桥连钢筋石墨烯功能化适体传感器用于致病性大肠杆菌 O78:K80:H11 的检测。
Bridged Rebar Graphene functionalized aptasensor for pathogenic E. coli O78:K80:H11 detection.
机构信息
Institute of Nano Science & Technology, Mohali 160062, India.
Institute of Nano Science & Technology, Mohali 160062, India.
出版信息
Biosens Bioelectron. 2017 Dec 15;98:486-493. doi: 10.1016/j.bios.2017.07.004. Epub 2017 Jul 5.
We report a novel fabrication method of functionalised Bridged Rebar Graphene (BRG) onto newly designed nanostructured aptasensor for label free impedimetric sensing of pathogenic bacteria E. coli O78:K80:H11. The chemical facilitated unscrolling of MWCNT and subsequent bridging with terephthalaldehyde (TPA) to form 3D-hierarchical BRG nanoconstruct exhibited synergistic effect by combining enhanced electrical properties and facile chemical functionality for stable bio-interface. The bacteria-DNA interactions were captured on BRG nanostructured electrode by using specific anti-E.coli DNA aptamer (K~ 14nM), screened by new in-situ developed SELEX method using phenylboronic acid on microtitre plate. The developed nanostructured aptasensor demonstrated a low detection limit and sensitivity of ~ 10cfu/mL towards E. coli O78:K80:H11 with a dynamic response range from 10 to 10cfu/mL in water, juice and milk samples.
我们报告了一种新颖的功能化桥接钢筋石墨烯(BRG)的制造方法,该方法应用于新设计的纳米结构适体传感器,用于无标记阻抗传感致病性细菌 E. coli O78:K80:H11。MWCNT 的化学促进解卷,并随后与对苯二甲醛(TPA)桥接,形成 3D 分层 BRG 纳米结构,通过结合增强的电性能和易于化学功能化,实现了稳定的生物界面的协同效应。通过使用特定的抗大肠杆菌 DNA 适体(K14nM)在 BRG 纳米结构电极上捕获细菌-DNA 相互作用,该适体通过在微孔板上使用苯硼酸的新开发的原位 SELEX 方法筛选。开发的纳米结构适体传感器在水、果汁和牛奶样品中对 E. coli O78:K80:H11 的检测限和灵敏度低至10cfu/mL,动态响应范围为 10 至 10cfu/mL。
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