Abstract:With a deuterium light source was used to provide the continuous light, the time resolved UV-Vis absorption spectra in the synthetic process of quercetin complex with Al3+ were measured by using an intensified ICCD spectroscopic detector. The measuing system was controlled synchronously by using a digital delay generator DG535. A total of 50 spectra with the exposure time of 1 μs for each spectrum and the time interval of 20 ms between two successional spectra were acquired. Results showed clearly that the typical bands centered at 254 and 374 nm of quercetin disappeared at 40 ms after the reaction started; at the same time, an absorption band centered at 384 nm of a transitional product appeared, and the typical absorption band centered at 300 nm of Al3+ still existed; with the reaction progressing, the bands of the transitional product and Al3+ disappeared, and the new bands centered at 267 and 436 nm of the complex of quercetin with Al3+ appeared and became stronger gradually; at 980 ms, the typical absorption band of Al3+ disappeared completely and the two typical absorption bands of the complex increased to the strongest. The synthetic reaction of quercetin complex with Al3+ finished within one second. The process of Al3+ being scavenged is shown in the spectra obviously. The prensent results provide experimental evidence for the Al3+ scavenging ability of quercetin.
李慧峰1,李萍1*,李迎1,杨晓占2,吴大诚2,李瑞霞2. 槲皮素-铝配合物合成过程中紫外-可见时间分辨吸收光谱[J]. 光谱学与光谱分析, 2008, 28(02): 352-355.
LI Hui-feng1,LI Ping1*,LI Ying1,YANG Xiao-zhan2,WU Da-cheng2,LI Rui-xia2. Time Resolved UV-Vis Absorption Spectra in Synthetic Process of Quercetin Complex with Al3+. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2008, 28(02): 352-355.
[1] Walle T. Free Radical Biology & Medicine,2004, 36(7): 829. [2] LIAN Hong-zhen, BI Shu-ping, TIAN Li-qing(练鸿振,毕树平,田笠卿). Chinese Journal of Analytical Chemistry(分析化学),2004, 32(12): 1677. [3] WU Fang-ying, HUANG Jian-feng(吴芳英,黄坚峰). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2001,21(1): 92. [4] LIAN Hong-zhen, KANG Yu-fen, ARKIN Yasen, et al(练鸿振,康玉芬,艾尔肯·牙森,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2004,24(11): 1391. [5] YU Zi-li, CHENG Guang-lei(余自力, 程光磊). Metal Ion Analysis Techniques(金属离子分析技术). Beijing: Chemical Industry Press(北京:化学工业出版社),2004. [6] Amanda C Gutierrez, Marcelo H Gehlen. Spectrochimica Acta Part A,2002, 58: 85. [7] Cornard J P, Merlin J C. Journal of Inorganic Biochemistry,2002, 92: 21. [8] DING Ming-yu, ZHAO Ji-ping, LI Qing-yang(丁明玉,赵纪萍,李擎阳). Chinese Journal of Analysis Laboratory(分析试验室),2001,20(6): 45. [9] YU Lin, HUANG Chun-xia(余 琳,黄春霞). Journal of Guangdong University of Technology(广东工业大学学报),2001, 18(2): 81. [10] YAO Beng-lin, SHI Xiao-bo(姚本林,时小波). Phys. Tes. and Chem. Anal. Part B(理化检验-化学分册),2002, 38(4): 186. [11] YU Mei-lan, YU Yan-ying, CAO Shu-wen(俞梅兰,余燕影,曹树稳). Food Industry Technology(食品工业科技),2006,27(3): 77. [12] ZENG Ming, LI Shu-wei, DENG Jia-li, et al(曾 铭,李树伟,邓嘉利,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(2): 317. [13] MOU Shi-fen, LIU Ke-na(牟世芬,刘克纳). The Method and Application of Ion Chromatogram(离子色谱方法及应用). Beijing: Chemical Industry Press(北京:化学工业出版社),2000.
