Project description:Rousettus aegyptiacus aegyptiacus Proteomic

Project description:Rousettus aegyptiacus aegyptiacus Genome sequencing and assembly

Project description:Rousettus aegyptiacus overview

Project description:Rousettus aegyptiacus Transcriptome or Gene expression

Project description:Rousettus aegyptiacus isolate:US006 Genome sequencing and assembly

Project description:Rousettus aegyptiacus isolate:1219 Genome sequencing and assembly

Project description:Rousettus aegyptiacus (Egyptian fruit bat) Genome sequencing, assembly and annotation

Project description:Fecal microbiota of Rousettus aegyptiacus Targeted loci environmental

Project description:Abstract from accompanying publication: "Bats host a number of viruses that cause severe disease in humans without experiencing overt symptoms of disease themselves. While the mechanisms underlying this ability to avoid sickness are not known, deep sequencing studies of bat genomes have uncovered genetic adaptations that may have functional importance in the antiviral response of these animals. Egyptian rousette bats (Rousettus aegyptiacus) are the natural reservoir hosts of Marburg virus (MARV). In contrast to humans, these bats do not become sick when infected with MARV. A striking difference to the human genome is that Egyptian rousettes have an expanded repertoire of IFNW genes. To probe the biological implications of this expansion, we synthesized IFN-ω4 and IFN-ω9 proteins and tested their antiviral activity in Egyptian rousette cells. Both IFN-ω4 and IFN-ω9 showed antiviral activity against RNA viruses, including MARV, with IFN-ω9 being more efficient than IFN-ω4. Using RNA-Seq, we examined the transcriptional response induced by each protein. Although the sets of genes induced by the two IFNs were largely overlapping, IFN-ω9 induced a more rapid and intense response than did IFN-ω4. About 13% of genes induced by IFN-ω treatment are not found in the Interferome or other ISG databases, indicating that they may be uniquely IFN-responsive in this bat."

Project description:Study was performed in order to determine the scope of antiviral response of Rousettus aegyptiacus-derived fibroblasts to Sendai and Marburg virus infection. This study aids in understanding the function of the expanded immune repertoire of Rosettus aegyptiacus.