分析化学
分析化學
분석화학
CHINESE JOURNAL OF ANALYTICAL CHEMISTRY
2014年
5期
623-628
,共6页
柳悦%代国帅%谢利%黄杉生
柳悅%代國帥%謝利%黃杉生
류열%대국수%사리%황삼생
纳米通道膜%适体%β-雌二醇%分离
納米通道膜%適體%β-雌二醇%分離
납미통도막%괄체%β-자이순%분리
Nanochannel membrane%Aptamer%β-Estradiol%Separation
建立了修饰金纳米通道分离β-雌二醇和雌酮的新方法。以聚碳酸酯膜为模板,基于模板合成-化学沉积原理,在其表面及膜孔内壁均匀沉积纳米金层,得到一定孔径的金纳米通道,利用扫描电镜( SEM)、透射电镜( TEM)等对其进行研究表征,制备得到均一、可靠的金纳米通道膜。在制备好的金纳米通道表面,通过分子自组装的方式将β-雌二醇核酸适体修饰在金纳米通道内,得到对β-雌二醇具有选择性的纳米通道。β-雌二醇较容易通过修饰后的纳米通道,而雌酮不易通过。考察了β-雌二醇和雌酮在β-雌二醇核酸适体修饰的金纳米通道的迁移特性,以此实现二者的分离。利用50 nm聚碳酸酯膜沉积金3 h,得到孔径约20 nm金纳米通道膜,在0.5 mmol/L Tris-HCl缓冲溶液(pH 7.4)中,进样池浓度为1.76×10-5mol/L的β-雌二醇和雌酮,分离度达到1.76。
建立瞭脩飾金納米通道分離β-雌二醇和雌酮的新方法。以聚碳痠酯膜為模闆,基于模闆閤成-化學沉積原理,在其錶麵及膜孔內壁均勻沉積納米金層,得到一定孔徑的金納米通道,利用掃描電鏡( SEM)、透射電鏡( TEM)等對其進行研究錶徵,製備得到均一、可靠的金納米通道膜。在製備好的金納米通道錶麵,通過分子自組裝的方式將β-雌二醇覈痠適體脩飾在金納米通道內,得到對β-雌二醇具有選擇性的納米通道。β-雌二醇較容易通過脩飾後的納米通道,而雌酮不易通過。攷察瞭β-雌二醇和雌酮在β-雌二醇覈痠適體脩飾的金納米通道的遷移特性,以此實現二者的分離。利用50 nm聚碳痠酯膜沉積金3 h,得到孔徑約20 nm金納米通道膜,在0.5 mmol/L Tris-HCl緩遲溶液(pH 7.4)中,進樣池濃度為1.76×10-5mol/L的β-雌二醇和雌酮,分離度達到1.76。
건립료수식금납미통도분리β-자이순화자동적신방법。이취탄산지막위모판,기우모판합성-화학침적원리,재기표면급막공내벽균균침적납미금층,득도일정공경적금납미통도,이용소묘전경( SEM)、투사전경( TEM)등대기진행연구표정,제비득도균일、가고적금납미통도막。재제비호적금납미통도표면,통과분자자조장적방식장β-자이순핵산괄체수식재금납미통도내,득도대β-자이순구유선택성적납미통도。β-자이순교용역통과수식후적납미통도,이자동불역통과。고찰료β-자이순화자동재β-자이순핵산괄체수식적금납미통도적천이특성,이차실현이자적분리。이용50 nm취탄산지막침적금3 h,득도공경약20 nm금납미통도막,재0.5 mmol/L Tris-HCl완충용액(pH 7.4)중,진양지농도위1.76×10-5mol/L적β-자이순화자동,분리도체도1.76。
A new method for separation of β-estradiol and estrone by the modified gold nanochannels membrane was described. The gold nanochannels were prepared by chemical deposition of gold on polycarbonate templates membrane. The morphology of the nanochannels, characterized by field emission scanning electron microscope ( FESEM ) and transmission electron microscope ( TEM ) , showed that the Au nanochannel wall was smooth and uniform. After being modified by aptamer of β-estradiol using a molecular self-assembly method, the nanochannels membranes facilitated the transportation of β-estradiol through the membranes while the estrone was not easy to permeate. The transport behaviour of β-estradiol and estrone through the gold nanochannels modified with aptamer of β-estradiol was investigated. The results showed that the β-estradiol aptamer modified nanochannels membrane can be used to separateβ-estradiol and estrone based on this unique selective nanochannel membrane. A separation efficiency of 1. 76 can be obtained when the nanochannels with pore size of 20 nm in the medium of pH from 6 . 00 to 8 . 00 .
