Kitov, P.I.; Paszkiewicz, E.; Sadowska, J.M.; Deng, Z.; Ahmed, M.; Narain, R.; Griener, T.P.; Mulvey, G.L.; Armstrong, G.D.; Bundle, D.R.
Impact of the Nature and Size of the Polymeric Backbone on the Ability of Heterobifunctional Ligands to Mediate Shiga Toxin and Serum Amyloid P Component Ternary Complex Formation. Toxins 2011, 3, 1065-1088.
https://doi.org/10.3390/toxins3091065
AMA Style
Kitov PI, Paszkiewicz E, Sadowska JM, Deng Z, Ahmed M, Narain R, Griener TP, Mulvey GL, Armstrong GD, Bundle DR.
Impact of the Nature and Size of the Polymeric Backbone on the Ability of Heterobifunctional Ligands to Mediate Shiga Toxin and Serum Amyloid P Component Ternary Complex Formation. Toxins. 2011; 3(9):1065-1088.
https://doi.org/10.3390/toxins3091065
Chicago/Turabian Style
Kitov, Pavel I., Eugenia Paszkiewicz, Joanna M. Sadowska, Zhicheng Deng, Marya Ahmed, Ravin Narain, Thomas P. Griener, George L. Mulvey, Glen D. Armstrong, and David R. Bundle.
2011. "Impact of the Nature and Size of the Polymeric Backbone on the Ability of Heterobifunctional Ligands to Mediate Shiga Toxin and Serum Amyloid P Component Ternary Complex Formation" Toxins 3, no. 9: 1065-1088.
https://doi.org/10.3390/toxins3091065
APA Style
Kitov, P. I., Paszkiewicz, E., Sadowska, J. M., Deng, Z., Ahmed, M., Narain, R., Griener, T. P., Mulvey, G. L., Armstrong, G. D., & Bundle, D. R.
(2011). Impact of the Nature and Size of the Polymeric Backbone on the Ability of Heterobifunctional Ligands to Mediate Shiga Toxin and Serum Amyloid P Component Ternary Complex Formation. Toxins, 3(9), 1065-1088.
https://doi.org/10.3390/toxins3091065