化学研究与应用
化學研究與應用
화학연구여응용
CHEMICAL RESEARCH AND APPLICATION
2013年
7期
964-969
,共6页
张铁莉%刘征原%张辉%孟庆朝
張鐵莉%劉徵原%張輝%孟慶朝
장철리%류정원%장휘%맹경조
3-吲哚乙酸%分子印迹聚合物%分子识别%高效液相色谱%分子光谱
3-吲哚乙痠%分子印跡聚閤物%分子識彆%高效液相色譜%分子光譜
3-신타을산%분자인적취합물%분자식별%고효액상색보%분자광보
indole-3-acetic acid%molecularly imprinted polymer%molecular recognition%high-performance liquid chromatography%molecular spectrometry
以IAA为模板分子,4-乙烯基吡啶(4-Vpy)为功能单体,乙腈为致孔剂,采用本体聚合方法,制备了IAA的印迹聚合物P(4-Vpy),用色谱法评价了其分子识别性能,并且与同样条件下以丙烯酰胺(AA)为功能单体合成的IAA印迹聚合物P(AA)进行了比较。结果表明,乙腈为流动相时,P(4-Vpy)比P(AA)对IAA具有更高的印迹效率,对IAA表现出了更好的分子识别能力。流动相对P(4-Vpy)分子识别能力的影响实验证明,静电作用在其分子识别过程中起重要作用。两种不同用量的乙腈为致孔剂制备所得IAA印迹聚合物P(4-Vpy)和P`(4-Vpy)的色谱测定结果表明,致孔剂的加入量对其印迹效率有显著影响。
以IAA為模闆分子,4-乙烯基吡啶(4-Vpy)為功能單體,乙腈為緻孔劑,採用本體聚閤方法,製備瞭IAA的印跡聚閤物P(4-Vpy),用色譜法評價瞭其分子識彆性能,併且與同樣條件下以丙烯酰胺(AA)為功能單體閤成的IAA印跡聚閤物P(AA)進行瞭比較。結果錶明,乙腈為流動相時,P(4-Vpy)比P(AA)對IAA具有更高的印跡效率,對IAA錶現齣瞭更好的分子識彆能力。流動相對P(4-Vpy)分子識彆能力的影響實驗證明,靜電作用在其分子識彆過程中起重要作用。兩種不同用量的乙腈為緻孔劑製備所得IAA印跡聚閤物P(4-Vpy)和P`(4-Vpy)的色譜測定結果錶明,緻孔劑的加入量對其印跡效率有顯著影響。
이IAA위모판분자,4-을희기필정(4-Vpy)위공능단체,을정위치공제,채용본체취합방법,제비료IAA적인적취합물P(4-Vpy),용색보법평개료기분자식별성능,병차여동양조건하이병희선알(AA)위공능단체합성적IAA인적취합물P(AA)진행료비교。결과표명,을정위류동상시,P(4-Vpy)비P(AA)대IAA구유경고적인적효솔,대IAA표현출료경호적분자식별능력。류동상대P(4-Vpy)분자식별능력적영향실험증명,정전작용재기분자식별과정중기중요작용。량충불동용량적을정위치공제제비소득IAA인적취합물P(4-Vpy)화P`(4-Vpy)적색보측정결과표명,치공제적가입량대기인적효솔유현저영향。
In order to synthesize molecular recognition material with high affinity and specificity for indole -3-acetic acid(IAA)and demonstrate the feasibility of such molecular spectrometric methods as UV and fluorometry for the selection of efficient functional monomer,4-vinylpyridine(4-Vpy)-ethyleneglycol dimethacrylate(EGDMA)-based polymers P(4-Vpy)and P`(4-Vpy)were pre-pared by bulk polymerization technique using IAA as the template molecule and two different amounts of acetonitrile as the porogen , respectively.The molecular recognition performances were evaluated by high-performance liquid chromatography.The results exhibi-ted that both of the imprinted polymers showed the ability to recognize IAA and the amount of porogen used in the imprinting process exerted great influence on the imprinting effect.In addition,the comparison of molecular recognition ability was made be-tween P(4-Vpy)and(P(AA))which was prepared under the same condition as P (4-Vpy)except using acrylamide(AA)as the functional monomer.The results indicated that P (4-Vpy) showed higher molecular imprinting efficiency for IAA than P ( AA).The influence of different mobile phase on the retention of IAA and its structurally related compounds proved that electrostatic interac -tion played an important role in the molecular recognition process of P (4-Vpy).Furthermore,we made a comparative study on the interaction of IAA with 4-Vpy and AA by such spectroscopic techniques as UV and fluorometry.The results demonstrated that the complex of IAA-4-Vpy was more stable than that of IAA-AA,which can give a good explanation for the molecular recognition per-formances of P(4-Vpy)and P(AA).The study revealed that both UV and fluorometry can be utilized as effective means for the se-lection of efficient functional monomer.And the amount of porogen used in the preparation of MIP should be a major factor to be op -timized to obtain MIP with high affinity and selectivity.This paper provides a foundation for the separation and enrichment of bioac-tive IAA.
