Electrochemical determination of microRNAs based on isothermal strand-displacement polymerase reaction coupled with multienzyme functionalized magnetic micro-carriers

MicroRNAs (miRNAs) show great potential for disease diagnostics due to their specific molecular profiles. Detection of miRNAs remains challenging and often requires sophisticated platforms. Here we report a multienzyme-functionalized magnetic microcarriers-assisted isothermal strand-displacement pol...

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Veröffentlicht in:	Biosensors & bioelectronics 2016-06, Vol.80, p.344-351
Hauptverfasser:	Ma, Wen, Situ, Bo, Lv, Weifeng, Li, Bo, Yin, Xiaomao, Vadgama, Pankaj, Zheng, Lei, Wang, Wen
Format:	Artikel
Sprache:	eng
Schlagworte:	Biosensing Techniques - methods Biosensors Biotin - chemistry Breast - pathology Breast Neoplasms - diagnosis Breast Neoplasms - genetics Carbon Diagnostic systems Electrochemical sensing assay Electrochemical Techniques - methods Electrodes Female Humans Limit of Detection Magnetic microcarriers Magnets - chemistry Metal matrix composites MicroRNA MicroRNAs - analysis Nanoparticles - chemistry Nanoparticles - ultrastructure Nucleic Acid Amplification Techniques - methods Polymerase Recognition Ribonucleic acids Sensitivity and Specificity Signal amplification Streptavidin - chemistry
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creator	Ma, Wen Situ, Bo Lv, Weifeng Li, Bo Yin, Xiaomao Vadgama, Pankaj Zheng, Lei Wang, Wen
description	MicroRNAs (miRNAs) show great potential for disease diagnostics due to their specific molecular profiles. Detection of miRNAs remains challenging and often requires sophisticated platforms. Here we report a multienzyme-functionalized magnetic microcarriers-assisted isothermal strand-displacement polymerase reaction (ISDPR) for quantitative detection of miRNAs. Magnetic micro-carriers (MMCs) were functionalized with molecular beacons to enable miRNAs recognition and magnetic separation. The target miRNAs triggered a phi29-mediated ISDPR, which can produce biotin-modified sequences on the MMCs. Streptavidin–alkaline phosphatase was then conjugated to the MMC surface through biotin–streptavidin interactions. In the presence of 2-phospho-L-ascorbic acid, miRNAs were quantitatively determined on a screen-printed carbon electrode from the anodic current of the enzymatic product. We show that this method enables detection of miRNAs as low as 9fM and allows the discrimination of one base mismatched sequence. The proposed method was also successfully applied to analyze miRNAs in clinical tumor samples. This paper reports a new strategy for miRNAs analysis with high sensitivity, simplicity, and low cost. It would be particularly useful for rapid point-of-care testing of miRNAs in clinical laboratory. •We developed a novel electrochemical sensing method for miRNA detection.•A dual amplification strategy introducing functionalized nanoparticles into ISDPR.•This method would be particularly useful for POCT in clinical laboratory.
doi_str_mv	10.1016/j.bios.2015.12.064
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Detection of miRNAs remains challenging and often requires sophisticated platforms. Here we report a multienzyme-functionalized magnetic microcarriers-assisted isothermal strand-displacement polymerase reaction (ISDPR) for quantitative detection of miRNAs. Magnetic micro-carriers (MMCs) were functionalized with molecular beacons to enable miRNAs recognition and magnetic separation. The target miRNAs triggered a phi29-mediated ISDPR, which can produce biotin-modified sequences on the MMCs. Streptavidin–alkaline phosphatase was then conjugated to the MMC surface through biotin–streptavidin interactions. In the presence of 2-phospho-L-ascorbic acid, miRNAs were quantitatively determined on a screen-printed carbon electrode from the anodic current of the enzymatic product. We show that this method enables detection of miRNAs as low as 9fM and allows the discrimination of one base mismatched sequence. The proposed method was also successfully applied to analyze miRNAs in clinical tumor samples. This paper reports a new strategy for miRNAs analysis with high sensitivity, simplicity, and low cost. 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Detection of miRNAs remains challenging and often requires sophisticated platforms. Here we report a multienzyme-functionalized magnetic microcarriers-assisted isothermal strand-displacement polymerase reaction (ISDPR) for quantitative detection of miRNAs. Magnetic micro-carriers (MMCs) were functionalized with molecular beacons to enable miRNAs recognition and magnetic separation. The target miRNAs triggered a phi29-mediated ISDPR, which can produce biotin-modified sequences on the MMCs. Streptavidin–alkaline phosphatase was then conjugated to the MMC surface through biotin–streptavidin interactions. In the presence of 2-phospho-L-ascorbic acid, miRNAs were quantitatively determined on a screen-printed carbon electrode from the anodic current of the enzymatic product. We show that this method enables detection of miRNAs as low as 9fM and allows the discrimination of one base mismatched sequence. 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The proposed method was also successfully applied to analyze miRNAs in clinical tumor samples. This paper reports a new strategy for miRNAs analysis with high sensitivity, simplicity, and low cost. It would be particularly useful for rapid point-of-care testing of miRNAs in clinical laboratory. •We developed a novel electrochemical sensing method for miRNA detection.•A dual amplification strategy introducing functionalized nanoparticles into ISDPR.•This method would be particularly useful for POCT in clinical laboratory.</abstract><cop>England</cop><pub>Elsevier B.V</pub><pmid>26855164</pmid><doi>10.1016/j.bios.2015.12.064</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Biosensing Techniques - methods Biosensors Biotin - chemistry Breast - pathology Breast Neoplasms - diagnosis Breast Neoplasms - genetics Carbon Diagnostic systems Electrochemical sensing assay Electrochemical Techniques - methods Electrodes Female Humans Limit of Detection Magnetic microcarriers Magnets - chemistry Metal matrix composites MicroRNA MicroRNAs - analysis Nanoparticles - chemistry Nanoparticles - ultrastructure Nucleic Acid Amplification Techniques - methods Polymerase Recognition Ribonucleic acids Sensitivity and Specificity Signal amplification Streptavidin - chemistry
title	Electrochemical determination of microRNAs based on isothermal strand-displacement polymerase reaction coupled with multienzyme functionalized magnetic micro-carriers
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