At McGill: • Wang, J., Kliemke, V., Zhang, M.,Liu, J., Matta, G.L., Wang, Q., Luo, Y., Liu, G., Liu Q.* (2025). Nipah virus matrix protein utilizes cortical actin to stabilize the virus assembly sites and promote budding. Science Advances, In press.
• Lu, Y., Hua, M., Luo, Y., Lu, X.*#, Liu, Q*#. (2024). Hybrid paper/PDMS microfluidic devise integrated with RNA extraction and recombinase polymerase amplification for detection of norovirus in foods. Applied and Environmental Microbiology. In press. doi: 10.1128/aem.01208-24.
• Wang, Q., Liu J., Luo Y., Kliemke, V., Matta, G., Wang, J., Liu, Q.* (2025). The nanoscale organization of Nipah virus fusion protein informs membrane fusion mechanisms. eLife. 2025 Jan 2:13:RP97017. doi: 10.7554/eLife.97017.
• Wang, J., Luo, Y., Katiyar, H., Liang C., Liu, Q.* (2024) The antiviral activity of interferon-induced transmembrane proteins and virus evasion strategies. Viruses. 16(5):734.
• Liu, QT., Wang, Q., Zhang, Y., Kliemke, V., Liu, Q*., Chou, K.C.* (2022). The nanoscale organization of Nipah virus matrix protein revealed by super-resolution microscopy. Biophysical Journal. 12(121): 2290-2296.
Before McGill:
• Liu, Q., Chen, L., Aguilar, H.C., and Chou, K.C.* (2018) A stochastic virus assembly model revealed by super-resolution microscopy. Nature Communications. 9(1):3050.