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·1802· 精细化工 FINE CHEMICALS 第 36 卷
量 的 影响大小为 Ce 2(SO 4) 3>CuSO 4>MnSO 4>NiSO 4> Luteolin and luteolin-Cr(Ⅲ) complex: Antioxidation and reaction
ZnSO 4 >CdSO 4 ,Ce 2 (SO 4 ) 3 的添加使吸附容量达到 mechanism with hydrogen peroxide radical [J]. Chinese Journal of
Inorganic Chemistry (无机化学学报), 2015, 31(11): 2229-2235.
–
Q Zn(Ac)2 的 1.46 倍;当金属盐的酸根离子均为 NO 3 时, [6] Yan Qingfeng (闫庆峰), Yan Gaofeng (闫高峰), Li Yueping (李跃
金属离子对吸附容量影响大小为 Bi(NO 3 ) 3 > 萍), et al. Effects of digitoflavone on isolated rat heart function and
cell apoptosis after hypothermic preservation [J]. China Tropical
Mg(NO 3 ) 2 >Cu(NO 3 ) 2 >Zn(NO 3 ) 2 >Ba(NO 3 ) 2 ,添加
Medicine (中国热带医学), 2012, 12(4): 393-395.
Bi(NO 3 ) 3 后的吸附容量为 Q Zn(Ac)2 的 1.34 倍。由此可 [7] Wei Min (魏敏), Wang Jun (王君), Song Xu-yan (宋旭艳), et al.
3+
2+
知,金属离子种类对吸附容量有影响,Pb 、Ce 、 Experimental study of luteolin and baicalin mixture in cigarette
smoke on respiratory system [J]. Chinese Journal of Modern Applied
2+
2+
2+
Bi 、Cu 、Mg 等金属离子的存在可明显提高吸附 Pharmacy (中国现代应用药学), 2011, 28(3): 197-201.
容量。 [8] Wang Qiuyue (王秋月), Gao Weizhen (高卫真). Neuroprotection of
2.5.2 酸根离子对木犀草素配位印迹聚合物吸附容 luteolin against Aβ 25-35 induced neural damage [J]. Chinese Journal
of Experimental Traditional Medicine Formulae(中国实验方剂学杂
量的影响 志), 2015, 21(9): 170-174.
重点考察含不同酸根离子的锌盐和铜盐对吸附 [9] Wang Jishuang (王继双), He Yan (何焱), Zhang Wenjing (张文静),
et al. Advances in studies on pharmacological effects of luteolin[J].
容量的。发现铜盐和锌盐的影响大小均为乙酸盐>
Chinese Bulletin of Life Sciences (生命科学), 2013, 25(6): 560-565.
–
硝酸盐>硫酸盐,说明 Ac 的存在会促进吸附。 [10] Zeng H, Wang Y, Liu X, et al. Preparation of molecular imprinted
综合考虑金属离子和酸根离子种类对吸附容量 polymers using bi-functional monomer and bi-crosslinker for
solid-phase extraction of rutin[J]. Talanta, 2012, 93(2): 172-181.
的影响,在用 LUT-CIPs 提取分离木犀草素时,可加
[11] Feng Y, Liu Q, Ye L, et al. Ordered macroporous quercetin-
入 Zn(Ac) 2 、Cu(Ac) 2 、Mg(NO 3 ) 2 等金属盐促进吸附, molecularly imprinted polymers: Preparation, characterization, and
原材料潜在的铅也对吸附有益,可在提取分离后再 separation performance[J]. Journal of Separation Science, 2017,
40(4): 971-978.
进行除铅及其他金属盐的处理。 [12] Li G, Wang W, Wang Q, et al. Deep eutectic solvents modified
molecular imprinted polymers for optimized purification of
3 结论 chlorogenic acid from honeysuckle[J]. Journal of Chromatographic
Science, 2015, 54(2): 271.
2+
在水溶液中,结合 Zn 的配位作用,以丙烯酰 [13] Piacham T, Isarankuranaayudhya C, Prachayasittikul V. Quercetin-
imprinted polymer for anthocyanin extraction from mangosteen
胺为功能单体,N,N-亚甲基双丙烯酰胺为交联剂, pericarp. [J]. Materials Science & Engineering C, 2015, 51: 127-131.
偶氮二异丁腈为引发剂,可制备出对木犀草素有高 [14] Liu D, Zhao K, Qi M, et al. Preparation of protein molecular-
选择性的配位印迹聚合物,该吸附过程符合准二级 imprinted polysiloxane membrane using calcium alginate film as
matrix and its application for cell culture[J]. Polymers, 2018, 10(2):
动力学方程与 Freundlich 等温吸附模型,同时吸附 170.
液中加入金属盐能提高配位印迹聚合物对木犀草素 [15] Dong Y, He L, Zhang X, et al. Salicylic acid complex imprinted
polymer membranes: Preparation and separation characteristics[J].
的吸附容量。该配位印迹聚合物可用于强极性溶剂
Materials Transactions, 2016, 57(10): 1747-1752.
体系中木犀草素的识别。 [16] Zheng Yongjun (郑永军). Extraction, separation and pharmacological
activity assay of garlic’s functional components via molecular
参考文献: imprinting technique[D]. Qingdao: Chinese Marine University (中国
海洋大学), 2012.
[1] Wang Houmiao (王后苗), Lei Yong (雷永), Yan Liying (晏立英), et
al. Research progress on luteolin in peanut and other palnts[J]. [17] Ding Guifeng (丁桂峰). Study on preparation and applicaition of
Chinsese Journal of Oil Crop Sciences(中国油料作物学报), 2015, luteolin-Cu( Ⅱ ) complexes molecularly imprinted polyer[D].
37(3): 383-393 Xiangtan: Xiangtan University(湘潭大学), 2012.
[2] Wang Yuehua (王月华), Li Aifeng (李爱峰), Fu Chongluo (付崇罗), [18] Cheng Hongda (成洪达), Xing Zhanfen (邢占芬), Zhang Pingping
2+
et al. Study of luteolin on anti-tumor effect[J]. Lishenzheng Medicine (张平平). Preparation of rutin-Cu complex imprinted polymer and
and Materia Medica Research ( 时 珍国医国药 ), 2016, 27(7): its adsorption character[J]. Chinese Traditional and Herbal Drugs (中
1587-1590. 草药), 2015, 46(24): 3666-3669.
[3] Shi Xiaoxin (史晓欣), Quan Wenjie (全文婕), Tang Qian (汤芊). [19] Yue Wei (乐薇), Ji Ruidong (吉瑞冬), Wu Shijun (吴士筠).
Research progress of molecular mechanisms of luteolin against Preparation and application of luteolin-zn(Ⅱ)complex molecularly
breast cancer[J]. Anti-Tumor Pharmacy (肿瘤药学), 2018, 8(2): 135- imprinted polymers[J]. Fine Chemicals (精细化工), 2018, 35(7):
138. 1156-1162.
[4] Wang Qian (王倩), Xie Mingjie (谢明杰). Antibacterial activity and [20] Guo L R, He M Q, Chen Y Q, et al. Study on the non-covalent
mechanism of Luteolin on Staphylococcus aureus[J]. Acta interaction of apigenin molecularly imprinted polymers by
Microbiological Sinica (微生物学报), 2010, 50(9): 1180-1184 spectrometry[J]. Chinese Journal of Reactive Polymers, 2008,
[5] Gao Liguo (高立国), Song Xiaoli (宋小利), Cao Wei (曹炜), et al. 17(1/2): 66-73.
