Project description:In order to analyze the production of small RNA (sRNA) by viroids upon infecting the plants, the tomato plants (Lycopersicum esculentum cv. Rutgers) were inoculated with the variants of Potato spindle tuber viroid (PSTVd). After 21-days of post inoculation, total RNA was extracted and subjected for deep-sequencing using Illumina platform. The primers were trimmed and only 21- to 24-nt long small RNAs were filtered after quality check of the raw data. The filtered 21- to 24-nt was mapped against the genomic and antigenomic strands of the respective PSTVd variants using standard pattern matching algorithm. The profiling of viroid derived sRNA (vd-sRNA) revealed that the viroids are susceptible to host RNA silencing mechanism. Evaluation of the vd-sRNA production in PSTVd infected tomato plants by high-throughput sequencing of small RNAs.
Project description:In order to analyze the production of small RNA (sRNA) by viroids upon infecting the plants, the tomato plants (Lycopersicum esculentum cv. Rutgers) were inoculated with the variants of Potato spindle tuber viroid (PSTVd). After 21-days of post inoculation, total RNA was extracted and subjected for deep-sequencing using Illumina platform. The primers were trimmed and only 21- to 24-nt long small RNAs were filtered after quality check of the raw data. The filtered 21- to 24-nt was mapped against the genomic and antigenomic strands of the respective PSTVd variants using standard pattern matching algorithm. The profiling of viroid derived sRNA (vd-sRNA) revealed that the viroids are susceptible to host RNA silencing mechanism.
Project description:In order to verify the production of viroid specific small RNAs (vd-sRNA) by viroids upon infecting plants, the tomato plants (Lycopersicum esculentum cv. Rutgers) were inoculated with Potato spindle tuber viroid (PSTVd) variants. After 21-days of post inoculation, total RNA was extracted and subjected for deep-sequencing using Illumina platform. Obtained data was analyzed for the presence of PSTVd specific small RNAs.
Project description:Potato (Solanum tuberosum L) is a natural host of Potato spindle tuber viroid (PSTVd) which can cause characteristic symptoms on developing plants including stunting phenotype and distortion of leaves and tubers. PSTVd is the type species of the family Pospiviroidae, it can replicate in the nucleus and the viroid RNA moves systemically in infected plants. Its KF440-2 strain can cause severe symptoms in potato. It is not well understood how the viroid can affect host genes for successful invasion and which genes show altered expression levels upon infection. In this study, we used a high-scale method to identify differentially expressed genes in potato. We have identified defence, stress and sugar metabolism related genes having altered expression levels upon infection. Additionally, hormone pathways connected genes showed up- or down-regulation. Our primary focus is on the identification of genes which can affect tuber formation as the viroid infection can strongly influence tuber development, especially tuber shape is affected. DWARF1/DIMINUTO, Gibberellin 7-oxidase and BEL5 protein were identified and validated which showed differential expression in viroid infected tissues suggesting that gibberellin and brassinosteroid pathways have a possible role in tuber development upon PSTVd infection.
Project description:We employed microarray analysis to observe dynamic changes of gene expression profiles in response to mild and severe potato spindle tuber (PSTVd) infection in the leaves of tomato cv ‘Rutgers’.
Project description:We employed microarray analysis to observe dynamic changes of gene expression profiles in response to mild and severe potato spindle tuber (PSTVd) infection in the roots of tomato cv ‘Rutgers’.
Project description:In order to analyze the production of small RNA (sRNA) by Potato spindle tuber viroid- RG1 strain (PSTVd-RG1) upon infecting the plants, the tomato plants (Lycopersicum esculentum cv. Rutgers) were inoculated with the PSTVd-RG1. After 21-days of post inoculation, total RNA was extracted and subjected for deep-sequencing using Illumina MiSeq platform. The primers were trimmed and the 21- to 24-nt long small RNA species were filtered after quality check of the raw data.
Project description:WT plants (at the five-leaf stage) were infected with PSTVd strain NB by agroinfiltration. Three weeks post infection (3 wpi) young leaves were collected from infected and uninfected (control) WT plants and used in a custom genome-wide gene expression microarray (4x 180K Sureprint G3 microarray, Agilent)
Project description:Potato (Solanum tuberosum L) is a natural host of Potato spindle tuber viroid (PSTVd) which can cause characteristic symptoms on developing plants including stunting phenotype and distortion of leaves and tubers. PSTVd is the type species of the family Pospiviroidae, and can replicate in the nucleus and move systemically throughout the plant. It is not well understood how the viroid can affect host genes for successful invasion and which genes show altered expression levels upon infection. Our primary focus in this study is the identification of genes which can affect tuber formation since viroid infection can strongly influence tuber development and especially tuber shape. In this study, we used a large-scale method to identify differentially expressed genes in potato. We have identified defence, stress and sugar metabolism related genes having altered expression levels upon infection. Additionally, hormone pathway related genes showed significant up- or down-regulation. DWARF1/DIMINUTO, Gibberellin 7-oxidase and BEL5 transcripts were identified and validated showing differential expression in viroid infected tissues. Our study suggests that gibberellin and brassinosteroid pathways have a possible role in tuber development upon PSTVd infection.
