光谱学与光谱分析 |
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Molecular Recognitions of Purines by Hematoporphyrin and Metalloporphyrin Receptors |
ZHANG Yong, LEI Ya-chun, PAN Jing-hao, LIU Dian-sheng |
Department of Chemistry, Shanxi University, Taiyuan 030006, China |
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Abstract The present paper studies the interactions of purines and porphyrin by fluorescence, UV,and NMR spectra. The optimal conditions (acidity and ion intensity) of the interaction of purines and hematoporphyrin and metalloporphyrin were investigated in detail. The result shows that hematoporphyrin and metalloporphyrin exhibit significant recognition of purines. The binding constants of metalloporphyrin: KNi(Ⅱ)-HP>KCo(Ⅱ)-HP>KZn(Ⅱ)-HP>KCu(Ⅱ)-HP in pH 11.2 Kolthoff buffer solution. The mechanism of recognition was further discussed. Recognition is achieved by cooperative functions of three recognition groups (metalloporphyrin) and two recognition groups (hematoporphyrin).
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Received: 2004-02-18
Accepted: 2004-07-06
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Corresponding Authors:
ZHANG Yong
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Cite this article: |
ZHANG Yong,LEI Ya-chun,PAN Jing-hao, et al. Molecular Recognitions of Purines by Hematoporphyrin and Metalloporphyrin Receptors [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2004, 24(10): 1241-1243.
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URL: |
http://www.gpxygpfx.com/EN/Y2004/V24/I10/1241 |
[1] HUANG Xiao-lan, ZHANG Han-ying(黄晓兰,张汉英). Chinese J. of Chromatography(色谱),2000, 18(6): 500. [2] PENG Xiao-xia, GUO Man-dong(彭小霞,郭满栋). Journal of Analytical Science(分析科学学报), 1998, 14(1): 49. [3] Han G Y, Yang P. Inorg. Chem., 2003, 94(1-2):50. [4] Toma H E, Araki K. Cordin. Chem. Revi., 2000, 196(1):307. [5] Sergio G, Alesssandro A, Emanuele B et al. Iorganica Chimica Acta, 1999, 286(2):121. [6] LIU Jie,XU Dong-hui, MEI Wen-jie et al(刘 杰,许东晖,梅文杰等). Chemical Journal of Chinese Universities(高等学校化学学报), 2001, 22(9): 1446. [7] CHEN Hui, WEI Dong-bin, AN Tai-cheng et al(陈 慧, 魏东斌, 安太成等). Northwest Normal University of China(西北师范大学学报), 1998, 34(3): 91. [8] YAN Cheng-nong,SHANGGUAN Yun-feng,TONG Jin-qiang, LIU Yi, PANG Dai-wen, PAN Zu-ting, QU Song-sheng(颜承浓, 上官云凤, 童金强,刘 义,庞代文,潘祖亭,屈松生). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2003, 23(3): 543. [9] FENG Xi-zeng,JIN Rui-xiang(冯喜增,金瑞祥). Chemical Journal of Chinese University(高等学校化学学报),1996, 17(6): 866. [10] Tadashi Mizutani, Kenji Wada, Susumu Kitagawa. J. Org. Chem.,2000, 65:6097. [11] Yasuhisa Kuroda, Yusuke kato, Takuji Higashioji et al. J. Am. Chem. Soc.,1995, 117:10950.
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