分析化学
分析化學
분석화학
Chinese Journal of Analytical Chemistry
2015年
11期
1777-1784
,共8页
王建%王沁梅%田莉莉%杨晨%于素华%杨春
王建%王沁梅%田莉莉%楊晨%于素華%楊春
왕건%왕심매%전리리%양신%우소화%양춘
冰胶%分子印迹%填充柱%整体柱%分离膜%模板分子%评述
冰膠%分子印跡%填充柱%整體柱%分離膜%模闆分子%評述
빙효%분자인적%전충주%정체주%분리막%모판분자%평술
Cryogel%Molecular imprinting%Packed column%Monolith column%Membrane%Template%Review
冰胶是在低于体系凝固点以下,通过聚合或交联反应制备的疏松的、大孔状的凝胶,其在分析化学领域的应用,主要是将分子印迹技术的构效预知性、特异识别性与冰胶的多孔结构和高通量结合,构成“分子印迹冰胶法冶;分子印迹冰胶法在蛋白质分离纯化方面,对于保持蛋白质的生物活性,有独特的优势。冰胶通常制备成颗粒包埋型分子印迹冰胶填充柱或整体柱,也可制备成分子印迹选择性分离膜;所选的模板成分可以是无机离子、小分子或大分子,也可以是大分子上的某些片段;既可以是单分子(片段、离子),也可以是多种分子(片段、离子)的混和物,即混和模板法;既可以直接是目标物本身,还可以是目标物质的结构类似物、同位素标记物及目标物质的片段,即虚拟模板法;甚至还可直接以复杂样品中的高丰度组分作为模板制备分子印迹冰胶,使高丰度组分被选择性吸附,从而使低丰度成分的信号增强,即待定模板法。
冰膠是在低于體繫凝固點以下,通過聚閤或交聯反應製備的疏鬆的、大孔狀的凝膠,其在分析化學領域的應用,主要是將分子印跡技術的構效預知性、特異識彆性與冰膠的多孔結構和高通量結閤,構成“分子印跡冰膠法冶;分子印跡冰膠法在蛋白質分離純化方麵,對于保持蛋白質的生物活性,有獨特的優勢。冰膠通常製備成顆粒包埋型分子印跡冰膠填充柱或整體柱,也可製備成分子印跡選擇性分離膜;所選的模闆成分可以是無機離子、小分子或大分子,也可以是大分子上的某些片段;既可以是單分子(片段、離子),也可以是多種分子(片段、離子)的混和物,即混和模闆法;既可以直接是目標物本身,還可以是目標物質的結構類似物、同位素標記物及目標物質的片段,即虛擬模闆法;甚至還可直接以複雜樣品中的高豐度組分作為模闆製備分子印跡冰膠,使高豐度組分被選擇性吸附,從而使低豐度成分的信號增彊,即待定模闆法。
빙효시재저우체계응고점이하,통과취합혹교련반응제비적소송적、대공상적응효,기재분석화학영역적응용,주요시장분자인적기술적구효예지성、특이식별성여빙효적다공결구화고통량결합,구성“분자인적빙효법야;분자인적빙효법재단백질분리순화방면,대우보지단백질적생물활성,유독특적우세。빙효통상제비성과립포매형분자인적빙효전충주혹정체주,야가제비성분자인적선택성분리막;소선적모판성분가이시무궤리자、소분자혹대분자,야가이시대분자상적모사편단;기가이시단분자(편단、리자),야가이시다충분자(편단、리자)적혼화물,즉혼화모판법;기가이직접시목표물본신,환가이시목표물질적결구유사물、동위소표기물급목표물질적편단,즉허의모판법;심지환가직접이복잡양품중적고봉도조분작위모판제비분자인적빙효,사고봉도조분피선택성흡부,종이사저봉도성분적신호증강,즉대정모판법。
Cryogel is a kind of elastic, spongy hydrogel prepared via addition polymerization from monomers or cross-linking reaction from a polymer at a temperature lower than the freezing point of the solvent. Cryogel has been principally used in molecular imprinting cryogel based solid phase extraction in the field of analytical chemistry, which combines both the advantages of high selectivity of the molecular imprinting and the porous structure, high throughput of a cryogel. Molecular imprinting cryogel can be used as the stationary phase in a packed column, a monolith column, or the adsorbent in a separation membrane. A variety of molecules can act as template molecules, including small molecules, macromolecules, a certain fragment of a macromolecule, and even an inorganic ion. Both a simple template and a complex template can be used. When employing more than a molecule ( or an ion) as templates simultaneously, the method is termed as Mixed template. While high abundance components of a complex sample act directly as mixed template, we name the method as Pending template. Further, while an analogue, an isotopic label, or a fragment of the target substance acts as a template, the method is defined as Dummy template. However, the research on cryogel is insufficient and the application of the cryogel is narrow hitherto.