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陳維鈞 (Wei-June Chen)









博士後研究員 1 

博士班研究生 2 

碩士班研究生 2

專任研究助理 2

大學部專題生 1 


     This lab aims to investigate relationships and interactions between flaviviruses and their host cells. Flaviviruses has been known to cause a variety of human diseases including dengue fever and Japanese encephalitis; both are prevalent in Taiwan. The genome is composed a positive polarity single-stranded RNA which readily alters during transmission between host cell, frequently resulting in changes of the phenotype of the virus such as infectivity and pathogenicity. According to our previous studies, genetic variation of the viral genome may be caused by mutation(s); besides, RNA recombination actually also plays an important role in this feature. Most flaviviruses are naturally transmitted between mammalian hosts by blooding sucking arthropods such as mosquitoes. As a result, they are usually capable of infecting both mammalian and arthropod cells. Generally, infected mammalian cells end up with apoptosis while most mosquito cells can survive the infection. It indicates that interactions and cellular responses to the viral infection must be significantly distinct between the cell types. In the meantime, a novel tetraspanin was recently identified and demonstrated to involve in cell-to-cell transmission of the dengue virus between cells. All these interesting topics are currently worked in this lab via molecular and imaging techniques.


1.Templeton, T. J., Enomoto, S., Chen, W. J., Huang, C. G., Lancto, C. A., Abrahamsen, M. S., and Zhu, G. 2010. A genome sequence survey for Ascogregarina taiwanensis supports 1 evolutionary affiliation, but metabolic diversity between a gregarine and Cryptosporidium. Mol. Biol. Evol., 27:235-248. (SCI; IF=9.105)

3..Chou, A. H., Chen, C. Y., Chen, S. Y., Chen, W. J., Chen, Y. L., Weng. Y. S., and Wang, H. L. 2010. Polyglutamine-expanded ataxin-7 causes cerebellar dysfunction by inducing transcriptional dysregulation. Neurochem. Intl., 56:329-339. (SCI; IF=3.092)

4.Tung, W. H., Tsai, H. W., Lee, I. T., Hsieh, H. L., Chen, W. J., Chen, Y. L., and Yang, C. M. 2010. Japanese encephalitis virus induces matrix metalloproteinase-9 expression via the ROS/MAPKs-dependent NF-κB signaling pathway in rat brain astrocytes. Br. J. Pharmacol., 161:1566-1583. (SCI; IF=4.842)

5.Shih,Y. T., Yang, C. F., and Chen, W. J. 2010. Upregulation of a novel eukaryotic translation initiation factor 5A (eIF5A) in dengue 2 virus-infected mosquito cells. Virology J., 7:214. (SCI; IF=2.181)

6. Chen, T. H., Tang, P., Yang, C. F., Kao, L. H., Lo, Y. P., Chuang, C. K., Shih, Y. T., and Chen, W. J. 2011. Antioxidant defense is one of the mechanisms by which mosquito cells survive dengue 2 viral infection. Virology, 410:410-417. (SCI; IF=3.321)

7. Tseng, Y. F., Wang, C. C., Liao, S. K., Chuang, C. K., and Chen, W. J. 2011. Autoimmunity-related demyelination in infection by Japanese encephalitis virus. J. Biomed. Sci., 18:20. (SCI; IF=2.763)
8. Alarcón, M. E., Huang, C. G., Tsai, Y. S., Chen, W. J., Dubey, A. K., and Wu, W. J. 2011. Life cycle and morphology of Steinina ctenocephali (Ross 1909) comb. nov. (Eugregarinorida: Actinocephalidae),a gregarine of Ctenocephalides felis (Siphonaptera: Pulicidae) in Taiwan. Zool. Stud., 50(6): 763-772. (SCI; IF=0.776)
9. Chuang C. K., and Chen, W. J. 2011. Genetic evolution of Japanese encephalitis virus. In "Flavivirus Encephalitis" (Ed: Daniel Ruzek), pp. 383-404, InTech Open Access Publisher, Croatia. (Book chapter)
10. Yang, C. M., Lin, C. C., Lee, I. T., Lin, Y. H., Yang, C. M, Chen, W. J., Jou, M. J., and Hsiao, L. D. 2012. Japanese encephalitis virus induces matrix metalloproteinase-9 expression via a ROS/c-Src/PDGFR/PI3K/Akt/MAPKs-dependent AP-1 pathway in rat brain astrocytes. J. Neuroinflamm., 9: 12. (SCI; IF=5.408)
11. Chen, T. H., Lo, Y. P., Yang, C. F., and Chen, W. J. 2012. Additive protection by antioxidant and apoptosis-inhibiting effects on mosquito cells with dengue 2 virus infection. PLoS Neglect. Trop. Dis., 6(4): e1613. (SCI; IF=4.446)
12. Perng, G. C., and Chen, W. J. 2013. Arboviral encephalitis. In "Encephalitis" (Ed: Sergey Tkachev), pp. 73-94, ISBN 980-953-307-753-1, InTech Open Access Publisher, Croatia. (Book chapter)
13. Chai, W. C., Huang, C. G., Chuang, C. K., and Chen, W. J. 2013. Upregulation of the vacuolar proton pump, H+ V-ATPase, in host cells infected with the Japanese encephalitis virus via clathrin-mediated endocytosis. Adapt. Med., 5(2): 55-61.
14. Chen, W. J., Huang, C. G., Fan-Chiang, M. H., Liu, Y. H., and Lee, Y. F. 2013. Apoptosis of Ascogregarina taiwanensis (Apicomplexa: Lecudinidae) which failed to migrate within its natural host. J. Exp. Biol., 216(1): 230-235. (SCI; IF=2.897)
15. Yang, C. F., Hou, J. N., Chen, T. H., and Chen, W. J. 2014. Discriminable roles of Aedes aegypti and Aedes albopictus in establishment of dengue outbreaks in Taiwan. Acta Tropica, 130: 17-23. (SCI; IF=2.270)
16. Chiang, W. W., Chuang, C. K., Chao, M., and Chen, W. J. 2014. Cell type-dependent RNA recombination frequency in the Japanese encephalitis virus. BioMed Res. Intl., 2014: Article ID 471323. (SCI; IF=1.579)
17. Chuang, C. K., Yang, T. H., Chen, T. H., Yang, C. F., and Chen, W. J. 2015. Heat shock cognate protein 70 isoform D is required for clathrin-dependent endocytosis of Japanese encephalitis virus in C6/36cells. J. Gen. Virol., 96:793-803. (SCI; IF=3.183)

18. Yang, C. F., Tu, C. H., Lo, Y. P., Cheng, C. C., Chen, W. J. 2015. Involvement of tetraspanin C189 in cell-to-cell spreading of the dengue virus in C6/36 cells. PLoS Neglect. Trop. Dis., 9(7): e0003885. (SCI; IF=4.446)     


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