Japanese encephalitis virus (JEV) is an enveloped flavivirus with a single-stranded, positive-sense RNA genome encoding three structural and seven nonstructural proteins. To date, the role of JEV nonstructural protein 2A (NS2A) in the viral life cycle is largely unknown. The interferon (IFN)-induced double-stranded RNA (dsRNA)-activated protein kinase (PKR) phosphorylates the eukaryotic translation initiation factor 2α subunit (eIF2α) after sensing viral RNA and results in global translation arrest as an important host antiviral defense response. In this study, we found that JEV NS2A could antagonize PKR-mediated growth inhibition in a galactose-inducible PKR-expressing yeast system. In human cells, PKR activation, eIF2α phosphorylation, and the subsequent translational inhibition and cell death triggered by dsRNA and IFN-α were also repressed by JEV NS2A. Moreover, among the four eIF2α kinases, NS2A specifically blocked the eIF2α phosphorylation mediated by PKR and attenuated the PKR-promoted cell death induced by the chemotherapeutic drug doxorubicin. A single point mutation of NS2A residue 33 from Thr to Ile (T33I) abolished the anti-PKR potential of JEV NS2A. The recombinant JEV mutant carrying the NS2A-T33I mutation showed reduced in vitro growth and in vivo virulence phenotypes. Thus, JEV NS2A has a novel function in blocking the host antiviral response of PKR during JEV infection.
The characterization of Mg-Co-Zr tri-layer stacks using X-ray fluorescence induced by X-ray standing waves, in both the grazing-incidence (GI) and the grazing-exit (GE) modes, is presented. The introduction of a slit in the direction of the detector improves the angular resolution by a factor of two and significantly improves the sensitivity of the technique for the chemical characterization of the buried interfaces. By observing the intensity variations of the Mg Kα and Co Lα characteristic emissions as a function of the incident (GI mode) or detection (GE mode) angle, it is shown that the interfaces of the Si/[Mg/Co/Zr] × 30 multilayer are abrupt, whereas in the Si/[Mg/Zr/Co] × 30 multilayer a strong intermixing occurs at the Co-on-Zr interfaces. An explanation of this opposite behavior of the Co-on-Zr and Zr-on-Co interfaces is given by the calculation of the mixing enthalpies of the Co-Mg, Co-Zr and Mg-Zr systems, which shows that the Co-Zr system presents a negative value and the other two systems present positive values. Together with the difference of the surface free energies of Zr and Co, this leads to the Mg/Zr/Co system being considered as a Mg/CoxZry bi-layer stack, with x/y estimated around 3.5.
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