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Unravelling a Direct Role for Polysaccharide β-Strands in the Higher Order Structure of Physical Hydrogels.

Anja RütherAurelien ForgetAnjan RoyCarolina CarballoFlorian MießmerRina K DukorLaurence A NafieChristian JohannessenV Prasad ShastriSteffen Lüdeke
Published in: Angewandte Chemie (International ed. in English) (2017)
The mechanical properties of agarose-derived hydrogels depend on the scaffolding of the polysaccharide network. To identify and quantify such higher order structure, we applied Raman optical activity (ROA)-a spectroscopic technique that is highly sensitive toward carbohydrates-on native agarose and chemically modified agarose in the gel phase for the first time. By spectral global fitting, we isolated features that change as a function of backbone carboxylation (28, 40, 50, 60, 80, and 93 %) from other features that remain unchanged. We assigned these spectral features by comparison to ROA spectra calculated for different oligomer models. We found a 60:40 ratio of double- and single-stranded α-helix in the highly rigid hydrogel of native agarose, while the considerably softer hydrogels made from carboxylated agarose use a scaffold of unpaired β-strands.
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