Rationally designed molecular beacons for bioanalytical and biomedical applications

Zheng, Jing; Yang, Ronghua; Shi, Muling; Wu, Cuichen; Fang, Xiaohong; Li, Yinhui; Li, Jishan; Tan, Weihong

doi:10.1039/c5cs00020c

Cited by 311 publications

(177 citation statements)

References 159 publications

(217 reference statements)

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“…21 Anyway one should take in mind that dye-dye and dye-nucleic acids interactions influence on thermal stability of convoluted probes. We demonstrated here that thermal quenching is less pronounced for Cy5 than for sCy5.…”

Section: Discussionmentioning

confidence: 99%

Cy5/BHQ dye–quencher pairs in fluorogenic qPCR probes: effects of charge and hydrophobicity

et al. 2016

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For the first time we used CuAAC click reaction for the synthesis of cyanine labeled qPCR probes. We performed the comparison of dyes and quenchers (Cy5 vs disulfo-Cy5 and BHQ2 vs BHQ3) in several TaqMan probes with different stability of the secondary structure. Based on the studies of thermal quenching of dyes, increase of fluorescence during probe melting and in the course of qPCR, we suggest that disulfo-Cy5-BHQ2 pair is a preferable one for molecular beacons due to the highest increase of fluorescence during melting. As Cy5-BHQ3 pair gave better Cq and maximal relative increase of fluorescence in qPCR in comparison to others we recommend this pair for Taqman style probe design.

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Section: Discussionmentioning

confidence: 99%

Cy5/BHQ dye–quencher pairs in fluorogenic qPCR probes: effects of charge and hydrophobicity

et al. 2016

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“…Aptamers are selected by a technique known as “systematic evolution of ligands by exponential enrichment” (SELEX), and they exhibit high affinity towards a wide range of targets, such as small organic molecules, metal ions, proteins and cells (Ellington and Szostak 1990; Fang and Tan 2010; Tuerk and Gold 1990). Therefore, the introduction of aptamers can significantly expand the application scope of nucleic acid-based biosensors (Chen et al 2011; Chen et al 2015a; Shukoor et al 2012; Tan et al 2013; Yasun et al 2012; Zheng et al 2015). Metallo-base pairs also provide a feasible recognition strategy for biosensing.…”

Section: Introductionmentioning

confidence: 99%

Nucleic acid-functionalized transition metal nanosheets for biosensing applications

Liu

et al. 2017

Biosensors and Bioelectronics

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In clinical diagnostics, as well as food and environmental safety practices, biosensors are powerful tools for monitoring biological or biochemical processes. Two-dimensional (2D) transition metal nanomaterials, including transition metal chalcogenides (TMCs) and transition metal oxides (TMOs), are receiving growing interest for their use in biosensing applications based on such unique properties as high surface area and fluorescence quenching abilities. Meanwhile, nucleic acid probes based on Watson-Crick base-pairing rules are also being widely applied in biosensing based on their excellent recognition capability. In particular, the emergence of functional nucleic acids in the 1980s, especially aptamers, has substantially extended the recognition capability of nucleic acids to various targets, ranging from small organic molecules and metal ions to proteins and cells. Based on π-π stacking interaction between transition metal nanosheets and nucleic acids, biosensing systems can be easily assembled. Therefore, the combination of 2D transition metal nanomaterials and nucleic acids brings intriguing opportunities in bioanalysis and biomedicine. In this review, we summarize recent advances of nucleic acid-functionalized transition metal nanosheets in biosensing applications. The structure and properties of 2D transition metal nanomaterials are first discussed, emphasizing the interaction between transition metal nanosheets and nucleic acids. Then, the applications of nucleic acid-functionalized transition metal nanosheet-based biosensors are discussed in the context of different signal transducing mechanisms, including optical and electrochemical approaches. Finally, we provide our perspectives on the current challenges and opportunities in this promising field.

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“…A variety of biosensing strategies 13, amplification strategies 14, nanomaterials 15 and molecular labels 16 are involved. However, in most cases, the reactions in solution still partially rely on interface (either solid surface or nanomaterials surface) 17-18.…”

Section: Introductionmentioning

confidence: 99%

From Interface to Solution: Integrating Immunoassay with Netlike Rolling Circle Amplification for Ultrasensitive Detection of Tumor Biomarker

Feng

Mao

et al. 2017

Theranostics

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Both the 3D solution and the 2D interface play important roles in bioanalysis. For the former, reactions can be carried out adequately; while for the latter, interfering substance can be eliminated simply through wash. It is a challenge to integrate the advantages of solution-based assays and the interface-based assays. Here, we report an immuno-NRCA (netlike rolling circle amplification) strategy, which integrates immunoassay with NRCA for the ultrasensitive detection of tumor biomarker, by taking the assay of a tumour marker as an example. In this strategy, immunoreactions occur on interface, while the target-induced signal amplification can be completed totally in solution. As a result, this system has the merits of both solution- and interface-based assays. The whole procedure of this novel strategy is similar to the conventional ELISA, inheriting the usability. But in comparison with ELISA, the performance is greatly improved. The detection limit can be lowered to 5.5 fg/L, making it possible to detect the target tumour marker in one drop of blood. Also, in comparison with established immuno-PCR method, which integrates immunoassay with the commonly used nucleic acid amplification approach, this system has no requirement for thermal cycler owing to the isothermal amplification, and it has the ability to retain the immunoreactivities. So, the new immunoassay method proposed in this study may have more feasible applications in the future.

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Rationally designed molecular beacons for bioanalytical and biomedical applications

Cited by 311 publications

References 159 publications

Cy5/BHQ dye–quencher pairs in fluorogenic qPCR probes: effects of charge and hydrophobicity

Cy5/BHQ dye–quencher pairs in fluorogenic qPCR probes: effects of charge and hydrophobicity

Nucleic acid-functionalized transition metal nanosheets for biosensing applications

From Interface to Solution: Integrating Immunoassay with Netlike Rolling Circle Amplification for Ultrasensitive Detection of Tumor Biomarker

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