Pol IV and RDR2: A two-RNA-polymerase machine that produces double-stranded RNA.

DNA methylation affects gene expression and maintains genome integrity. The DNA-dependent RNA polymerase IV (Pol IV), together with the RNA-dependent RNA polymerase RDR2, produces double-stranded small interfering RNA precursors essential for establishing and maintaining DNA methylation in plants. We determined the cryo­electron microscopy structures of the Pol IV­RDR2 holoenzyme and the backtracked transcription elongation complex. These structures reveal that Pol IV and RDR2 form a complex with their active sites connected by an interpolymerase channel, through which the Pol IV­generated transcript is handed over to the RDR2 active site after being backtracked, where it is used as the template for double-stranded RNA (dsRNA) synthesis. Our results describe a 'backtracking-triggered RNA channeling' mechanism underlying dsRNA synthesis and also shed light on the evolutionary trajectory of eukaryotic RNA polymerases.

Epicatechin isolated from Tripterygium wilfordii extract reduces tau-GFP-induced neurotoxicity in zebrafish embryo through the activation of Nrf2.

Tau plays important roles in the assembly and stabilization of the microtubule structure to facilitate axonal transport in mammalian brain. The intracellular tau aggregates to form paired helical filaments leading to neurodegenerative disorders, collectively called tauopathies. In our previous report, we established a zebrafish model to express tau-GFP to induce neuronal death, which could be directly traced in vivo. Recently, we used this model to screen 400 herbal extracts and found 45 of them to be effective on reducing tau-GFP-induced neuronal death. One of the effective herbal extracts is the Tripterygium wilfordii stem extract. HPLC analysis and functional assay demonstrated that epicatechin (EC) is the major compound of Tripterygium wilfordii stem extract to decrease the neurotoxicity induced by tau-GFP. Using a luciferase reporter assay in the zebrafish, we confirmed that EC could activate Nrf2-dependent antioxidant responses to significantly increase the ARE-controlled expression of luciferase reporter gene. These data suggest that EC from the Tripterygium wilfordii stem extract could diminish tau-GFP-induced neuronal death through the activation of Nrf2.

Characterization of the Scutellaria barbata glycosyltransferase gene and its promoter.

The conversion of flavonoid aglycones to their glycosides by plant glycosyltransferases may affect a wide range of outcomes, including stability, solubility and bioavailability. Scutellaria barbata, rich in flavonoid glycosides, is widely used as a traditional Chinese herbal medicine. In this study, a flavonoid glycosyltransferase cDNA (SbUGT) and its promoter from S. barbata were cloned and characterized as a flavonoid glycosyltransferase using whole-cell biotransformation. Fragments of different lengths of the 5'-flanking region of the SbUGT gene were fused to the beta-glucuronidase (GUS) gene and analyzed with transgenic Arabidopsis plants using histochemical and fluorometric assays. GUS activity in transgenic plants carrying the SbP-850U construct (-850 to +86 relative to the transcription start site) displayed the highest level and was enhanced by salt and methyl jasmonate, similar to the expression patterns of the endogenous SbUGT. GUS activity disappeared when the promoter was deleted to -98, and deletion analyses indicated the existence of positive and negative regulatory element(s). Unexpectedly, plants carrying the construct SbP-102U (-102 to +86) exhibited strong GUS activity exclusively in the roots. Our experiments revealed that the specific expression is mediated by different promoter regions and the unique region driving root-preferred expression can be used as a root-specific promoter.

Authentication of medicinal herbs using PCR-amplified ITS2 with specific primers.

Different parts of medicinal herbs have long been used as traditional Chinese drugs for treating many diseases, whereas materials of similar morphology and chemical fingerprints are often misidentified. Analyses of sequence variations in the nuclear ribosomal DNA (rDNA) internal transcribed spacer (ITS) have become a valid method for authentication of medicinal herbs at the intergenic and interspecific levels. DNA extracted from processed materials is usually severely degraded or contaminated by microorganisms, thus generates no or unexpected PCR products. The goal of this study is to apply the ITS fragments selectively amplified with two designed primer sets for efficient and precise authentication of medicinal herbs. The designed primers led to an accurate PCR product of the specific region in ITS2, which was confirmed with DNA extracted from 55 processed medicinal herbs belonging to 48 families. Moreover, the selectively amplified ITS2 authenticated five sets of easily confusable Chinese herbal materials. The designed primers were proven to be suitable for a broad application in the authentication of herbal materials.