Reversible, High-Affinity Surface Capturing of Proteins Directed by Supramolecular Assembly

Di Palma, Giuseppe; Kotowska, Anna M.; Hart, Lewis R.; Scurr, David J.; Rawson, Frankie J.; Tommasone, Stefano; Mendes, Paula M.

doi:10.1021/acsami.9b00927

All Outputs (2)

Mechanistic insight into heterogeneity of trans-plasma membrane electron transport in cancer cell types (2019)
Journal Article
Sherman, H. G., Jovanovic, C., Abuawad, A., Kim, D., Collins, H., Dixon, J. E., …Rawson, F. J. (2019). Mechanistic insight into heterogeneity of trans-plasma membrane electron transport in cancer cell types. BBA - Bioenergetics, 1860(8), 628-639. https://doi.org/10.1016/j.bbabio.2019.06.012

Trans-plasma membrane electron transfer (tMPET) is a process by which reducing equivalents, either electrons or reductants like ascorbic acid, are exported to the extracellular environment by the cell. TPMET is involved in a number of physiological p... Read More about Mechanistic insight into heterogeneity of trans-plasma membrane electron transport in cancer cell types.

Reversible, High-Affinity Surface Capturing of Proteins Directed by Supramolecular Assembly (2019)
Journal Article
Di Palma, G., Kotowska, A. M., Hart, L. R., Scurr, D. J., Rawson, F. J., Tommasone, S., & Mendes, P. M. (2019). Reversible, High-Affinity Surface Capturing of Proteins Directed by Supramolecular Assembly. ACS Applied Materials and Interfaces, 11(9), 8937-8944. https://doi.org/10.1021/acsami.9b00927

The ability to design surfaces with reversible, high-affinity protein binding sites represents a significant step forward in the advancement of analytical methods for diverse biochemical and biomedical applications. Herein, we report a dynamic supram... Read More about Reversible, High-Affinity Surface Capturing of Proteins Directed by Supramolecular Assembly.