Further analyses showed that DDX56 is not required for replication of WNV; however, virions secreted from DDX56-depleted cells contained less viral RNA and were 100 times less infectious. Together, these data suggest that DDX56 is required for assembly https://www.selleckchem.com/products/VX-770.html of infectious WNV particles.”
“The middle
T (MT) antigen of polyomavirus has provided fundamental insights into the regulation of mammalian cell growth in vitro and important animal models for the analysis of tumor induction. The mouse mammary tumor virus (MMTV)-MT model of breast cancer has been important for probing the cellular signaling pathways in mammary tumorigenesis. MT itself has no intrinsic enzymatic activity but, rather, transforms by binding to and activating key intracellular signaling molecules, phosphatidylinositol 3-kinase (PI3-kinase) being the best studied of these. Thus, MT mimics a constitutively activated receptor tyrosine kinase (RTK). Our recent work suggests that MT signaling,
like that of RTKs, is often quite dependent on cellular context in vitro. Here, we examine contextual effects on signaling in animal models as well. In this study, we generated transgenic mice in which MT is expressed in the mouse prostate under the control of an (ARR) 2-Probasin promoter. All male transgenic mice displayed mouse prostatic intraepithelial neoplasia (mPIN) in the ventral and dorsal/lateral prostate as early as 8 weeks of age. Notably, during the course of tumor development Palbociclib mouse over time, invasive cancer, reactive stroma, and infiltration of inflammatory cells were seen. Transcriptional profiling analyses show regulation of multiple pathways, with marked upregulation of both the NF-kappa B and inflammatory pathways. Comparison of expression profiles of our MT prostate model with those from an MMTV-MT breast model (23) shows both tissue-specific and tissue-independent MT effects. The
signature of genes regulated by MT in a tissue-independent manner may have prognostic value.”
“The 288-nucleotide very (nt) 3′ untranslated region (UTR) in the genome of the bovine coronavirus (BCoV) and 339-nt 3′ UTR in the severe acute respiratory syndrome (SARS) coronavirus (SCoV) can each replace the 301-nt 3′ UTR in the mouse hepatitis coronavirus (MHV) for virus replication, thus demonstrating common 3′ cis-replication signals. Here, we show that replacing the 209-nt MHV 5′ UTR with the similar to 63%-sequence-identical 210-nt BCoV 5′ UTR by reverse genetics does not yield viable virus, suggesting 5′ end signals are more stringent or possibly are not strictly 5′ UTR confined. To identify potential smaller, 5′-common signals, each of three stem-loop (SL) signaling domains and one inter-stem-loop domain from the BCoV 5′ UTR was tested by replacing its counterpart in the MHV genome.