2014 and Before
9. Zheng, P., Wang, Y. & Li, H. Reversible Unfolding-Refolding of Rubredoxin: A Single-Molecule Force Spectroscopy Study. Angewandte Chemie-International Edition 53, 14060-14063 (2014) Link · PDF
8. Zheng, P., Takayama, S.-i. J., Mauk, A. G. & Li, H. Single Molecule Force Spectroscopy Reveals That Iron Is Released from the Active Site of Rubredoxin by a Stochastic Mechanism. Journal of the American Chemical Society 135, 7992-8000 (2013) Link · PDF
7. Zheng, P., Chou, C.-C., Guo, Y., Wang, Y. & Li, H. Single Molecule Force Spectroscopy Reveals the Molecular Mechanical Anisotropy of the FeS4 Metal Center in Rubredoxin. Journal of the American Chemical Society 135, 17783-17792 (2013) Link · PDF
6. Zheng, P., Takayama, S.-i. J., Mauk, A. G. & Li, H. Hydrogen Bond Strength Modulates the Mechanical Strength of Ferric-Thiolate Bonds in Rubredoxin. Journal of the American Chemical Society 134, 4124-4131, (2012) Link · PDF
5. Li, Y. D., Lamour, G., Gsponer, J., Zheng, P. & Li, H. The Molecular Mechanism Underlying Mechanical Anisotropy of the Protein GB1. Biophysical Journal 103, 2361-2368 (2012) Link · PDF
4. Zheng, P. & Li, H. Highly Covalent Ferric-Thiolate Bonds Exhibit Surprisingly Low Mechanical Stability. Journal of the American Chemical Society 133, 6791-6798 Link · PDF
3. Zheng, P. & Li, H. Direct Measurements of the Mechanical Stability of Zinc-Thiolate Bonds in Rubredoxin by Single-Molecule Atomic Force Microscopy. Biophysical Journal 101, 1467-1473 (2011) Link · PDF
2. Zheng, P., Cao, Y. & Li, H. Facile Method of Constructing Polyproteins for Single-Molecule Force Spectroscopy Studies. Langmuir 27, 5713-5718 (2011) Link · PDF
1. Zheng, P., Cao, Y., Bu, T., Straus, S. K. & Li, H. Single Molecule Force Spectroscopy Reveals that Electrostatic Interactions Affect the Mechanical Stability of Proteins. Biophysical Journal 100, 1534-1541 (2011) Link · PDF