Dultz, G. Et Al. 2020. Extended interaction networks with HCV protease NS3-4A substrates explain the lack of adaptive capability against protease inhibitors. JOURNAL OF BIOLOGICAL CHEMISTRY , vol.295, no.40 , 13862-13874.

Dultz, G., Shimakami, T., Schneider, M., Murai, K., Yamane, D., MARION, A., ... Zeitler, T. M.(2020). Extended interaction networks with HCV protease NS3-4A substrates explain the lack of adaptive capability against protease inhibitors. JOURNAL OF BIOLOGICAL CHEMISTRY , vol.295, no.40, 13862-13874.

Dultz, Georg Et Al. "Extended interaction networks with HCV protease NS3-4A substrates explain the lack of adaptive capability against protease inhibitors," JOURNAL OF BIOLOGICAL CHEMISTRY , vol.295, no.40, 13862-13874, 2020

Dultz, Georg Et Al. "Extended interaction networks with HCV protease NS3-4A substrates explain the lack of adaptive capability against protease inhibitors." JOURNAL OF BIOLOGICAL CHEMISTRY , vol.295, no.40, pp.13862-13874, 2020

Dultz, G. Et Al. (2020) . "Extended interaction networks with HCV protease NS3-4A substrates explain the lack of adaptive capability against protease inhibitors." JOURNAL OF BIOLOGICAL CHEMISTRY , vol.295, no.40, pp.13862-13874.

@article{article, author={Georg Dultz Et Al. }, title={Extended interaction networks with HCV protease NS3-4A substrates explain the lack of adaptive capability against protease inhibitors}, journal={JOURNAL OF BIOLOGICAL CHEMISTRY}, year=2020, pages={13862-13874} }