Assistant Professor of Biochemistry and Biophysics
PhD - University of Michigan
HONORS & AWARDS
- The March of Dimes Basil O’Connor Starter Scholar Research Award - 2013
- The Baltimore Family Fellow of the Life Sciences Research Foundation - 2008
- The RNA Society/Scaringe Young Scientist Award - 2008
The last thirty years have witnessed exciting discoveries of diverse functions carried out by non-coding RNAs (ncRNAs), ranging from enzymatic catalysis to gene regulation. Significant progress has been achieved towards understanding the chemical basis for these newly discovered ncRNA functions by solving high-resolution structures at various stages along the functional pathways using X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy. However, these static atomic images convey little information regarding how these ncRNAs undergo the structural transitions required to carry out their biological functions.
Our laboratory is primarily focusing on developing and applying solution-state NMR methods, together with computational and biochemical approaches, to understand the molecular basis of RNA function. In particular, we aim to visualize, with atomic resolution, the entire dynamic process of ribozyme catalysis, riboswitch-based gene regulation, and co-transcriptional folding of mRNA. The principles deduced from these studies will provide atomic basis for rationally manipulating RNA catalysis and folding, and for de novo design of small molecules that target specific RNA signals involving in cancer and human disease. Research program in the laboratory provides diverse training opportunities in areas of spectroscopy, biophysics, structural biology, computational modeling, and biochemistry.
- Zhao, B., Hansen, A.L., and Zhang, Q.*, “Characterizing Slow Chemical Exchange in Nucleic Acids by Carbon CEST and Low Spin-lock Field R1ρ NMR Spectroscopy,” J. Am. Chem. Soc. Epub December 2013.
- Kim, N.K., Zhang, Q., and Feigon, J., “Structure and Sequence Elements of the CR4/5 Domain of Medaka Telomerase RNA Important for Telomerase Function,” Nucleic Acids Res. November 2013.
- Shen, K., Wang, Y., Fu, Y.H., Zhang, Q., Feigon, J., and Shan, S.O., “Molecular Mechanism of GTPase Activation at the SRP RNA Distal End,” J. Biol. Chem. Epub October 2013.
- Zhang, Q., Kang, M., Peterson, R.D., and Feigon, J., “Comparison of Solution and Crystal Structures of PreQ1 Riboswitch Reveals Calcium-induced Changes in Conformation and Dynamics,” J. Am. Chem. Soc., 133:5190-5193 (2011)
- Zhang, Q., Kim, N.K., Peterson, R.D., Wang, Z., and Feigon, J., “Structurally Conserved Five Nucleotide Bulge Determines the Overall Topology of the Core Domain of Human Telomerase RNA,” Proc. Natl. Acad. Sci. USA, 107: 18761–18768 (2010).
- Zhang, Q., and Al-Hashimi, H. M., “Extending the NMR Spatial Resolution Limit for RNA by Motional Couplings,” Nature Methods, 5:243-245 (2008)
- Zhang, Q., Stelzer, A., Fisher, C.K., and Al-Hashimi, H. M., “Visualizing Spatially Correlated Dynamics that Directs RNA Conformational Transitions,” Nature, 450:1263-1267 (2007)
- Zhang, Q., Sun, X., Watt, E.D., and Al-Hashimi, H. M., “Resolving the Motional Modes that Code for RNA Adaptation,” Science, 311: 653-656 (2006)
- Zhang, Q., Throolin, R., Pitt, S.W., Serganov, A., and Al-Hashimi, H.M., “Probing Motions Between Equivalent RNA Domains Using Magnetic Field Induced Residual Dipolar Couplings: Accounting for Correlations Between Motions and Alignment,” J. Am. Chem. Soc., 125:10530-10531 (2003)
120 Mason Farm Rd,
Campus Box # 7260
3017 Genetic Medicine
Chapel Hill, NC 27599
Lab Room: 3023A Genetic Med
Lab Phone: 919-843-5865