Sensitive Fluorescence Aptasensor Based on Hybridization Chain Reaction with Upconversion Nanoparticles by Triplex DNA Formation for Bisphenol A Detection

AbstractIn this work, an enzyme-free fluorescence resonance energy transfer (FRET) strategy was established for rapid and specific detection of the DNA sequence from Vibrio parahaemolyticus (VP) using hybridization chain reaction (HCR) amplification and triplex DNA. The triplex forming oligonucleotide (TFO) was labelled with carboxyfluorescein (FAM) as fluorescence donor, and hairpin sequence H1 was labelled by tetramethylrhodamine (TAMRA) as fluorescence receptor. In the present target VP DNA, the hairpin structure of molecular beacon (MB) was opened, the free end was released and hybridized with H1-TAMRA, and the HCR reaction was triggered by the alternate supplementation of H1-TAMRA and H2 to produce the notch double helix analogue. After the addition of TFO-FAM, a triplex structure was formed between HCR products (H1-TAMRA/H2) and TFO-FAM. A close contact between the donor and the receptor resulted in FRET. Under the optimal conditions, the fluorescence quenching value was inversely proportional to the concentration of target VP DNA in the range of 0.1–50 nmol L−1, and the detection limit was 35 pmol L−1.

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A new method for the in situ assay of α-glucosidase activity and inhibitor screening through an enzyme substrate-mediated DNA hybridization chain reaction

New Journal of Chemistry ◽

10.1039/c9nj01868a ◽

2019 ◽

Vol 43 (24) ◽

pp. 9458-9465

Author(s):

Xiquan Yue ◽

Lihong Su ◽

Xu Chen ◽

Junfeng Liu ◽

Longpo Zheng ◽

...

Keyword(s):

Small Molecule ◽

Dna Hybridization ◽

New Method ◽

Hybridization Chain Reaction ◽

Chain Reaction ◽

Inhibitor Screening ◽

Glucosidase Activity ◽

Enzyme Substrate ◽

In Situ Assay

The strategy is based on small molecule-mediated hybridization chain reaction.

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A sensitive electrochemiluminescence DNA biosensor based on the signal amplification of ExoIII enzyme-assisted hybridization chain reaction combined with nanoparticle-loaded multiple probes

Microchimica Acta ◽

10.1007/s00604-021-04777-2 ◽

2021 ◽

Vol 188 (4) ◽

Author(s):

Hong Hai ◽

Ciping Chen ◽

Dongli Chen ◽

Peijun Li ◽

Yang Shan ◽

...

Keyword(s):

Signal Amplification ◽

Dna Biosensor ◽

Hybridization Chain Reaction ◽

Chain Reaction

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A Highly Sensitive and Selective Label‐free Electrochemical Biosensor with a Wide Range of Applications for Bisphenol A Detection

Electroanalysis ◽

10.1002/elan.202100049 ◽

2021 ◽

Author(s):

Yingying Yang ◽

Siyao Liu ◽

Penghui Shi ◽

Guohua Zhao

Keyword(s):

Bisphenol A ◽

Electrochemical Biosensor ◽

Label Free ◽

Highly Sensitive ◽

Wide Range ◽

Bisphenol A Detection ◽

Selective Label

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Highly Sensitive Homogeneous Electrochemiluminescence Biosensor for Alkaline Phosphatase Detection Based on Click Chemistry-Triggered Branched Hybridization Chain Reaction

Analytical Chemistry ◽

10.1021/acs.analchem.1c02094 ◽

2021 ◽

Author(s):

Xiaocui Huang ◽

Xiangbing Bian ◽

Lifen Chen ◽

Longhua Guo ◽

Bin Qiu ◽

...

Keyword(s):

Alkaline Phosphatase ◽

Click Chemistry ◽

Hybridization Chain Reaction ◽

Chain Reaction ◽

Highly Sensitive

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Ultrasensitive ratiometric detection of Pb2+ using DNA tetrahedron-mediated hyperbranched hybridization chain reaction

Analytica Chimica Acta ◽

10.1016/j.aca.2020.12.050 ◽

2021 ◽

Vol 1147 ◽

pp. 170-177

Author(s):

Pingping Ji ◽

Guimei Han ◽

Yan Huang ◽

Hongxin Jiang ◽

Qiwen Zhou ◽

...

Keyword(s):

Hybridization Chain Reaction ◽

Chain Reaction ◽

Ratiometric Detection ◽

Dna Tetrahedron

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Spatiotemporally programmable cascade hybridization of hairpin DNA in polymeric nanoframework for precise siRNA delivery

Nature Communications ◽

10.1038/s41467-021-21442-7 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Feng Li ◽

Wenting Yu ◽

Jiaojiao Zhang ◽

Yuhang Dong ◽

Xiaohui Ding ◽

...

Keyword(s):

Steric Effect ◽

Sirna Delivery ◽

Dna Nanotechnology ◽

Hybridization Chain Reaction ◽

Dna Nanostructures ◽

Chain Reaction ◽

Dna Hairpins ◽

In Vivo Experiments ◽

Dna And Rna

AbstractDNA nanostructures have been demonstrated as promising carriers for gene delivery. In the carrier design, spatiotemporally programmable assembly of DNA under nanoconfinement is important but has proven highly challenging due to the complexity–scalability–error of DNA. Herein, a DNA nanotechnology-based strategy via the cascade hybridization chain reaction (HCR) of DNA hairpins in polymeric nanoframework has been developed to achieve spatiotemporally programmable assembly of DNA under nanoconfinement for precise siRNA delivery. The nanoframework is prepared via precipitation polymerization with Acrydite-DNA as cross-linker. The potential energy stored in the loops of DNA hairpins can overcome the steric effect in the nanoframework, which can help initiate cascade HCR of DNA hairpins and achieve efficient siRNA loading. The designer tethering sequence between DNA and RNA guarantees a triphosadenine triggered siRNA release specifically in cellular cytoplasm. Nanoframework provides stability and ease of functionalization, which helps address the complexity–scalability–error of DNA. It is exemplified that the phenylboronate installation on nanoframework enhanced cellular uptake and smoothed the lysosomal escape. Cellular results show that the siRNA loaded nanoframework down-regulated the levels of relevant mRNA and protein. In vivo experiments show significant therapeutic efficacy of using siPLK1 loaded nanoframework to suppress tumor growth.

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