The winter flounder, Pseudopleuronectes americanus, synthesizes a variety of alpha-helical antifreeze proteins (AFPs) that adhere to ice and inhibit its growth. The best studied of these is AFP6, which is a 37-residue protein abundant in the flounder blood plasma during winter. Curcumin from the turmeric plant (Curcuma longa) was found to interact with AFP6 in aqueous solutions, resulting in measurable changes in the curcumin, but not in the protein. Specifically, the secondary structure and unfolding of synthetic AFP6, shown by circular dichroism, appeared to be unaffected by curcumin. In contrast, the peak absorbance of curcumin shifted and increased in the presence of AFP6, and the maximum fluorescence emission was greater and blue shifted. These results also suggested the possibility of AFP6 detection by curcumin fluorescence. Synthetic AFP6 did not interact with Coomassie blue, silver or a commercial fluorescent stain following electrophoresis; however, the change in curcumin fluorescence upon binding to electrophoresed AFP6 resulted in a fluorescent signal, which was also detected upon interaction with purified natural AFP and flounder blood plasma containing the protein. Thus, aqueous curcumin can be used for the direct detection of AFP6 and curcumin binding could provide new avenues for the study of this protein.
Keywords: Antifreeze protein; Circular dichroism; Curcumin; Fluorescence; Pseudopleuronectes americanus; Winter flounder.
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