Synergistically enhancing hydrogen bonding, hydrophobic interaction and electrostatic association of collagen fiber to flavonoid aglycones for their effective separation by polyethyleneimine modification

Qixian Zhang, Rui Wang, Bi Shi
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Abstract

Compared with flavonoid glycosides, flavonoid aglycones are difficult to be separated since they have less hydroxyls. Collagen fiber (CF), a natural polymer, was once used as packing material for separation of kaempferol and quercetin (the typical flavonoid aglycones) after crosslinking by glutaraldehyde mainly based on hydrogen bonding and hydrophobic interaction in column length-diameter ratio of 60:1. Hydrophobic modification by grafting alkyl chains was then employed to enhance the hydrophobic interaction between CF and flavonoid aglycones, which can improve the separation efficiency and decrease column length-diameter ratio to 19:1. In order to further improve the adsorption capacity and separation efficiency, the strategy of simultaneously grafting hydrophobic alkyl chains (–CH2–CH2–) and alkali groups (–NH2) was adopted in this work to enhance hydrophobic interaction, hydrogen bonding and electrostatic association to flavonoid aglycones at the same time through grafting polyethyleneimine (PEI). PEI modified CF (PEI-CF) maintained the fiber structure of CF, and had higher adsorption extent and rate to flavonoid aglycones through the enhanced synergetic effect of hydrophobic interaction, hydrogen bonding and electrostatic association. As a result, PEI-CF presented a satisfactory column separation efficiency for kaempferol and quercetin even the length-diameter ratio of column was decreased to 11:1, which was much better than previously developed glutaradehyde-crosslinked collagen fiber and isobutyl-grafted collagen fiber, as well as commonly used polyamide and Sephadex LH-20.

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通过聚乙烯亚胺改性协同增强胶原纤维与黄酮苷的氢键、疏水作用和静电结合,从而有效分离黄酮苷
与类黄酮苷相比,类黄酮苷因其羟基较少而难以分离。胶原纤维(CF)是一种天然聚合物,曾以戊二醛为填料,主要基于氢键和疏水作用,柱长径比为60:1,经交联分离山奈酚和槲皮素(典型的类黄酮苷元)。接枝烷基链疏水改性增强了CF与类黄酮苷元的疏水相互作用,提高了分离效率,使柱长径比降至19:1。为了进一步提高吸附能力和分离效率,本研究采用疏水烷基链(- ch2 - ch2 -)和碱基(- nh2)同时接枝的策略,通过接枝聚乙烯亚胺(PEI)同时增强与类黄酮苷元的疏水相互作用、氢键和静电缔合。PEI改性CF (PEI-CF)保持CF的纤维结构,通过增强疏水相互作用、氢键和静电缔合的协同作用,对类黄酮苷元具有更高的吸附程度和吸附速率。结果表明,PEI-CF对山奈酚和槲皮素的柱分离效率较好,即使柱长径比降至11:1,也远优于之前开发的戊二醛交联胶原纤维和异丁基接枝胶原纤维,以及常用的聚酰胺和Sephadex LH-20。图形抽象
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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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