Characterization of α-carrageenan solution behavior by field-flow fractionation and multiangle light scattering

The salt mediated molecular conformation change of alpha (alpha)-carrageenan was studied in 0.1 M solutions of NaCl, Nal, and KCI. Asymmetric Field-Flow Fractionation with multiangle laser light scattering (AFFF/MALLS) detection was used to determine the average molecular weight, radius of gyration, and hydrodynamic radius which were in turn used to calculate the molecular density. In the presence of 0.1 M NaCl, an inert salt that does not promote gelation, oc-carrageenan has a denser structure compared to K-carrageenan of a similar molecular weight. A distinct and dramatic increase in the molecular weight (factor of 2) was observed for oc-carrageenan in 0.1 M NaI compared to 0.1 M NaCl. This combined with only a slight change in the radius of gyration, suggests intermolecular interaction to a more compact structure (e.g., coaxial helices). A similar increase in molecular weight is observed in 0.1 M KC1, accompanied with an approximate 50% increase in the radius of gyration as well as an increase in polydispersity. This may also be attributed to intermolecular interaction with helix formation (coaxial or lateral) or may be due to K+ cations interacting with naturally occurring residual alpha-carrageenan in the sample. As previously reported for other carrageenans the random coil to helix transition of a-carrageenan appears to be stabilized by K+ cation or I- anion in an aqueous environment. (c) 2007 17.1sevier Ltd. All rights reserved.