Project description:Isodon rubescens overview

Project description:Isodon rubescens degradome

Project description:Isodon rubescens miRNA

Project description:Oridonin is a nature diterpenoid mainly isolated from Chinese herb Rabdosia rubescens and other Isodon species. Nowadays, most of studies focused on the pharmacological effects of oridonin, the metabolism of which remains unclear. In order to investigate the effect of oridonin on metabolism-related genes, we used the second-generation transcriptome sequencing(RNA-seq) to determine the expression changes of each gene in HepG2 cells treated with oridonin.

Project description:Transcriptome data of Isodon rubescens

Project description:Isodon rubescens high-throughput sequencing

Project description:T-T genome of Isodon rubescens f. lushanensis

Project description:The complete chloroplast genome sequence of Isodon rubescens, from Taihang Mountain in China.

Project description:Human cells identify invading pathogens and activate immune signaling pathways through a wide array of pattern recognition receptors, such as DNA sensors. The interferon-inducible protein 16 (IFI16) is a nuclear DNA sensor that recognizes double-stranded DNA from a number of viral sources, including genomes of nuclear-replicating viruses such as the prevalent human pathogen, herpes simplex virus 1 (HSV-1). Upon binding to the DNA genome of HSV-1, IFI16 both induces antiviral cytokine expression and suppresses virus gene expression. Here, we use a multi-omics approach of DNA sequencing techniques paired with targeted mass spectrometry to obtain an extensive view of the interaction between IFI16 and the HSV-1 genome, and how this binding affects the viral DNA structure and protein expression. Through ChIP-seq, we find that IFI16 binds to the HSV-1 genome in a sequence-independent manner while simultaneously exhibiting broad enrichment at two loci: UL30, the viral DNA polymerase gene, and US1-US7. ATAC-seq analysis reveals that these two regions are among the most accessible stretches of DNA on the genome, thereby facilitating IFI16 binding. Accessibility of the entire HSV-1 genome is elevated upon IFI16-KO, indicating that expression of IFI16 globally induces chromatinization of viral DNA, regardless of IFI16 enrichment. Deletion of IFI16 also results in a global increase in the expression of HSV-1 proteins, as measured by parallel reaction monitoring-mass spectrometry. Altogether, we demonstrate that IFI16 interacts with the HSV-1 genome in a sequence-independent manner, and this interaction coordinates epigenetic silencing of the viral genome, resulting in decreased protein expression and virus replication.

Project description:Isodon serra and Isodon lophanthoides var. lophanthoides Transcriptome