• 12. Zheng, B., Lu, Z., Wang, S., Liu, L., Ao, M., Zhou, Y., Tang, G., Wang, R., Liu, Y., Zhang, H., Meng, Y., Qiu, J., Feng, T., Wang, Z., Liu, R., Xiao, Y., Liu, Y., Wang, Z., Huang, Y., Jiang, Y., Zheng, P.,* Computational design of superstable proteins througn maximized hydrogen bonding. Nature Chemistry. 18, 364-373 (2026) Link · PDF

    • 11. Chong, K. H. C.#, Liu, L.#, Chua, R., Chai, Y. T., Lu, Z., Liu, RTan, E. Y. j., Dong, J., Khoh, Y. H., Lin, J., Zhong, F. L., Lescar, J., Zheng, P.,* Wu, B.,* Structural Basis of High-Precision Protein Ligation and Its Application. Jurnal of the American Chemical Society. 147(2), 1604-1611 (2025) Link · PDF


    • 10. Zheng, B.#, Duan, M.#, Huang, Y.#, Wang, S.#, Qiu, J., Lu, Z., Liu, L., Tang, G., Cheng, L.,Zheng, P.,* Discovery of a heparan sulfate binding domain in monkeypox virus H3 as an anti-poxviral drug target combining AI and MD simulations. eLife 13, RP100545 (2025) Link · PDF


    • 9. Liu, Y.#, Song, D.#, Li, S.#, Guo, Z*., Zheng, P.,* Click chemistry-based force spectroscopy revealed enhanced binding dynamics of phosphorylated HMGB1 to Cisplatin-DNA. Journal of the American Chemical Society 146(19), 13126-13132(2024) Link · PDF

8. Shi, S., Wang, Z., Deng, Y., Tian, F., Wu, Q. & Zheng, P.,* Combination of SPAAC Click Chemistry and Enzymatic Ligation for Stable and Efficient Protein Immobilization for Single-Molecule Force SpectroscopyCCS Chemistry 3, 841-847 (2022) Link · PDF

 

7. Tian, F.,# Tong, B.,# Sun, L., Shi, S., Zheng, B., Wang, Z., Dong, X.,* & Zheng, P.,* N501Y mutation of spike protein in SARS-CoV-2 strengthens its binding to receptor ACE2. eLife 10, e69091 (2021) Link · PDF

   

cited by WHO as guidance for surveillance of SARS-CoV-2 Variants

6. Deng, Y., Wu, T., Wang, M., Shi, S., Yuan, G., Li, X., Chong, H., Wu, B. & Zheng, P.* Enzymatic biosynthesis and immobilization of polyprotein verified at the single-molecule level. Nature Communications 10, 2775 (2019) Link·PDF

5. Shi, S., Wu, T., Zheng P.,* Direct Measurements of the Cobalt-Thiolate Bonds Strength in Rubredoxin by Single-Molecule Force Spectroscopy. ChemBioChem  23, e202200165 (2022). Link ·PDF

    

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4. Wang, Z., Zhao, Z., Li, G., Zheng, P.,* Single-Molecule Force Spectroscopy Reveals the Dynamic HgS Coordination Site in the De Novo-Designed Metalloprotein a3DIV. Journal of Physical Chemistry Letters 13(23), 5372-5378 (2022). Link·PDF

    

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3. Nie, J., Deng, Y., Tian, F., Shi, S., Zheng, P.,* Detection of weak non-covalent cation-π interactions in NGAL by single-molecule force spectroscopy. Nano Research  71, 4251-4257 (2022) Link·PDF

2. Liu, Y., Tian, F., Shi, S., Deng, Y., Zheng, P.,* Enzymatic Protein–Protein Conjugation through Internal Site Verified at the Single-Molecule Level. Journal of Physical Chemistry Letters 12, 10914-10919 (2021) Link·PDF 

   


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1. Tian, F., Li, G., Zheng, B., Liu, Y., Shi, S., Deng, Y. & Zheng, P.* Verification of sortase for protein conjugation by single-molecule force spectroscopy and molecular dynamics simulations. Chemical Communications 56, 3943-3946 (2020) Link · PDF   

   

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