Project description:To find out differently expressed circRNAs during Orf virus infection of GSF cells and their potential roles in response to ORFV infection
Project description:Contagious ecthyma (Orf) is a contagious disease with worldwide distribution, caused by the epitheliotropic Orf virus (ORFV), a member of the genus Parapoxvirus. In the current study, we collected the oral mucosa tissues samples (T0, T3, T7 and T15) from sheep at 0, 3, 7 and 15 days post ORFV infection, respectively. To explore the changes of comprehensive transcriptome of host cells from oral mucosa tissues post ORFV infection, the RNA-seq transcriptome comparisons were performed on these samples. It showed that 1928, 3219 and 2646 differentially expressed genes (DEGs) were identified among T3 vs. T0, T7 vs. T0, T15 vs. T0 respectively. Through Gene Ontology (GO) analyses of the DEGs from these comparisons, it revealed that ORFV provoked the vigorous immune response of the host cells during the early stage of infection. Moreover, GO and network analysis revealed that positive and negative regulative mechanisms of apoptosis worked as whole in the host cells, in order to reach a homeostasis of oral mucosa tissues.
Project description:Recent technological advances have expanded the annotated protein coding content of mammalian genomes, as hundreds of previously unidentified, short open reading frame (ORF)-encoded peptides (SEPs) have now been found to be translated. Although several studies have identified important physiological roles for this emerging protein class, a general method to define their interactomes is lacking. Here, we demonstrate that genetic incorporation of the photo-crosslinking noncanonical amino acid AbK into SEP transgenes allows for the facile identification of SEP cellular interaction partners using affinity-based methods. From a survey of seven SEPs, we report the discovery of short ORF-encoded histone binding protein (SEHBP), a conserved microprotein that interacts with chromatin-associated proteins, localizes to discrete genomic loci, and induces a robust transcriptional program when overexpressed in human cells. This work affords a straightforward method to help define the physiological roles of SEPs and demonstrates its utility by identifying SEHBP as a short ORF-encoded transcription factor.
