Effect of sequence features on assembly of spider silk block copolymers

Authors :: Massachusetts Institute of Technology. Department of Civil and Environmental Engineering
Lin, Shangchao
Buehler, Markus J.
Tokareva, Olena S.
Jacobsen, Matthew M.
Huang, Wenwen
Rizzo, Daniel
Li, David
Simon, Marc
Staii, Cristian
Cebe, Peggy
Wong, Joyce Y.
Kaplan, David L.
Massachusetts Institute of Technology. Department of Civil and Environmental Engineering
Lin, Shangchao
Buehler, Markus J.
Tokareva, Olena S.
Jacobsen, Matthew M.
Huang, Wenwen
Rizzo, Daniel
Li, David
Simon, Marc
Staii, Cristian
Cebe, Peggy
Wong, Joyce Y.
Kaplan, David L.
Source :: PMC
Publication Year :: 2016
Abstract: Bioengineered spider silk block copolymers were studied to understand the effect of protein chain length and sequence chemistry on the formation of secondary structure and materials assembly. Using a combination of in vitro protein design and assembly studies, we demonstrate that silk block copolymers possessing multiple repetitive units self-assemble into lamellar microstructures. Additionally, the study provides insights into the assembly behavior of spider silk block copolymers in concentrated salt solutions.<br />National Institutes of Health (U.S.) (NIH U01 EB014976)

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