4.7 Article

A trifunctional split dumbbell probe coupled with ligation-triggered isothermal rolling circle amplification for label-free and sensitive detection of nicotinamide adenine dinucleotide

期刊

TALANTA
卷 224, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.talanta.2020.121962

关键词

NAD(+); SYBR Green I; Rolling circle amplification; Dumbbell probe; Fluorescent detection

资金

  1. National Natural Science Foundation of China [21735003, 21527811, 21705096]
  2. Award for Team Leader Program of Taishan Scholars of Shandong Province, China

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Developed a label-free and sensitive method for NAD(+) assay using a trifunctional split dumbbell probe and ligation-triggered isothermal rolling circle amplification. The method exhibits high sensitivity with a detection limit of 85.6 fM, good selectivity, and potential applications in biological research and clinical diagnosis related to NAD(+).
The nicotinamide adenine dinucleotide (NAD(+)) is an important small biomolecule that participates in a variety of physiological functions, and it has been regarded as a potential biomarker for disease diagnosis and a promising target for disease treatment. The conventional methods for NAD(+) assay often suffer from complicated procedures, expensive labeling, poor selectivity, and unsatisfactory sensitivity. Herein, we develop a label-free and sensitive method for NAD(+) assay based on the integration of a trifunctional split dumbbell probe with ligation-triggered isothermal rolling circle amplification (RCA). We design a trifunctional split dumbbell probe that can act as a probe for NAD(+) recognition, a template for RCA reaction, and a substrate for SYBR Green I binding. In the presence of target NAD(+), it can serve as a cofactor to active E. coli DNA ligase which subsequently catalyzes the ligation of split dumbbell probe to form a circular template for RCA reaction, generating numerous dumbbell probe amplicons which can be easily and label-free monitored by using SYBR Green I as the fluorescent indicator. Due to the high fidelity of NAD(+)-dependent ligation and high amplification efficiency of RCA amplification, this method exhibits high sensitivity with a detection limit of 85.6 fM and good selectivity with the capability of discriminating target NAD(+) from its analogs. Moreover, this method can be applied for accurate and sensitive detection of NAD(+) in complex biological samples and cancer cells, holding great potential in NAD(+) related biological researches and clinical diagnosis.

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