SummaryPrevious studies have demonstrated that the major storage protein RNAs found in the rice endosperm are transported as particles via actomyosin to specific subdomains of the cortical endoplasmic reticulum. In this study, we examined the potential role of OsTudor-SN, a major cytoskeletal-associated RNA binding protein, in RNA transport and localization. OsTudor-SN molecules occur as high-molecular-weight forms, the integrity of which are sensitive to RNase. Immunoprecipitation followed by RT-PCR showed that OsTudor-SN binds prolamine and glutelin RNAs. Immunofluorescence studies using affinity-purified antibodies show that OsTudor-SNs exists as particles in the cytoplasm, and are distributed to both the protein body endoplasmic reticulum (ER) and cisternal ER. Examination of OsTudor-SN particles in transgenic rice plants expressing GFPtagged prolamine RNA transport particles showed co-localization of OsTudor-SN and GFP, suggesting a role in RNA transport. Consistent with this view, GFP-tagged OsTudor-SN is observed in living endosperm sections as moving particles, a property inhibited by microfilament inhibitors. Downregulation of OsTudor-SN by antisense and RNAi resulted in a decrease in steady state prolamine RNA and protein levels, and a reduction in the number of prolamine protein bodies. Collectively, these results show that OsTudor-SN is a component of the RNA transport particle, and may control storage protein biosynthesis by regulating one or more processes leading to the transport, localization and anchoring of their RNAs to the cortical ER.
Advances in transcriptome sequencing provide fast, cost-effective and reliable approach to generate large expression datasets especially suitable for non-model species to identify putative genes, key pathway and regulatory mechanism. Citronella (Cymbopogon winterianus) is an aromatic medicinal grass used for anti-tumoral, antibacterial, anti-fungal, antiviral, detoxifying and natural insect repellent properties. Despite of having number of utilities, the genes involved in terpenes biosynthetic pathway is not yet clearly elucidated. The present study is a pioneering attempt to generate an exhaustive molecular information of secondary metabolite pathway and to increase genomic resources in Citronella. Using high-throughput RNA-Seq technology, root and leaf transcriptome was analysed at an unprecedented depth (11.7 Gb). Targeted searches identified majority of the genes associated with metabolic pathway and other natural product pathway viz. antibiotics synthesis along with many novel genes. Terpenoid biosynthesis genes comparative expression results were validated for 15 unigenes by RT-PCR and qRT-PCR. Thus the coverage of these transcriptome is comprehensive enough to discover all known genes of major metabolic pathways. This transcriptome dataset can serve as important public information for gene expression, genomics and function genomics studies in Citronella and shall act as a benchmark for future improvement of the crop.
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