Optical Fiber-Type Sugar Chip Using Localized Surface Plasmon Resonance.

Abstract

Optical fiber-type Sugar Chips were developed using localized surface plasmon resonance (LSPR) of gold (Au) nanoparticles. The endface of an optical fiber was first aminosilylated and then condensed with α-lipoic acid containing a dithiol group. Second, gold nanoparticles were immobilized onto the endface via an Au-S covalent bond. Finally, sugar moieties were attached to the gold nanoparticle using our original sugar chain-ligand conjugates to obtain fiber-type Sugar Chips, by which the sugar moiety-protein interaction was analyzed. The specificity, sensitivity, and quantitative binding potency against carbohydrate-binding protein were found to be identical to that of a conventional SPR sensor. In this analysis, only a small sample volume (approximately 10 μL) was required compared with 100 μL for the conventional SPR sensor, suggesting that the fiber-type Sugar Chip and LSPR are applicable for nonpure small masses of proteins.