally, we report high-resolution vsiRNA maps of WSMV and TriMV in singly- and doubly-infected wheat cultivars Arapahoe and Mace at 18C and 27C. Massive amounts of 21 and 22 nt vsiRNA reads were accumulated in Arapahoe at both temperatures and in Mace at 27C but not at 18C. The plus- and minus-sense vsiRNAs were distributed throughout the genomic RNAs in Arapahoe at both temperature regimens and in Mace at 27C, although some regions of genomic RNAs serve as hot-spots with an excessive number of vsiRNAs. The positions of vsiRNA peaks were conserved among wheat cultivars Arapahoe and Mace, suggesting that Dicer-like enzymes of susceptible and resistant wheat cultivars are similarly accessed the genomic RNAs of WSMV and TriMV. Additionally, several cold-spot regions were found in the genomes of TriMV and WSMV with no or a few vsiRNAs, indicating that certain regions of WSMV and TriMV genomes are not accessible to Dicer-like enzymes. The high-resolution map of endogenous and vsiRNAs from wheat cultivars synergistically infected with WSMV and TriMV at two temperature regimens form a foundation for understanding the virus-host interactions, effect of synergistic interactions on host defense mechanisms, and virus resistance mechanisms in wheat. Small RNA was sequenced from two wheat cultivars (Mace and Araphahoe), at two temperatures 18C and 27C, for healthy (control/uninfected), infected with wheat streak mosaic virus (WSMV), infected with Triticum mosaic virus (TriMV), and a double-infecttion of WSMV and TriMV.

Project description:At 7 and 10 dpi with wild type TuMV or buffer (mock) whole plants (root not included) were collected and total RNA extracted for sRNA sequencing using the Illumina plataform.

Project description:Individual miRNA profile was identified for two Col-0 WT replicates and two Col-0 TuMV infected plant replicate samples, with 12-15 plants in each replicate.Comparison was done based on the microRNA expression profile in both biological replicates for infected and uninfected plant samples . 12-15 plants were used in all sample replicates independently.

Project description:Here we profiled small RNAs from whole cell, cytoplasmic and nuclear extracts from three-week-old Arabidopsis seedlings. We unexpectedly found that nuclear functional hc-siRNAs are predominantly present in the cytoplasm. Samples from Arabidopsis thaliana whole cell, cytoplasmic and nuclear extracts with 3 replicates for each. 9 samples in all.

Project description:The goal of this study was to identify small RNA-ARGONAUTE interactions in Arabidopsis. Co-immunoprecipitation assays followed by high-throughput sequencing were done to identify small RNA associated with HA-AGO2 and HA-AGO7. Experiment Overall Design: Sequencing-by-synthesis technology was used to sequence small RNA from input and co-immunoprecipitation fractions from cell lysates of inflorescence tissue from Arabidopsis plants transformed with HA epitope-tagged AGO2 or AGO7 constructs. Meaningful intepretation requires comparison between the input and co-immunoprecipitation datasets. Experiment Overall Design: Note: Raw data files requested, however, the submitter declined to provide them.

Project description:We analyzed the PD-enriched fraction from Turnip mosaic virus (TuMV)-infected Nicotiana benthmiana (N. benthamiana) by using label-free quantitative proteomics of which 100 and 48 were significantly increased and decreased respectively when compared with mock plants.