Label-Free Catalytic and Molecular Beacon Containing an Abasic Site for Sensitive Fluorescent Detection of Small Inorganic and Organic Molecules

Panshu Song; Yu Xiang; Hang Xing; Zhaojuan Zhou; Aijun Tong; Yi Lu

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Label-Free Catalytic and Molecular Beacon Containing an Abasic Site for Sensitive Fluorescent Detection of Small Inorganic and Organic Molecules

机译：无标记的催化和分子信标，包含用于无机和有机小分子灵敏荧光检测的无碱基位点。

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In this work, two methods with complementary features, catalytic and molecular beacon (CAMB) and label-free fluorescent sensors using an abasic site, have been combined into new label-free CAMB sensors that possess advantages of each method. The label-free method using a dSpacer-containing molecular beacon makes CAMB more cost-effective and less interfering with the catalytic activity, while CAMB allows the label-free method to use true catalytic turnovers for signal amplifications, resulting in a new label-free CAMB sensor for Pb~(2+) ion, with a detection limit of 3.8 nM while maintaining the same selectivity. Furthermore, by using CAMB to overcome the label-free method's limitation of requiring excess enzyme strands, a new label-free CAMB sensor using aptazyme is also designed to detect adenosine down to 1.4 (mu)M, with excellent selectivity over other nucleosides.

机译：在这项工作中，具有互补功能的两种方法，催化和分子信标（CAMB）以及使用无碱基位点的无标记荧光传感器，已被组合成具有每种方法优点的新型无标记CAMB传感器。使用含dSpacer分子信标的无标记方法使CAMB更具成本效益，并且对催化活性的干扰较小，而CAMB允许无标记方法使用真正的催化转化率进行信号放大，从而获得了新的无标记方法用于Pb〜（2+）离子的CAMB传感器，检测极限为3.8 nM，同时保持相同的选择性。此外，通过使用CAMB克服了无标记方法需要过量酶链的局限性，使用aptazyme的新型无标记CAMB传感器也被设计用于检测低至1.4μM的腺苷，对其他核苷具有出色的选择性。

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《Analytical chemistry》 |2012年第6期|共7页
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Panshu Song; Yu Xiang; Hang Xing; Zhaojuan Zhou; Aijun Tong; Yi Lu;
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1. Label-Free Catalytic and Molecular Beacon Containing an Abasic Site for Sensitive Fluorescent Detection of Small Inorganic and Organic Molecules [J] . Panshu Song, Yu Xiang, Hang Xing, Analytical chemistry . 2012,第6期

机译：无标记的催化和分子信标，包含用于无机和有机小分子灵敏荧光检测的无碱基位点。
2. Label-free fluorescent molecular beacon based on a small fluorescent molecule non-covalently bound to the intentional gap site in the stem moiety [J] . Gao Q., Lin K., Zhang H., Talanta: The International Journal of Pure and Applied Analytical Chemistry . 2010,第2期

机译：基于小荧光分子的无标记荧光分子信标，该分子非共价结合到茎部分的有意间隙位点
3. Sensitive and Label-Free Fluorescent Detection of Transcription Factors Based on DNA-Ag Nanoclusters Molecular Beacons and Exonuclease III-Assisted Signal Amplification [J] . Li Bingzhi, Xu Lei, Chen Yue, Analytical chemistry . 2017,第14期

机译：基于DNA-AG纳米蛋白分子信标和外切核酸酶III辅助信号放大的转录因子的敏感和无标记荧光检测
4. Inorganic Nanoparticles Modified Molecular Beacons as Fluorescent DNA Biosensors [C] . Mengmeng Song, Wenjuan Guo, Zhao Dai, ICAMDM 2013 . 2013

机译：无机纳米颗粒改性分子信标作为荧光DNA生物传感器
5. A molecular modeling exploration of smectite interlayers as adsorption sites for inorganic and organic molecules. [D] . Sutton, Rebecca Ann. 2004

机译：蒙脱石中间层作为无机和有机分子吸附位点的分子模型研究。
6. Label-free Catalytic and Molecular Beacon Containing an Abasic Site for Sensitive Fluorescent Detection of Small Inorganic and Organic Molecules [O] . Panshu Song, Yu Xiang, Hang Xing, -1

机译：无标记的催化和分子信标含无碱基位点的小的无机和有机分子的敏感荧光检测
7. Abasic Site-Containing DNAzyme and Aptamer for Label-Free Fluorescent Detection of Pb2+ and Adenosine with High Sensitivity, Selectivity, and Tunable Dynamic Range [O] . Yu Xiang, Aijun Tong, Yi Lu 2009

机译：含脱脂位点的DNAzyme和适体，用于无标记的PB2 +和腺苷的无标记荧光检测，具有高灵敏度，选择性和可调动态范围

Label-Free Catalytic and Molecular Beacon Containing an Abasic Site for Sensitive Fluorescent Detection of Small Inorganic and Organic Molecules

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