Dominik´s research focuses on the development of synthetic cell membrane mimics based on dendrimersomes. He uses membranes of biomimetic thickness with high flexibility and lateral mobility combined with selective receptors to achieve discontinuity in binding of ligands. Additionally, he investigates, based on his master thesis, the binding affinity and forces of peptide-polymer hybrid molecules on surfaces.

​

Publications

 

​

Enhanced concanavalin A binding to preorganized mannose nanoarrays in glycodendrimersomes revealed multivalent interactions

Kostina, N. Yu.*; Söder, D.*; Haraszti, T.; Xiao, Q.; Rahimi, K.; Patridge, B. E.; Klein, M. L.; Percec, V.; Rodriguez-Emmenegger, C.

Angewandte Chemie, DOI:10.1002/anie.202100400

* equal contributions

​

 

Nanovesicles Displaying Functional Linear and Branched Oligomannose Self-Assembled from Sequence-Defined Janus Glycodendrimers

Xiao, Q.; Delbianco, M.; Sherman, S. E.; Reveron Perez, A. M.; Bharate, P.; Pardo-Vargas, A.;  Rodriguez-Emmenegger, C.; Kostina, N. Yu.; Rahimi, K.; Söder, D.; Möller, M.; Klein, M. L.; Seeberger, P. H.; Percec, V.

PNAS, 117 (22), 11931-11939 (2020)

​

Matter‐tag: A Universal Immobilization Platform for Enzymes on Polymers, Metals, and Silicon‐based Materials

Dedisch, S.; Wiens, A.;  Davari, M. D.; Söder, D.; Rodriguez‐Emmenegger, C.; Jakob, F.; Schwaneberg, U.
Biotechnology and bioengineering, 117 (1), 49-61 DOI: 10.1002/bit.27181 (2020)

 

Antifouling Microparticles to Scavenge Lipopolysaccharide from Human Blood Plasma

 

Vorobii, M.; Kostina, N. Yu.; Rahimi, K.; Grama, S.; Söder, D.; Pop-Georgievski, O.; Sturcova, A.; Horak, D.; Grottke, O.; Singh, S.; Rodriguez-Emmenegger, C.

Biomacromolecules, 20 (2), 959-968 (2019)