基于EDC/sulfo-NHS的羧基化SPIO表面抗体耦联

目的:研究羧基化超顺磁性氧化铁纳米颗粒(SPIO)纳米粒子与anti-EMMPRIN单克隆抗体耦联的有效方法,考察不同pH条件下进行耦联反应的效率及anti-EMMPRIN-SPIO的粒径水平。方法:用EDC/sulfo-NHS法将anti-EMMPRIN单克隆抗体耦联到羧基化SPIO纳米粒子表面,用动态光散射法检测所得anti-EMMPRIN-SPIO的粒径,并用Bradford法和SDS-PAGE法分析不同酰胺化pH条件下的耦联效率。结果:通过EDC/sulfo-NHS的作用,anti-EMMPRIN单克隆抗体有效地耦联到羧基化SPIO表面。pH7.8时酰胺化的anti-EMMPRIN-SPIO纳米粒子的粒径最小,为63.15 nm。pH6.8和pH7.3条件下酰胺化所得上清中的抗体含量较低,分别为1.943 2×10-4g/L和3.511 1×10-4g/L,SDS-PAGE凝胶图谱上可明显观察到pH6.8、pH7.3和pH7.8条件下所制备样品的谱带分别位于55 000和25 000。结论:EDC/sulfo-NHS法是anti-EMMPRIN单克隆抗体耦联于羧基化SPIO表面的有效方法。在pH6.8、pH7.3、pH7.8条件下酰胺化耦联效率较高,所制备的anti-EMMPRIN-SPIO粒径较小。pH值对EDC/sulfo-NHS介导的耦联反应的耦联效率及anti-EMMPRIN-SPIO的粒径有较大影响。

基于羧基磁珠EDC、sulfo-NHS两步法偶联HBV-PreS1单克隆抗体制备免疫磁珠

为提高免疫磁珠工艺的稳定性和工艺可控性,可通过优化羧基磁珠EDC、sulfo-NHS两步法偶联HBV-PreS1单克隆抗体工艺中磁珠活化时间及抗体偶联pH条件。方法:采用全柱成像毛细管等电聚焦电泳技术检验HBV-PreS1单克隆抗体的等电点情况。活化后磁珠偶联氨基化生物素,与HRP标记亲和素酶,反应信号值与活化效率呈正比,检验活化效率。采用双抗体两步夹心法检测前S1抗原阳性低中高样本,检测信号值与免疫磁珠偶联的抗体量呈正比,检验抗体偶联效率及偶联工艺重复性。结果:HBV-PreS1单克隆抗体等电点PI为7.4,EDC、sulfo-NHS在pH 6.0的MES缓冲液中,30min时,信号值最高。HBV-PreS1单克隆抗体偶联磁珠时,在pH 6.0的MES缓冲液中,检验信号值最高。羧基磁珠EDC、sulfo-NHS两步法偶联HBV-PreS1单克隆抗体最佳活化时间为30min,最佳偶联缓冲液为pH 6.0的MES缓冲液,此时偶联效果最佳,工艺重复性最好。

基于戊二醛的氨基微球上DNA编码和抗体蛋白固定

用戊二醛和EDC/sulfo-NHS分别活化表面修饰了氨基和羧基的微球,在2种微球上分别固定相等摩尔浓度的氨基标记的发卡DNA和未经修饰的人TNF α捕获抗体,结果表明戊二醛的交联效果优于EDC/sulfo-NHS。从而选择戊二醛为交联剂将Cy3标记的发卡DNA和未经修饰的藻红蛋白(RPE)分别固定到微米球表面并进行了荧光观察,再通过调整蛋白和DNA的比例将FAM标记的发卡DNA和RPE同时固定到微米球上并观察荧光,为实现用DNA序列编码的微米球上多种生物标志物酶联免疫吸附检测奠定了基础。用RPE为荧光标记物采用双抗体夹心法在微球上进行荧光免疫反应,为商品化诊断试剂的研究提供一定的参考。

A preparation strategy for protein-oriented immobilized silica magnetic beads with Spy chemistry for ligand fishing

Due to the complexity of bioactive ingredients in biological samples,the screening of target proteins is a complex process.Herein,a feasible strategy for directing protein immobilization on silica magnetic beads for ligand fishing based on SpyTag/SpyCatcher(ST/SC)-mediated anchoring is presented.Carboxyl functional groups on the surface of silica-coated magnetic beads(SMBs)were coupled with SC using the 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride/N-hydroxysulfosuccinimide method,named SC-SMBs.The green fluorescent protein(GFP),as the capturing protein model,was ST-labeled and anchored at a specific orientation onto the surface of SC-SMBs directly from relevant cell lysates via ST/SC self-ligation.The characteristics of the SC-SMBs were studied via electron microscopy,energy dispersive spectroscopy,and Fourier transform infrared spectroscopy.The spontaneity and site-specificity of this unique reaction were confirmed via electrophoresis and fluorescence analyses.Although the alkaline stability of ST-GFP-ligated SC-SMBs was not ideal,the formed isopeptide bond was unbreakable under acidic conditions(0.05 M glycine-HCl buffer,pH 1e6)for 2 h,under 20%ethanol solution within 7 days,and at most temperatures.We,therefore,present a simple and universal strategy for the preparation of diverse protein-functionalized SMBs for ligand fishing,prompting its usage on drug screening and target finding.