Co-assembly of Patchy Polymeric Micelles and Protein
Molecules
Fan, WJ (Fan, Weijing)[ 1 ] ; Liu, L (Liu, Li)[ 1 ] ; Zhao, HY (Zhao, Hanying)[ 1,2 ]
ANGEWANDTE
CHEMIE-INTERNATIONAL EDITION, 2017, 56(30): 8844-8848
DOI: 10.1002/anie.201704955
WOS:000405308500044
Abstract
The
development in the synthesis and self-assembly of patchy nanoparticles has
resulted in the creation of complex hierarchical structures. Co-assembly of
polymeric nanoparticles and protein molecules combines the advantages of
polymeric materials and biomolecules, and will produce new functional
materials. Co-assembly of positively charged patchy micelles and negatively
charged bovine serum albumin (BSA) molecules is investigated. The patchy
micelles, which were synthesized using block copolymer brushes as templates,
leads to co-assembly with protein molecules into vesicular structures. The
average size of the assembled structures can be controlled by the molar ratio
of BSA to patchy micelles. The assembled structures are dissociated in the
presence of trypsin. The protein-polymer hybrid vesicles could find potential
applications in medicine.
