光谱学与光谱分析 |
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Study on the Mechanism of Ca2+-Buffering by Sodium Glycodeoxycholate Micelles |
CHEN Hu-he,YU Fang-ting,YANG Zhan-lan*,XU Yi-zhuang,WENG Shi-fu,WU Jin-guang |
College of Chemistry and Molecular Engineering, State Key Laboratory of Rare Earth Material Chemistry and Application, Peking University, Beijing 100871, China |
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Abstract In the present article, NaGDC was used to study the Ca2+-buffering capability of bile salt micelles. NaGDC is a naturally occurring bile salt which constitutes approximately 10 molar percent of bile salt composition in gallbladder. The authors selected glycine conjugated bile salts NaGDC because it precipitates with Ca2+ ions fast. The Ca2+-buffering property of sodium glycodeoxycholate (NaGDC) micelles was studied by utilizing turbidity titration, quasi-elastic light scattering (QELS), transmission electron microscopy (TEM) and Fourier transform infrared spectroscopy (FTIR). When the concentration of NaGDC was above the CMC, the precipitation of Ca2+ ions with NaGDC was buffered. The Ca2+-buffering capability was enhanced when the concentration of NaGDC increased. The possible mechanism of Ca2+-buffering by NaGDC micelles was discussed. When the concentration of NaGDC was below the CMC, the Ca2+ ions reacted with GDC-anions to form the Ca(GDC)2 precipitation. However, at the concentration above the CMC, NaGDC simple micelles were connected by Ca2+-bridge to form larger fibriform micelles via the interaction of carboxyl groups of NaGDC simple micelles with Ca2+ ions. When the ratio of Ca2+ to Na+ was enhanced to the fixed value, NanCam(GDC)n+2m complexes were precipitated by the further addition of Ca2+ ions.
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Received: 2009-06-08
Accepted: 2009-09-12
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Corresponding Authors:
YANG Zhan-lan
E-mail: yzl@pku.edu.cn
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