Influence of End-Block Dynamics on Deformation Behavior of Thermoresponsive Elastin-like Polypeptide Hydrogels

Sing, Michelle K.; Burghardt, Wesley R.; Olsen, Bradley D.

doi:10.1021/acs.macromol.8b00002

Title: Influence of End-Block Dynamics on Deformation Behavior of Thermoresponsive Elastin-like Polypeptide Hydrogels

Journal Article · Wed Apr 04 00:00:00 EDT 2018 · Macromolecules

DOI:https://doi.org/10.1021/acs.macromol.8b00002· OSTI ID:1434753

^[1]; Burghardt, Wesley R. ^[2];

^[1]

Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States)
Northwestern Univ., Evanston, IL (United States)

End-block association dynamics are known to influence deformation behavior in block copolymer systems. The ability to obtain precisely sequence controlled systems can help inform this deformation behavior, which is often influenced by dispersity in sequence and molar mass. Elastin-like polypeptides (ELPs) are a class of protein that consists of a sequence of five amino acids (XPGVG) that thermoresponsively aggregate in solution. These ELPs can be used as end-blocks in triblock fusion proteins with coiled-coil associating midblock domains to result in dual-associating, network-forming materials. By modifying the standard glycine-containing ELP sequence (XPGVG) to instead contain alanine in the third position of the repeat sequence (XPAVG), it is possible to improve the properties of the material in both shear and extension. In extension at 50 °C, the alanine-containing triblock (A₁₀P₄A₁₀) and the glycine-containing triblock (G₁₀P₄G₁₀) have similar Young’s moduli. However, while G₁₀P₄G₁₀ yields and breaks within 5 strain units, A₁₀P₄A₁₀ plastically deforms to an ultimate strain at break of over 15 strain units and a tensile stress of almost 90 kPa. In shear, G₁₀P₄G₁₀ exhibits a clear stress overshoot at less than one strain unit before plateauing at a steady-state shear stress of 0.43 kPa, while the shear stress of A₁₀P₄A₁₀ monotonically increases to a shear stress of 48.4 kPa after 2.4 strain units. In shear, these differences in behavior correlate to rearrangement of G₁₀P₄G₁₀’s nanostructure during viscous-dominated flow, while the nanostructure of A₁₀P₄A₁₀ initially elastically deforms. These differences are a function of the relative network relaxation time scales, where the presence of the faster glycine-containing ELP end-block sequence decreases the network relaxation time such that it occurs on the same order of magnitude as the imposed flow.

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Research Organization:: Argonne National Lab. (ANL), Argonne, IL (United States). Advanced Photon Source (APS)

Sponsoring Organization:: US Army Research Office (ARO); National Science Foundation (NSF); Northwestern University; E. I. DuPont de Nemours & Co.; The Dow Chemical Company; USDOE Office of Science (SC)

Grant/Contract Number:: DMR-14-19807; AC02-06CH11357; 0960140

OSTI ID:: 1434753

Journal Information:: Macromolecules, Vol. 51, Issue 8; ISSN 0024-9297

Publisher:: American Chemical SocietyCopyright Statement

Country of Publication:: United States

Language:: ENGLISH

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Cited by: 8 works

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Title: Influence of End-Block Dynamics on Deformation Behavior of Thermoresponsive Elastin-like Polypeptide Hydrogels

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