TechnologyScientists develop novel electrochemical/fluorescent dual-mode biosensor

Scientists develop novel electrochemical/fluorescent dual-mode biosensor


- Advertisment -spot_imgspot_imgspot_imgspot_img
Scientists Develop Novel Electrochemical/fluorescent Dual-mode Biosensor
Standard free energy (ΔG) of reaction processes and PAGE analysis. Credit: SIBET

Researchers at the Suzhou Institute of Biomedical Engineering and Technology (SIBET) of the Chinese Academy of Sciences have recently proposed a hand-in-hand structured DNA assembly strategy and developed an electrochemical/fluorescent dual-mode biosensor for circulating tumor DNA based on methylene blue and red-emissive carbon nanodots.

The new sensor, combines the characteristics of electrochemical and fluorescent sensors, whose signal sources and are usually quite different, according to the researchers.

And is a qualitative or based on the correlation between target-caused change of electrical signal and the concentration or other physical parameters. A fluorescence sensor is a method of qualitative or quantitative detection by transmitting a specific combination of target and recognition element to the fluorescence element, causing the change of fluorescence intensity or emission wavelength.

“Integrating the two technologies for synchronous detection in one unique system can not only effectively improve the detection accuracy, but also reduce the influence of background signals, instrument fluctuations and other factors on the obtained signals,” said Miao Peng, leading researcher of the study and also a scientist from SIBEBT.

Specifically, Probe A in this sensor is immobilized at the electrode surface via the thiol group labeled at its 5′ terminal. In the presence of target, complete double strands are formed between target and its binding domain in Probe A.

Meanwhile, the stem region is opened and single-stranded region is released which is responsible to open the second hairpin of Probe B. It is previously conjugated with red emissive carbon nanodot through the 3′ terminal NH2. Subsequently, the hairpin structure of Probe C is opened with the released single-stranded region of Probe B.

In addition, Probe C is able to displace the target sequence to form a complete three-way junction structure. The target is thus recycled and assists the formation of multiple three-way junctions. Since abundant methylene blue molecules at the 3′ terminal of Probe C are located near the electrode interface, significant electrochemical response could be recorded to reveal the target.

The released single-stranded swing arm formed by the 3′ terminal of Probe A and the 5′ terminal of Probe B on the three-way junction acts as the DNAzyme coupling 3′ terminal of Probe B on the adjacent three-way junction as the substrate. Hand-in-hand structured DNA monolayer is thus fabricated.

With the existence of Mg2+, the substrate sequence can be cleaved and the conjugated carbon nanodots are released into the solution. “By measuring the increased fluorescence emission, original target level can also be evaluated by fluorescence technique,” said Miao.

Theoretical calculation and gel electrophoresis imaging confirmed the feasibility of the reaction. The synthesized carbon nanodots have strong anti-interference and can maintain high fluorescence stability in the physiological environment.

Through a series of condition optimization and quantitative tests, Miao and his team established the linear calibration curves of electrochemical/fluorescence intensities and target concentration, which can achieve a wide linear range of six orders of magnitude.

At the same time, the content of the can also be easily distinguished by imaging. The dual-mode sensor developed in this work is novel with and strong scalability, which can provide a powerful tool for nucleic acid analysis and clinical diagnosis.

The sensor is expected to be widely used in basic research, environmental detection, clinical trials and other fields.

The results of the study were published in the latest issue of the Chemical Engineering Journal.

More information:
Guangxing Liu et al, Hand-in-hand structured DNA monolayer for dual-mode analysis of circulating tumor DNA, Chemical Engineering Journal (2022). DOI: 10.1016/j.cej.2022.138069

Scientists develop novel electrochemical/fluorescent dual-mode biosensor (2022, July 22)
retrieved 24 July 2022

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.

Read More

Latest news

NASA satellite captures Sahara Desert dust plume over the Atlantic Ocean

Home News Science & Astronomy A dust plume from the Sahara Desert swirls over the Atlantic Ocean in this photo taken by...

How to watch NASA’s Artemis 1 moon mission briefings and megarocket rollout next week

Home News Spaceflight NASA's Artemis 1 moon mission is poised to launch a new era of U.S. lunar exploration this month. You...

New rules needed to fix growing space debris problem, FCC says

Home News Spaceflight A SpaceX Falcon 9 rocket launches with the rising sun to carry 53 Starlink internet satellites to orbit from...

Watch live: VP Kamala Harris discusses commercial space progress

Home News Spaceflight Changes are coming for the commercial space sector.Commercial space will get a "new rules framework" in the near future,...
- Advertisement -spot_imgspot_imgspot_imgspot_img

‘Bouncing’ universe theory still can’t explain what came first

Home News Science & Astronomy A bouncing model of the universe could do away with an initial singularity, but come with its...

How the Apple Watch Series 8 might measure temperature

Apple will unveil the Apple Watch Series 8 during the iPhone 14 event in a few weeks. The new...

Must read

5 ways inverters can power more productive EV battery and e-axle testing

Get Free Newsletters Sign up and get the best...

Turning Chats Into Signatures

With the right online tools, your dealership can get...

On the Service Drive: Examining Technology’s Role in Service Retention

Vehicle scarcity continues to drive high prices and low...

Tesla’s breakthrough 4680 battery rollout slower than predicted

Tesla’s breakthrough 4680 battery rollout slower than predicted Two years...
- Advertisement -spot_imgspot_imgspot_img

You might also likeRELATED
Recommended to you