Institute of Food Safety and Environment Monitoring, Fuzhou University, Fuzhou, 350108, P.R. China.
Engineering Technology Research Center on Reagent and Instrument for Rapid Detection of Product Quality and Food Safety, Fujian, Fuzhou, 350108, P.R. China.
Analyst. 2021 Sep 13;146(18):5732-5739. doi: 10.1039/d1an00993a.
Developing a functional affinity monolithic column towards in-tube solid-phase microextraction (IT-SPME) for selective sample pretreatment is critical. Herein, a high-performance capillary affinity monolithic column with an ultra-high aptamer coverage density was rapidly fabricated a simple adsorption strategy, in which aptamers with natural sequences were directly immobilized on an ammonium-based strongly cationic matrix. Limitations of the traditional biological or covalent methods such as time-consuming modification reactions, special requirement of active groups ( -NH and -SH) on the aptamer, and low aptamer coverage density levels were avoided. An ultra-high coverage density of 8616 pmol μL was achieved with excellent stability, and the highest aptamer-modification level among all the current methods was reached. Selective recognition and high recovery yields of the model mycotoxin ochratoxin A (OTA) were achieved in 95.9 ± 0.98%-97.9 ± 0.28% ( = 3). In particular, there was little cross-reactivity towards the OTB analogue of only 0.5% even in the case of 250 fold of the analogue OTB, which was not reported in previous affinity monoliths. Upon sample analysis, satisfactory discriminations of trace OTA were obtained at 93.7 ± 1.4%-95.5 ± 2.5% ( = 3) in beer and wheat. A facile and direct method for efficiently fabricating an aptamer-based affinity monolith towards online selective IT-SPME was proposed.
开发用于选择性样品预处理的管内固相微萃取(IT-SPME)的功能亲和整体柱至关重要。本文采用一种简单的吸附策略,快速制备了一种具有超高适配体覆盖率密度的高性能毛细管亲和整体柱,其中天然序列的适配体直接固定在基于铵的强阳离子基质上。避免了传统生物或共价方法的局限性,例如耗时的修饰反应、适配体上活性基团(-NH 和 -SH)的特殊要求以及适配体覆盖率密度水平低。实现了超高的 8616 pmol μL 覆盖率密度,具有出色的稳定性,达到了所有当前方法中的最高适配体修饰水平。在 95.9 ± 0.98%-97.9 ± 0.28%( = 3)的范围内实现了模型真菌毒素 ochratoxin A(OTA)的选择性识别和高回收率。特别是,即使在模拟物 OTB 为 250 倍的情况下,与仅 0.5%的 OTB 类似物的交叉反应性很小,这在以前的亲和整体柱中没有报道过。在样品分析中,在啤酒和小麦中分别获得了 93.7 ± 1.4%-95.5 ± 2.5%( = 3)的痕量 OTA 的令人满意的区分度。提出了一种用于高效制备基于适配体的亲和整体柱以进行在线选择性 IT-SPME 的简便直接方法。
