Project description:ra06-05_potyvirus-ecotypes - arabidopsis ecotypes - Common and specific genes deregulated in response to various potyviruses in different Arabidopsis genetic backgrounds. - Four different Arabidopsis ecotypes were inoculated with one Potyviruse. About 4 weeks after sowing, the 6 expanded leaves plants were inoculated with the different viruses or were mock-inoculated. Seven days after inoculation, inoculated leaves were collected, RNA was extracted and virus infection controlled. RNA fron infected plants was then used for microarrays hybridization. Three biological repeat have been done and two dye-swap. Keywords: normal vs disease comparison
Project description:Arabidopsis ecotype Col-0 expressing RPL18 fused to His & Flag epitopes (RPL18-HF) under 35S control was used to discern the effects of Turnip mosaic virus (TuMV) infection on host translation initiation. Plants were grown in LC-1 soil in 12 hour days and infected by TuMV-GFP or mock-inoculated just prior to sending up bolts. Samples were taken from rosette leaves 10 days after inoculation. Only tissue fluorescing GFP was selected from the virus-infected samples. Similar tissue was sampled from mock-infected leaves. FLAG antibody was used to isolate RPL18-HF. The RNA co-immunoprecipitated with RPL18-HF is fully translation-initiated. This translation-initiated RNA, also referred to as polysomal RNA, was isolated and compared to total RNA under both mock and TuMV-infected states to find TuMV-induced changes in host translation initiation. ****[PLEXdb(http://www.plexdb.org) has submitted this series at GEO on behalf of the original contributor, Jackson Moeller. The equivalent experiment is AT42 at PLEXdb.]
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 .
Project description:Belonging to the Carmovirus family, Turnip crinkle virus (TCV) is a positive-strand RNA virus that can infect Arabidopsis. Most Arabidopsis ecotypes are highly susceptible to TCV, except for the TCV resistant line Di-17 derived from ecotype Dijon. Previous studies showed that many of the stress related genes have changed significantly after TCV infection. Besides the virus-triggered genes, small RNAs also play critical roles in plant defense by triggering either transcriptional and/or post-transcriptional gene silencing. In this study, TCV-infected wildtype Arabidopsis thaliana and dcl1-9 mutant plants were subjected to transcriptome and small RNA analysis to investigate the role of DCL1 in virus defense network.
Project description:Belonging to the Carmovirus family, Turnip crinkle virus (TCV) is a positive-strand RNA virus that can infect Arabidopsis. Most Arabidopsis ecotypes are highly susceptible to TCV, except for the TCV resistant line Di-17 derived from ecotype Dijon. Previous studies showed that many of the stress related genes have changed significantly after TCV infection. Besides the virus-triggered genes, small RNAs also play critical roles in plant defense by triggering either transcriptional and/or post-transcriptional gene silencing. In this study, TCV-infected wildtype Arabidopsis thaliana and dcl1-9 mutant plants were subjected to transcriptome and small RNA analysis to investigate the role of DCL1 in virus defense network.
Project description:Seedlings of 35 different Arabidopsis thaliana ecotypes were compared. Triplicates were performed of 10 ecotpyes, single arrays of 25 ecotypes.
Project description:Arabidopsis ecotype Col-0 expressing RPL18 fused to His & Flag epitopes (RPL18-HF) under 35S control was used to discern the effects of Turnip mosaic virus (TuMV) infection on host translation initiation. Plants were grown in LC-1 soil in 12 hour days and infected by TuMV-GFP or mock-inoculated just prior to sending up bolts. Samples were taken from rosette leaves 10 days after inoculation. Only tissue fluorescing GFP was selected from the virus-infected samples. Similar tissue was sampled from mock-infected leaves. FLAG antibody was used to isolate RPL18-HF. The RNA co-immunoprecipitated with RPL18-HF is fully translation-initiated. This translation-initiated RNA, also referred to as polysomal RNA, was isolated and compared to total RNA under both mock and TuMV-infected states to find TuMV-induced changes in host translation initiation. ****[PLEXdb(http://www.plexdb.org) has submitted this series at GEO on behalf of the original contributor, Jackson Moeller. The equivalent experiment is AT42 at PLEXdb.] pathogen infection: TuMV inoculated - RNA fraction: polysomal RNA(3-replications); pathogen infection: TuMV inoculated - RNA fraction: total RNA(3-replications); pathogen infection: mock inoculated - RNA fraction: polysomal RNA(3-replications); pathogen infection: mock inoculated - RNA fraction: total RNA(3-replications)
Project description:ra06-05_potyvirus-ecotypes - arabidopsis ecotypes - Common and specific genes deregulated in response to various potyviruses in different Arabidopsis genetic backgrounds. - Four different Arabidopsis ecotypes were inoculated with one Potyviruse. About 4 weeks after sowing, the 6 expanded leaves plants were inoculated with the different viruses or were mock-inoculated. Seven days after inoculation, inoculated leaves were collected, RNA was extracted and virus infection controlled. RNA fron infected plants was then used for microarrays hybridization. Three biological repeat have been done and two dye-swap. Keywords: normal vs disease comparison 6 dye-swap - CATMA arrays