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研究论文

代表作:

1.  “How Do Proteins Unfold upon Adsorption on Nanoparticle Surfaces?” Pan, H, Qin, M, Meng, W, Cao, Y*, Wang, W* (2012) Langmuir. [Epubahead of print]

2.   “A versatile "multiple fishhooks" approach for the study of ligand-receptor interactions using single molecule atomic force microscopy.” Han, X, Qin, M, Pan, H, Cao, Y*, Wang, W* (2012) Langmuir  28:10020-5.

3.  “Single-molecule experiments reveal the flexibility of a Per-ARNT-Sim domain and the kinetic partitioning in the unfolding pathway under force” Gao X, Qin, M, Yin, PG, Liang, JY, Wang, J, Cao, Y*, Wang, W* (2012) Biophysical Journal 102:2149-57.

4.  “Low folding cooperativity of Hp35 revealed by single-molecule force spectroscopy and molecular dynamics simulation” Lv, CM, Tan, C, Qin, M., Zou, DW, Cao, Y*, Wang, W* (2012) Biophysical Journal 102:1944-51.

5.  “A genetically encoded copper(I) sensor based on engineered structural distortion of EGFP.” Liang, J, Qin, M, Xu, R, Gao, X, Shen, Y, Xu, Q, Cao, Y*, Wang, W* (2012) Chemical Communications 48:3890-2

6.  “Designed biomaterials to mimic the mechanical properties of muscles” Lv, S, Dudek, DM, Cao, Y, Balamurali, MM, Gosline, J, Li, HB (2010) Nature 465: 69-73

7.  “Single molecule force spectroscopy reveals engineered metal chelation is a general approach to enhance mechanical stability of proteins”Cao, Y, Yoo, T,  Li, HB (2008) Proceedings of the National Academy of Sciences USA 105: 11152-11157.

8.  “Engineered elastomeric proteins with dual elasticity can be controlled by a molecular regulator” Cao, Y, Li, HB (2008) Nature Nanotechnology 3: 512-516.

9.  “A functional single-molecule binding assay via force spectroscopy” Cao, Y, Balamurali, MM, Sharma, D, Li, HB (2007) Proceedings of the National Academy of Sciences USA 104:15677-15681.

10.“Polyprotein of GB1 is an ideal artificial elastomeric protein” Cao, Y, Li, HB (2007) Nature Materials 6: 109-114.