生物传感器
检出限
环介导等温扩增
线性范围
材料科学
多重位移放大
丙烯酰胺
量子点
DNA
纳米技术
滚动圆复制
化学
聚合物
色谱法
单体
DNA复制
生物化学
基因
聚合酶链反应
DNA提取
复合材料
作者
Wen-Hsin Chang,Yi‐Fang Lee,Yen-Wenn Liu,Itamar Willner,Wei‐Ching Liao
出处
期刊:Nanoscale
[Royal Society of Chemistry]
日期:2021-01-01
卷期号:13 (39): 16799-16808
被引量:38
摘要
A method for the synthesis of DNA-based acrylamide hydrogel microcapsules loaded with quantum dots as a readout signal is introduced. The shell of DNA-acrylamide hydrogel microcapsules is encoded with microRNA-responsive functionalities, being capable of the detection of cancer-associated microRNA. The microRNA-141 (miR-141), a potential biomarker in prostate cancer, was employed as a model target in the microcapsular biosensor. The sensing principle of the microcapsular biosensor is based on the competitive sequence displacement of target miR-141 with the bridging DNA in the microcapsule's shell, leading to the unlocking of DNA-acrylamide hydrogel microcapsules and the release of the readout signal provided by fluorescent quantum dots. The readout signal is intensified as the concentration of miR-141 increases. While miR-141 was directly measured by DNA-acrylamide hydrogel microcapsules, the linear range for the detection of miR-141 is 2.5 to 50 μM and the limit of detection is 1.69 μM. To improve the sensitivity of the microcapsular biosensor for clinical needs, the isothermal strand displacement polymerization/nicking amplification machinery (SDP/NA) process was coupled to the DNA-acrylamide hydrogel microcapsule sensor for the microRNA detection. The linear range for the detection of miR-141 is improved to the range of 102 to 105 pM and the limit of detection is 44.9 pM. Compared to direct microcapsular biosensing, the detection limit for miR-141 by microcapsules coupled with strand-displacement amplification is enhanced by four orders of magnitude.
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