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Quanxi Wang,Baocheng Wu,Mengxi Liu,Xiaoqin Yuan,Chunyan Li,Shiyi Chen,Yubin Zhuang,Yijian Wu,Yifan Huang 한국유전학회 2017 Genes & Genomics Vol.39 No.11
This study was to investigate the molecular mechanism underlying the apoptosis induced by Muscovy duck reovirus (MDRV) through a transcriptomic analysis. Muscovy ducklings were infected with MDRV strain YB and the apoptotic cells in their livers were examined with terminal-deoxynucleotidyl-transferase-mediated nick end labeling and flow cytometry. Genes differentially expressed in the livers of the MDRV-infected ducklings were screened by comparing them with those of uninfected ducklings and were analyzed with a transcriptomic method to illuminate the mechanism of MDRV infection. The results showed that MDRV infection strongly induced apoptotic cells in liver. Significant pathway enrichment determined by a Kyoto Encyclopedia of Genes and Genomes analysis showed that MDRV activated the death receptor family signaling pathway (Fas, TNFR1), the interleukin receptor signaling pathway (IL1, IL3), the phosphatidylinositol 3-kinase signaling pathway, NF-ҝB signaling pathway and calcium ions signaling pathway to induce apoptosis. This was verified by SYBR-Green-based fluorescence quantitative PCR. In conclusion, MDRV induce apoptosis by activation multi signaling pathways.
A Review of Epitaxial Metal-Nitride Films by Polymer-Assisted Deposition
Luo, Hongmei,Wang, Haiyan,Zou, Guifu,Bauer, Eve,Mccleskey, Thomas M.,Burrell, Anthony K.,Jia, Quanxi The Korean Institute of Electrical and Electronic 2010 Transactions on Electrical and Electronic Material Vol.11 No.2
Polymer-assisted deposition is a chemical solution route to high quality thin films. In this process, the polymer controls the viscosity and binds metal ions, resulting in a homogeneous distribution of metal precursors in the solution and the formation of crack-free and uniform films after thermal treatment. We review our recent effort to epitaxially grow metal-nitride thin films, such as hexagonal GaN, cubic TiN, AlN, NbN, and VN, mixed-nitride $Ti_{1-x}Al_xN$, ternary nitrides tetragonal $SrTiN_2$, $BaZrN_2$, and $BaHfN_2$, hexagonal $FeMoN_2$, and nanocomposite TiN-$BaZrN_2$.
A Review of Epitaxial Metal-Nitride Films by Polymer-Assisted Deposition
Hongmei Luo,Haiyan Wang,Guifu Zou,Eve Bauer,Thomas M. McCleskey,Anthony K. Burrell,Quanxi Jia 한국전기전자재료학회 2010 Transactions on Electrical and Electronic Material Vol.11 No.2
Polymer-assisted deposition is a chemical solution route to high quality thin films. In this process, the polymer controls the viscosity and binds metal ions, resulting in a homogeneous distribution of metal precursors in the solution and the formation of crack-free and uniform films after thermal treatment. We review our recent effort to epitaxially grow metal-nitride thin films, such as hexagonal GaN, cubic TiN, AlN, NbN, and VN, mixed-nitride Ti1-xAlxN, ternary nitrides tetragonal SrTiN2, BaZrN2, and BaHfN2, hexagonal FeMoN2, and nanocomposite TiN-BaZrN2.