[1] Liu, H., Liu, Z., Santos, M., & Nash, M. (2023). Direct Comparison of Lysine vs. Site-specific Protein Surface Immobilization in Single-molecule Mechanical Assays. Angewandte Chemie International Edition, 62(32), e202304136.
[2] Liu, Z., Liu, H., Vera, A. M., Yang, B., Tinnefeld, P., & Nash, M. (2023). Engineering an artificial catch bond using mechanical anisotropy. Preprint on bioRxiv, 2023-09.
[3] Doffini, V., Liu, H., Liu, Z., & Nash, M. (2023). Iterative Machine Learning for Classification and Discovery of Single-molecule Unfolding Trajectories from Force Spectroscopy Data. Nano letters.
[4] Liu, H., Liu, Z., Yang, B., Lopez Morales, J., & Nash, M. A. (2022). Optimal Sacrificial Domains in Mechanical Polyproteins: S. epidermidis Adhesins Are Tuned for Work Dissipation. JACS Au, 2(6), 1417-1427.
[5] Santos, M. S., Liu, H., Schittny, V., Vanella, R., & Nash, M. A. (2022). Correlating single-molecule rupture mechanics with cell population adhesion by yeast display. Biophysical Reports, 2(1), 100035.
[6] Liu, Z., Moreira, R. A., Dujmović, A., Liu, H., Yang, B., Poma, A. B., & Nash, M. A. (2021). Mapping mechanostable pulling geometries of a therapeutic anticalin/CTLA-4 protein complex. Nano letters, 22(1), 179-187.
[7] Liu, Z., Liu, H., Vera, A. M., Bernardi, R. C., Tinnefeld, P., & Nash, M. A. (2020). High force catch bond mechanism of bacterial adhesion in the human gut. Nature communications, 11(1), 1-12.
[8] Liu, H., Fang, C., Gong, Z., Chang, R. C. C., Qian, J., Gao, H., & Lin, Y. (2020). Fundamental characteristics of neuron adhesion revealed by forced peeling and time-dependent healing. Biophysical Journal, 118(8), 1811-1819.
[9] Yang, B., Liu, H., Liu, Z., Doenen, R., & Nash, M. A. (2020). Influence of fluorination on single-molecule unfolding and rupture pathways of a mechanostable protein adhesion complex. Nano letters, 20(12), 8940-8950.
[10] Yang, B., Liu, Z., Liu, H., & Nash, M. A. (2020). Next Generation Methods for Single-Molecule Force Spectroscopy on Polyproteins and Receptor-Ligand Complexes. Frontiers in Molecular Biosciences, 7.
[11] Liu, H., Schittny, V., & Nash, M. A. (2019). Removal of a Conserved Disulfide Bond Does Not Compromise Mechanical Stability of a VHH Antibody Complex. Nano letters, 19(8), 5524-5529.
[12] Liu, H., Ta, D. T., & Nash, M. A. (2018). Mechanical Polyprotein Assembly Using Sfp and Sortase‐Mediated Domain Oligomerization for Single‐Molecule Studies. Small Methods, 2(6), 1800039.
[13] Gunnoo, M., Cazade, P. A., Orlowski, A., Chwastyk, M., Liu, H., Ta, D. T., … & Thompson, D. (2018). Steered molecular dynamics simulations reveal the role of Ca 2+ in regulating mechanostability of cellulose-binding proteins. Physical Chemistry Chemical Physics, 20(35), 22674-22680.
[14] Yang, L., Liu, H., & Lin, Y. (2014). Biomaterial nanotopography-mediated cell responses: experiment and modeling. International Journal of Smart and Nano Materials, 5(4), 227-256.
[15] Qian, J., Liu, H., Lin, Y., Chen, W., & Gao, H. (2013). A mechanochemical model of cell reorientation on substrates under cyclic stretch. PloS one, 8(6), e65864.