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You, Li-Ru
  • Education: PhD. Biochemistry, National Yang-Ming University ; Post-Doc, Molecular and Cellular Biology, Baylor College of Medicine, Houston, Texas, USA
  • Office: R646, 6F, Library and Information Building
  • Phone:  886-2-28267368
  • Email: This e-mail address is being protected from spambots. You need JavaScript enabled to view it
  • Personal Web Site
  • Research--Transgenic and knock out mice, cardiovascular development and gene regulation
  • My current work and future goals seek to better understand the genetic basis of cardiovascular development using mouse genetic models. The most immediate goal will be the continued utilization of mouse genetics, molecular biology and biochemical approaches to further reveal the function of COUP-TFII and the genetic pathways through which it acts to control heart development. My long-term goals include exploration novel genes, which are functional associated with cardiovascular development, elucidation of the genetic networks and underlying mechanism. The mechanisms that underlie the morphogenic processes forming a heart have important implications not only for understanding congenital heart disease, but also for the possibility of cardiac repair. Eventually this knowledge will enable us to improve and prevent the corresponding diseases.
  • Publications
    • C. -Y. Chen, C. -H. Chan, C. -M. Chen, Y. -S. Tsai, T. -Y. Tsai, Y. -H. Wu Lee and L. -R. You. 2016. Targeted inactivation of murine Ddx3x: essential roles of Ddx3x in placentation and embryogenesis. Hum. Mol. Genet. doi: 10.1093/hmg/ddw143.


    • C. -C. Liang, T. -L. Lu, Y. -R. Yu, L. -R. You, C. -M. Chen. 2015. β-catenin activation drives thymoma initiation and progression in mice. Oncotarget 6:13978-13993.


    • Y. -R. Yu, L. -R. You, Y. -T. Yan, C. -M. Chen. 2014. Role of OVCA1/DPH1 in craniofacial abnormalities of Miller-Dieker syndrome. Hum. Mol. Genet. 23:5579-5596.


    • C. -C. Liang, L. -R. You, J. J. Y. Yen, N. -S. Liao, H. -F. Yang-Yen, C. -M. Chen. 2013. Thymic epithelial [beta]-catenin is required for adult thymic homeostasis and function. Immunol Cell Biol 91: 511-523.


    • W. -H. Hsu, Y. -R. Yu, S. -H. Hsu, W. -C. Yu, Y. -H. Chu, Y. -J. Chen, C. -M. Chen and L. -R. You. (2013) The Wilms’ tumor suppressor Wt1 regulates Coronin 1B expression in the epicardium. Exp Cell Res 319: 1365-1381.


    • T. -L. Lu, Y. -F. Huang, L. -R. You, N. -C. Chao, F. -Y. Su, J. -L. Chang, C. -M. Chen. (2013) Conditionally Ablated Pten in Prostate Basal Cells Promotes Basal-to-Luminal Differentiation and Causes Invasive Prostate Cancer in Mice. Am J Pathol. 182, 975-991.


    • W. -C. Chiu, J. -Y. Lin, T. -S. Lee, L. -R. You and A. -N. Chiang. (2013) β(2)-Glycoprotein I inhibits VEGF-induced endothelial cell growth and migration via suppressing phosphorylation of VEGFR2, ERK1/2, and Akt. Mol Cell Biochem. 372, 9-15.


    • F. -J. Lin*, L. -R. You*'1, C. -T. Yu, W. -H. Hsu, M. -J. Tsai1 and S. Y. Tsai1. (2012) Endocardial Cushion Morphogenesis and Coronary Vessel Development Require COUP-TFII. Arterioscler Thromb Vasc Biol. 32, e135-146. (* equal contribution; 1co-coresponding author)


    • C. -M. Chen, T. -L. Lu, F. -Y. Su and L. -R. You. (2012) Susceptibility of Epithelium to PTEN-Deficient Tumorigenesis, Tumor Suppressor Genes, Yue Cheng (Ed.), ISBN: 978-953-307-879-3, InTech, Available from: InTechOpen


    • T. -C. Wei, H. -Y. Lin, C. -C. Lu, C. -M. Chen and L. -R. You. (2011) Expression of Crip2, a LIM-domain-only protein, in the mouse cardiovascular system under physiological and pathological conditions. Gene Expr Patterns 11, 384-394.


    • H. -P. Huang, C. -L. Hong, C. -Y. Kao, S. -W. Lin, S. -R. Lin, H. -L. Wu, G. -Y. Shi, L. -R. You, C. -L. Wu and I. -S. Yu. (2011) Gene targeting and expression analysis of mouse Tem1/endosialin using a lacZ reporter. Gene Expr Patterns 11, 316-326.


    • C. -M. Chen, H. -Y. Wang, L. -R. You, R. -L. Shang and F. -C. Liu. (2010) Expression analysis of an evolutionary conserved metallophosphodiesterase gene, Mpped1, in the normal and β-catenin-deficient malformed dorsal telencephalon. Dev. Dyn. 239, 1797-1806.


    • C. -C. Liang, L. -R. You, J. -L. Chang, T. -F. Tsai and C. -M. Chen. (2009) Transgenic mice exhibiting inducible and spontaneous Cre activities driven by a bovine keratin 5 promoter that can be used for the conditional analysis of basal epithelial cells in multiple organs. J Biomed. Sci. 16, 2.


    • T. -L. Lu., J. -L. Chang., C. -C. Liang, L. -R. You and C. -M. Chen. (2007) Tumor Spectrum, Tumor Latency and Tumor Incidence of the Pten-Deficient Mice. PLoSone, e1237.


    • L. -R. You, N. Takamoto, C. -T. Yu, T. Tanaka, T. Kodama, F. J. DeMayo, S. Y. Tsai and M. -J. Tsai. (2005) Mouse lacking COUP-TFII as an animal model of Bochdalek-type congenital diaphragmatic hernia. Proc Natl Acad Sci U S A. 102, 16351-16356.


    • M. -J. Tsai, L. -R. You, SY. Tsai. (2005) Surprise in the Battle Field of Vein vs. Artery. Organogenesis 2, 31-32.


    • M. -J. Tsai, L. -R. You, F. -J. Lin and S. Y.Tsai. (2005) Essential role of COUP-TFII in vascular formation. Kidney Int. 68, 1962-1963.


    • L. -R. You, F. -J. Lin, C. T. Lee, F. J. DeMayo, M. -J. Tsai and S. Y. Tsai. (2005) Suppression of Notch signalling by the COUP-TFII transcription factor regulates vein identity. Nature 435, 98-104.


    • N. Takamoto, L. -R. You, K. Moses, C. Chiang, W. E. Zimmer. R. J. Schwartz, F. J. DeMayo, M. -J. Tsai and S. Y. Tsai. (2005) COUP-TFII is essential for radial and anterior-posterior patterning of the stomach. Development 132, 2179-2189.


    • S. -Y. Chen, C. -F. Kao, C. -M. Chen, C. -M. Shih, M. -J. Hsu, C. -H. Chao, S, -H. Wang, L. -R. You and Y. -H. Wu Lee. (2003) Mechanisms for inhibition of hepatitis B virus gene expression and replication by hepatitis C virus core protein. J. Biol Chem. 278, 591-607.


    • T. J. Jaw, L. -R. You, P. S. Konepfler, L. -C. Yao, C. -Y. Pai, C. -Y. Tang, , L. -P. Chang, Berthelsen, J., Kamps, M. P. and Y. H. Sun. (2000) Direct interaction of two homeoproteins, Homothorax and Extradenticle, is essential for EXD nuclear localization and function. Mech. Dev. 91, 279-291.


    • L. -R. You, C. -M. Chen, T. -S. Yeh, T, -Y. Tsai, R. -T. Mai and Y. -H. Wu Lee (1999) Hepatitis C virus core protein interacts with cellular putative RNA helicase. J. Virol 73, 2841-2853.


    • L. -R. You, C. -M. Chen and Y. -H. Wu Lee. (1999) The hepatitis C virus core protein modulates the NF-kB signal pathway triggering by lymphotoxin-beta receptor ligand and tumor necrosis factor-alpha. J. Virol 73, 1672-1681.


    • C. -M. Chen*, L. -R. You*, L. -H. Hwang and Y. -H. Wu Lee. (1997) Direct interaction of hepatitis C virus core protein with the cellular lymphotoxin-beta receptor modulates the signal pathway of the lymphotoxin-β receptor. J. Virol 71, 9417-9426. ( * equal contribution)


    • R. Y. Wu, L. -R. You and T. S. Soong. (1994) Nucleotide sequences of two circular single-stranded DNAs associated with banana bunchy top virus. Phytopathology 84, 952-958.


    • C. G. Lin, L. -R. You and S. J. Lo. (1993) Expression and stability of the hepatitis B pol protein in Escherichia coli. J. Gestroentrology and Hepatology 8, S54-58.


    • S. J. Lo, L. -R. You and Y. -H. Wu Lee. (1990) The hepatitis B virus X-C fusion protein is unlikely to be produced by the mechanism of ribosomal frameshifting. Virology 178, 584-587.

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