2016-
Zhang, X, Xu, Q, Zi, Z, Liu, Z, Wan,C, Crisman, L, Shen, J, Liu,X, In press. Programmable Extracellular Vesicles for Macromolecule Delivery and Genome Modifications. Dev. Cell in press
Zhang, C., Wang, R., Liu, Z., Bunker, E., Lee, S., Giuntini, M., Chapnick, D., Liu, X., 2019. The plant triterpenoid celastrol blocks PINK1-dependent mitophagy by disrupting PINK1’s association with the mitochondrial protein TOM20. J Biol Chem 294, 7472–7487.
Wang, X., Waschke, B.C., Woolaver, R.A., Chen, Z., Zhang, G., Piscopio, A.D., Liu, X., Wang, J.H., 2019. Histone Deacetylase Inhibition Sensitizes PD1 Blockade-Resistant B-cell Lymphomas. Cancer Immunol Res 7, 1318–1331.
Chapnick, D.A., Bunker, E., Liu, X., Old, W.M., 2019. Temporal Metabolite, Ion, and Enzyme Activity Profiling Using Fluorescence Microscopy and Genetically Encoded Biosensors. Methods Mol. Biol. 1978, 343–353.
Sanchez, G.J., Richmond, P.A., Bunker, E.N., Karman, S.S., Azofeifa, J., Garnett, A.T., Xu, Q., Wheeler, G.E., Toomey, C.M., Zhang, Q., Dowell, R.D., Liu, X., 2018. Genome-wide dose-dependent inhibition of histone deacetylases studies reveal their roles in enhancer remodeling and suppression of oncogenic super-enhancers. Nucleic Acids Res. 46, 1756–1776.
Li, Yunfeng, Jin, K., Bunker, E., Zhang, X., Luo, X., Liu, X., Hao, B., 2018. Structural basis of the phosphorylation-independent recognition of cyclin D1 by the SCF FBXO31 ubiquitin ligase. Proc. Natl. Acad. Sci. 115, 319–324.
Li, Yuchao, Lee, M., Kim, N., Wu, G., Deng, D., Kim, J.M., Liu, X., Heo, W.D., Zi, Z., 2018. Spatiotemporal Control of TGF-β Signaling with Light. ACS Synth. Biol. 7, 443–451.
Grim, J.C., Brown, T.E., Aguado, B.A., Chapnick, D.A., Viert, A.L., Liu, X., Anseth, K.S., 2018. A Reversible and Repeatable Thiol–Ene Bioconjugation for Dynamic Patterning of Signaling Proteins in Hydrogels. ACS Cent. Sci. acscentsci.8b00325.
Zhang, C., Liu, Z., Bunker, E., Ramirez, A., Lee, S., Peng, Y., Tan, A.C., Eckhardt, S.G., Chapnick, D.A., Liu, X., 2017. Sorafenib targets the mitochondrial electron transport chain complexes and ATP synthase to activate the PINK1-Parkin pathway and modulate cellular drug response. J. Biol. Chem. 292, 15105–15120.
Zhang, X., Ling, Y., Guo, Y., Bai, Y., Shi, X., Gong, F., Tan, P., Zhang, Y., Wei, C., He, X., Ramirez, A., Liu, X., Cao, C., Zhong, H., Xu, Q., Ma, R.Z., 2016. Mps1 kinase regulates tumor cell viability via its novel role in mitochondria. Cell Death Dis. 7, e2292–e2292.
Nardini JT, Chapnick DA, Liu X, Bortz DM. Modeling keratinocyte wound healing dynamics: Cell-cell adhesion promotes sustained collective migration.ÌýJ Theor Biol 2016 Jul 7;400:103-17. doi: 10.1016/j.jtbi.2016.04.015. Epub 2016 Apr 19. 2016 Jul 7;400:103-17. doi: 10.1016/j.jtbi.2016.04.015. Epub 2016 Apr 19.
McQuate SE, Young AM, Silva-Herzog E, Bunker E, Hernandez M, de Chaumont F, Liu X, Detweiler CS, Palmer AE. Long-term live-cell imaging reveals new roles for Salmonella effector proteins SseG and SteA. Cell Microbiol 2016 Jul 4. doi: 10.1111/cmi.12641. [Epub ahead of print]
Bennett CG, Riemondy K, Chapnick DA, Bunker E, Liu X, Kuersten S, Yi R. Genome-wide analysis of Musashi-2 targets reveals novel functions in governing epithelial cell migration. Nucleic Acids Res 2016 May 5;44(8):3788-800. doi: 10.1093/nar/gkw207. Epub 2016 Mar 31.
Feng Z, Zi Z, Liu X.ÌýMeasuring TGF-β Ligand Dynamics in Culture Medium. Methods Mol Biol 2016;1344:379-89. doi: 10.1007/978-1-4939-2966-5_25.
Ìý
2011-2015
Davis EM, Kim J, Menasche BL, Sheppard J, Liu X, Tan AC, Shen J.ÌýComparative Haploid Genetic Screens Reveal Divergent Pathways in the Biogenesis and Trafficking of Glycophosphatidylinositol-Anchored Proteins.ÌýCell ReportsÌý2015 Jun 23;11(11):1727-36. doi: 10.1016/j.celrep.2015.05.026. Epub 2015 Jun 11.
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Chapnick DA, Bunker E, and X. Liu. A Biosensor for the Activity of the "sheddase" TACE (ADAM17) Reveals Novel and Cell Type–specific Mechanisms of TACE activation.ÌýScience SignalingÌý2015 365(8):rs1.
PubMed |ÌýÌý|ÌýÌý|
Lee*, S.,ÌýZhang*, C., Ìýand Liu, XÌý.ÌýRole of Glucose Metabolism and ATP in Maintaining PINK1 Levels During Parkin-mediated Mitochondrial DamageÌýResponses. ÌýJ Biol ChemÌýÌý2015ÌýJan 9;290(2):904-17. *equal contributions
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Zhang, C., Lee, S., Peng, Y., Bunker, E., Shen, C., Giaime, E., Shen, J., Shen, J., Zhou, Z., and Liu, XÌý.ÌýA Chemical Genetic Approach to Probe the Function of PINK1 in Mitochondrial Dynamics. ÌýCell ResearchÌý2014 Dec 5. doi: 10.1038/cr.2014.159.
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Zhang C, Lee S, Peng Y, Bunker E, Giaime E, Shen J, Zhou Z, Liu X. ÌýPINK1 Triggers Autocatalytic Activation of Parkin to Specify Cell Fate Decisions.ÌýCurrent Biology.ÌýÌý2014 Aug 18;24(16):1854-65. doi: 10.1016/j.cub.2014.07.014. Epub 2014 Jul 31.
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Chapnick DA, Liu X.ÌýLeader cell positioning drives wound-directed collective migration in TGFβ-stimulated epithelial sheets.ÌýMol Biol Cell.Ìý2014 May 15;25(10):1586-93. doi: 10.1091/mbc.E14-01-0697.ÌýÌý
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Chapnick DA, Jacobsen J, Liu X.ÌýThe development of a novel high throughput computational tool for studying individual and collective cellular migration.ÌýPLoS One.Ìý2013 Dec 27;8(12):e82444. doi: 10.1371/journal.pone.0082444.Ìý
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Ungermannova, D.; Lee, J.; Zhang, G.; Dallmann, H. G.; McHenry, C. S.; Liu, X., High-throughput screening AlphaScreen assay for identification of small-molecule inhibitors ofÌýubiquitin E3 ligase SCFSkp2-Cks1.ÌýJ Biomol ScreenÌý2013, 18, (8), 910-20
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Lee, J.; Sammond, D. W.; Fiorini, Z.; Saludes, J. P.; Resch, M. G.; Hao, B.; Wang, W.; Yin, H.; Liu, X., Computationally Designed Peptide Inhibitors of the Ubiquitin E3 Ligase SCF(Fbx4).ÌýChembiochemÌý2013.14(4):445-51.
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Zi, Z., D.A. Chapnick, and X. Liu, Dynamics of TGF-beta/Smad Signaling.ÌýFEBS Lett, 586 (2012) 1921–1928.
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Ungermannova, D., S.J. Parker, C.G. Nasveschuk, W. Wang, B. Quade, G. Zhang, R.D. Kuchta, A.J. Phillips, and X. Liu, Largazole and Its Derivatives Selectively Inhibit Ubiquitin Activating Enzyme (E1).ÌýPLoS One, 2012. 7(1): p. e29208.
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Ungermannova, D., S.J. Parker, C.G. Nasveschuk, D.A. Chapnick, A.J. Phillips, R.D. Kuchta, and X. Liu, Identification and Mechanistic Studies of a Novel Ubiquitin E1 Inhibitor.ÌýJ Biomol Screen, 2012. 17(4): p. 421-34.
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Liu, X. and M. Winey, The Mps1 Family of Protein Kinases.ÌýAnnu Rev Biochem, 2012. 81: p. 561-85.
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ÌýZi, Z., Z. Feng, D.A. Chapnick, M. Dahl, D. Deng, E. Klipp, A. Moustakas, and X. Liu, Quantitative Analysis of Transient and Sustained Transforming Growth Factor-Beta Signaling Dynamics.ÌýMol Syst Biol, 2011. 7: p. 492.
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Zhang, X., Q. Yin, Y. Ling, Y. Zhang, R. Ma, Q. Ma, C. Cao, H. Zhong, X. Liu, and Q. Xu, Two Lxxll Motifs in the N Terminus of Mps1 Are Required for Mps1 Nuclear Import During G(2)/M Transition and Sustained Spindle Checkpoint Responses.ÌýCell Cycle, 2011. 10(16): p. 2742-50.
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He, J., J. Ye, Y. Cai, C. Riquelme, J.O. Liu, X. Liu, A. Han, and L. Chen, Structure of P300 Bound to Mef2 on DNA Reveals a Mechanism of Enhanceosome Assembly.ÌýNucleic Acids Res, 2011. 39(10): p. 4464-74.
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Chapnick, D.A., L. Warner, J. Bernet, T. Rao, and X. Liu, Partners in Crime: Tgf-Beta and Mapk Pathways in Cancer Progression.ÌýCell Biosci, 2011. 1(1): p. 42.
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Ìý
2006-2010
Zhong, J., X. Liu, and A. Pandey, Effects of Transmembrane and Juxtamembrane Domains on Proliferative Ability of Tslp Receptor.ÌýMol Immunol, 2010. 47(6): p. 1207-15.
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Zeng, Z., W. Wang, Y. Yang, Y. Chen, X. Yang, J.A. Diehl, X. Liu*, and M. Lei*, Structural Basis of Selective Ubiquitination of Trf1 by Scffbx4.ÌýDev Cell, 2010. 18(2): p. 214-24* Corresponding authors.
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Sun, T., X. Yang, W. Wang, X. Zhang, Q. Xu, S. Zhu, R. Kuchta, G. Chen, and X. Liu, Cellular Abundance of Mps1 and the Role of Its Carboxyl Terminal Tail in Substrate Recruitment.ÌýJ Biol Chem, 2010. 285(49): p. 38730-9.
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Clarke, D.C. and X. Liu, Measuring the Absolute Abundance of the Smad Transcription Factors Using Quantitative Immunoblotting.ÌýMethods Mol Biol, 2010. 647: p. 357-76.
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Chapnick, D.A. and X. Liu, Analysis of Ligand-Dependent Nuclear Accumulation of Smads in Tgf-Beta Signaling.ÌýMethods Mol Biol, 2010. 647: p. 95-111.
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Xu, Q., S. Zhu, W. Wang, X. Zhang, W. Old, N. Ahn, and X. Liu, Regulation of Kinetochore Recruitment of Two Essential Mitotic Spindle Checkpoint Proteins by Mps1 Phosphorylation.ÌýMol Biol Cell, 2009. 20(1): p. 10-20.
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Wang, W., Y. Yang, Y. Gao, Q. Xu, F. Wang, S. Zhu, W. Old, K. Resing, N. Ahn, M. Lei*, and X. Liu*, Structural and Mechanistic Insights into Mps1 Kinase Activation.ÌýJ Cell Mol Med, 2009. 13(8B): p. 1679-94. *corresponding authors.
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Granovsky, A.E., M.C. Clark, D. McElheny, G. Heil, J. Hong, X. Liu, Y. Kim, G. Joachimiak, A. Joachimiak, S. Koide, and M.R. Rosner, Raf Kinase Inhibitory Protein Function Is Regulated Via a Flexible Pocket and Novel Phosphorylation-Dependent Mechanism.ÌýMol Cell Biol, 2009. 29(5): p. 1306-20.
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Erickson, R.A. and X. Liu, Association of V-Erba with Smad4 Disrupts Tgf-Beta Signaling.ÌýMol Biol Cell, 2009. 20(5): p. 1509-19.
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Clarke, D.C., M.L. Brown, R.A. Erickson, Y. Shi, and X. Liu, Transforming Growth Factor Beta Depletion Is the Primary Determinant of Smad Signaling Kinetics.ÌýMol Cell Biol, 2009. 29(9): p. 2443-55.
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Nasveschuk, C.G., D. Ungermannova, X. Liu, and A.J. Phillips, A Concise Total Synthesis of Largazole, Solution Structure, and Some Preliminary Structure Activity Relationships.ÌýOrg Lett, 2008. 10(16): p. 3595-8.
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Guo, X., D.S. Waddell, W. Wang, Z. Wang, N.T. Liberati, S. Yong, X. Liu, and X.F. Wang, Ligand-Dependent Ubiquitination of Smad3 Is Regulated by Casein Kinase 1 Gamma 2, an Inhibitor of Tgf-Beta Signaling.ÌýOncogene, 2008. 27(58): p. 7235-47.
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Guo, X., A. Ramirez, D.S. Waddell, Z. Li, X. Liu, and X.F. Wang, Axin and Gsk3- Control Smad3 Protein Stability and Modulate Tgf- Signaling.ÌýGenes Dev, 2008. 22(1): p. 106-20.
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Clarke, D.C. and X. Liu, Decoding the Quantitative Nature of Tgf-Beta/Smad Signaling.ÌýTrends in Cell Biol, 2008. 18(9): p. 430-42.
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Barthel, K.K. and X. Liu, A Transcriptional Enhancer from the Coding Region of Adamts5.ÌýPLoS ONE, 2008. 3(5): p. e2184.
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Zhu, S., W. Wang, D.C. Clarke, and X. Liu, Activation of Mps1 Promotes Transforming Growth Factor-Beta-Independent Smad Signaling.ÌýJ Biol Chem, 2007. 282(25): p. 18327-38.
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Zhang, L., L. Ding, T.H. Cheung, M.Q. Dong, J. Chen, A.K. Sewell, X. Liu, J.R. Yates, 3rd, and M. Han, Systematic Identification of C. elegans miRISC Proteins, miRNAs, and mRNA Targets by Their Interactions with Gw182 Proteins Ain-1 and Ain-2.ÌýMol Cell, 2007. 28(4): p. 598-613.
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Cheung, T.H., K.K. Barthel, Y.L. Kwan, and X. Liu, Identifying Pattern-Defined Regulatory Islands in Mammalian Genomes.Proc Natl Acad Sci U S A, 2007. 104(24): p. 10116-21.
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Riquelme, C., K.K. Barthel, X.F. Qin, and X. Liu, Ubc9 Expression Is Essential for Myotube Formation in C2c12.ÌýExp Cell Res, 2006. 312(11): p. 2132-41.
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Riquelme, C., K.K. Barthel, and X. Liu, Sumo-1 Modification of Mef2a Regulates Its Transcriptional Activity.ÌýJ Cell Mol Med, 2006. 10(1): p. 132-44.
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Clarke, D.C., M.D. Betterton, and X. Liu, Systems Theory of Smad Signalling.ÌýSyst Biol (Stevenage), 2006. 153(6): p. 412-24.Ìý
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Cheung, T.H., Y.L. Kwan, M. Hamady, and X. Liu, Unraveling Transcriptional Control and Cis-Regulatory Codes Using the Software Suite Geneact.ÌýGenome Biol, 2006. 7(10): p. R97.
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Ìý
2001-2005
Wang, W., L. Nacusi, R.J. Sheaff, and X. Liu, Ubiquitination of P21cip1/Waf1Ìýby Scfskp2: Substrate Requirement and Ubiquitination Site Selection.ÌýBiochemistry, 2005. 44(44): p. 14553-64.
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Ungermannova, D., Y. Gao, and X. Liu, Ubiquitination of P27kip1ÌýRequires Physical Interaction with Cyclin E and Probable Phosphate Recognition by Skp2.ÌýJ Biol Chem, 2005. 280(34): p. 30301-9.
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Knuesel, M., H.T. Cheung, M. Hamady, K.K. Barthel, and X. Liu, A Method of Mapping Protein Sumoylation Sites by Mass Spectrometry Using a Modified Small Ubiquitin-Like Modifier 1 (Sumo-1) and a Computational Program.ÌýMol Cell Proteomics, 2005. 4(10): p. 1626-36.
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Kfir, S., M. Ehrlich, A. Goldshmid, X. Liu, Y. Kloog, and Y.I. Henis, Pathway- and Expression Level-Dependent Effects of Oncogenic N-Ras: P27Kip1ÌýMislocalization by the Ral-Gef Pathway and Erk-Mediated Interference with Smad Signaling.ÌýMol Cell Biol, 2005. 25(18): p. 8239-50.
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Wang, W., D. Ungermannova, J. Jin, J.W. Harper, and X. Liu, Negative Regulation of Scfskp2ÌýUbiquitin Ligase by Tgf-Beta Signaling.ÌýOncogene, 2004. 23(5): p. 1064-75.
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Wang, W., D. Ungermannova, L. Chen, and X. Liu, Molecular and Biochemical Characterization of the Skp2-Cks1 Binding Interface.ÌýJ Biol Chem, 2004. 279(49): p. 51362-9.
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Royer, Y., C. Menu, X. Liu, and S.N. Constantinescu, High-Throughput Gateway Bicistronic Retroviral Vectors for Stable Expression in Mammalian Cells: Exploring the Biologic Effects of Stat5 Overexpression.ÌýDNA Cell Biol, 2004. 23(6): p. 355-65.
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Macdonald, M., Y. Wan, W. Wang, E. Roberts, T.H. Cheung, R. Erickson, M.T. Knuesel, and X. Liu, Control of Cell Cycle-Dependent Degradation of C-Ski Proto-Oncoprotein by Cdc34.ÌýOncogene, 2004. 23(33): p. 5643-53.
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Liang, M., Y.Y. Liang, K. Wrighton, D. Ungermannova, X.P. Wang, F.C. Brunicardi, X. Liu, X.H. Feng, and X. Lin, Ubiquitination and Proteolysis of Cancer-Derived Smad4 Mutants by Scfskp2.ÌýMol Cell Biol, 2004. 24(17): p. 7524-37.
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Wang, W., D. Ungermannova, L. Chen, and X. Liu, A Negatively Charged Amino Acid in Skp2 Is Required for Skp2-Cks1 Interaction and Ubiquitination of P27kip1.ÌýJ Biol Chem, 2003. 278(34): p. 32390-6.
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Knuesel, M., Y. Wan, Z. Xiao, E. Holinger, N. Lowe, W. Wang, and X. Liu, Identification of Novel Protein-Protein Interactions Using a Versatile Mammalian Tandem Affinity Purification Expression System.ÌýMol Cell Proteomics, 2003. 2(11): p. 1225-33.
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Wan, Y., X. Liu, and M.W. Kirschner, The Anaphase-Promoting Complex Mediates Tgf-Beta Signaling by Targeting Snon for Destruction.ÌýMol Cell, 2001. 8(5): p. 1027-39.
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Liu, X., Y. Sun, R.A. Weinberg, and H.F. Lodish, Ski/Sno and Tgf-Beta Signaling.ÌýCytokine Growth Factor Rev, 2001. 12(1): p. 1-8.
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Fu, M., J. Zhang, X. Zhu, D.E. Myles, T.M. Willson, X. Liu, and Y.E. Chen, Peroxisome Proliferator-Activated Receptor Gamma Inhibits Transforming Growth Factor Beta-Induced Connective Tissue Growth Factor Expression in Human Aortic Smooth Muscle Cells by Interfering with Smad3.ÌýJ Biol Chem, 2001. 276(49): p. 45888-94.
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*Blobe, G.C., X. Liu*, S.J. Fang, T. How, and H.F. Lodish, A Novel Mechanism for Regulating Transforming Growth Factor Beta (Tgf-Beta) Signaling. Functional Modulation of Type Iii Tgf-Beta Receptor Expression through Interaction with the Pdz Domain Protein, Gipc.ÌýJ Biol Chem, 2001. 276(43): p. 39608-17. *Equal contributions.
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Xiao, Z., X. Liu, and H.F. Lodish, Importin Beta Mediates Nuclear Translocation of Smad 3.ÌýJ Biol Chem, 2000. 275(31): p. 23425-8.
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Xiao, Z., X. Liu, Y.I. Henis, and H.F. Lodish, A Distinct Nuclear Localization Signal in the N Terminus of Smad 3 Determines Its Ligand-Induced Nuclear Translocation.ÌýProc Natl Acad Sci U S A, 2000. 97(14): p. 7853-8.
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Liu, X., Y. Sun, M. Ehrlich, T. Lu, Y. Kloog, R.A. Weinberg, H.F. Lodish, and Y.I. Henis, Disruption of Tgf-Beta Growth Inhibition by Oncogenic Ras Is Linked to P27kip1ÌýMislocalization.ÌýOncogene, 2000. 19(51): p. 5926-35.Ìý
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Ìý
1993-2000
Liu, X., S.N. Constantinescu, Y. Sun, J.S. Bogan, D. Hirsch, R.A. Weinberg, and H.F. Lodish, Generation of Mammalian Cells Stably Expressing Multiple Genes at Predetermined Levels.ÌýAnal Biochem, 2000. 280(1): p. 20-8.
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Wells, R.G., L. Gilboa, Y. Sun, X. Liu, Y.I. Henis, and H.F. Lodish, Transforming Growth Factor-Beta Induces Formation of a Dithiothreitol-Resistant Type I/Type Ii Receptor Complex in Live Cells.ÌýJ Biol Chem, 1999. 274(9): p. 5716-22.
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Sun, Y., X. Liu, E. Ng-Eaton, H.F. Lodish, and R.A. Weinberg, Snon and Ski Protooncoproteins Are Rapidly Degraded in Response to Transforming Growth Factor Beta Signaling.ÌýProc Natl Acad Sci U S A, 1999. 96(22): p. 12442-7.
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Sun*, Y., X. Liu*, E.N. Eaton, W.S. Lane, H.F. Lodish, and R.A. Weinberg, Interaction of the Ski Oncoprotein with Smad3 Regulates Tgf-Beta Signaling.ÌýMol Cell, 1999. 4(4): p. 499-*Equal contributions.
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Constantinescu, S.N., X. Liu, W. Beyer, A. Fallon, S. Shekar, Y.I. Henis, S.O. Smith, and H.F. Lodish, Activation of the Erythropoietin Receptor by the Gp55-P Viral Envelope Protein Is Determined by a Single Amino Acid in Its Transmembrane Domain.ÌýEmbo J, 1999. 18(12): p. 3334-47.
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Kuo, J.S., M. Patel, J. Gamse, C. Merzdorf, X. Liu, V. Apekin, and H. Sive, Opl: A Zinc Finger Protein That Regulates Neural Determination and Patterning in Xenopus.ÌýDevelopment, 1998. 125(15): p. 2867-82.
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Hua, X., X. Liu, D.O. Ansari, and H.F. Lodish, Synergistic Cooperation of Tfe3 and Smad Proteins in Tgf-Beta-Induced Transcription of the Plasminogen Activator Inhibitor-1 Gene.ÌýGenes Dev, 1998. 12(19): p. 3084-95.
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Constantinescu, S.N., H. Wu, X. Liu, W. Beyer, A. Fallon, and H.F. Lodish, The Anemic Friend Virus Gp55 Envelope Protein Induces Erythroid Differentiation in Fetal Liver Colony-Forming Units-Erythroid.ÌýBlood, 1998. 91(4): p. 1163-72.
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Liu, X., Y. Sun, S.N. Constantinescu, E. Karam, R.A. Weinberg, and H.F. Lodish, Transforming Growth Factor Beta-Induced Phosphorylation of Smad3 Is Required for Growth Inhibition and Transcriptional Induction in Epithelial Cells.ÌýProc Natl Acad Sci U S A, 1997. 94(20): p. 10669-74.
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Johnston, S.D., X. Liu, F. Zuo, T.L. Eisenbraun, S.R. Wiley, R.J. Kraus, and J.E. Mertz, Estrogen-Related Receptor Alpha 1 Functionally Binds as a Monomer to Extended Half-Site Sequences Including Ones Contained within Estrogen-Response Elements.ÌýMol Endocrinol, 1997. 11(3): p. 342-52.
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Liu, X. and J.E. Mertz, Sequence of the Polypyrimidine Tract of the 3'-Terminal 3' Splicing Signal Can Affect Intron-Dependent Pre-Mrna Processing in Vivo.ÌýNucleic Acids Res, 1996. 24(9): p. 1765-73.
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Liu, X. and J.E. Mertz, Hnrnp L Binds a Cis-Acting Rna Sequence Element That Enables Intron-Dependent Gene Expression.Genes Dev, 1995. 9(14): p. 1766-80.
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Liu, X. and J.E. Mertz, Polyadenylation Site Selection Cannot Occur in Vivo after Excision of the 3'-Terminal Intron.ÌýNucleic Acids Res, 1993. 21(22): p. 5256-63.
Series:Ìý, Vol. 880
Liu, Xuedong; Betterton, Meredith D. (Eds.)
2012, 2012, XIV, 327 p. 75 illus., 10 in color.
A product of Humana Press
Hardcover
Information
ISBN 978-1-61779-832-0
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