Education:
2008.1 Center for Nuclear Magnetic Resonance (CERM), University of Florence, Italy. PhD.
2002.6 Department of Chemistry, Nankai University, Bachelor
Academic Career:
2013.7-, School of Chemistry and Molecular Engineering, Distinguished Researcher
2009.4-2013.6 Department of Physics, University of Guelph, Canada, Postdoctoral
Research Interests:
- Solid state NMR study of membrane protein structure
- New method of biosolids nuclear magnetic resonance
- Protein folding mechanism
- NMR on biomacromolecule interaction
Select publications
- Good D.B., Wang S., Ward M.E., Struppe J., Brown L.S., Lewandowski J.R., and Ladizhansky V. (2014) Conformational dynamics of a seven transmembrane helical protein Anabaena Sensory Rhodopsin probed by solid-state NMR. J. Am. Chem. Soc.; In press.
- Wang S., Munro R.A., Shi L., Kim S.Y., Okitsu T., Wada, A., Jung K.H., Brown L.S., and Ladizhansky V. (2013) Solid-State NMR Structure Determination of a Lipid-Embedded Heptahelical Membrane Protein. Nat. Methods; 10; 1007–12.
- Wang S.,# Horimoto Y.,# Dee D.R., and Yada R.Y. (2013) Understanding the Mechanism of Prosegment-Catalyzed Folding by Solution NMR Spectroscopy. J. Biol. Chem. [#these authors contributed equally to this work]
- Wang S., Munro R.A., Kim S.Y., Jung K.H., Brown L.S., and Ladizhansky V. (2012) Paramagnetic Relaxation Enhancement Reveals Oligomerization Interface of a Membrane Protein. J. Am. Chem. Soc.; 134(41);16995-8
- Wang S., Kim S.Y., Jung K.H., Ladizhansky V., and Brown L.S. (2011) A Eukaryotic-Like Interaction of Soluble Cyanobacterial Sensory Rhodopsin Transducer with DNA. J. Mol. Biol.; 411(2): 449-62
- Abriata A.L., Banci L., Bertini I., Ciofi-Baffoni S., Gkazonis P., Spyroulias G. A., Vila A. J., and Wang S. (2008) Mechanism of CuA Assembly. Nat. Chem. Biol.; 4(10): 599-601.
