Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Recent Advances in DNA Nanotechnology-Enabled Biosensors for Virus Detection
View through CrossRef
Virus-related infectious diseases are serious threats to humans, which makes virus detection of great importance. Traditional virus-detection methods usually suffer from low sensitivity and specificity, are time-consuming, have a high cost, etc. Recently, DNA biosensors based on DNA nanotechnology have shown great potential in virus detection. DNA nanotechnology, specifically DNA tiles and DNA aptamers, has achieved atomic precision in nanostructure construction. Exploiting the programmable nature of DNA nanostructures, researchers have developed DNA nanobiosensors that outperform traditional virus-detection methods. This paper reviews the history of DNA tiles and DNA aptamers, and it briefly describes the Baltimore classification of virology. Moreover, the advance of virus detection by using DNA nanobiosensors is discussed in detail and compared with traditional virus-detection methods. Finally, challenges faced by DNA nanobiosensors in virus detection are summarized, and a perspective on the future development of DNA nanobiosensors in virus detection is also provided.
Title: Recent Advances in DNA Nanotechnology-Enabled Biosensors for Virus Detection
Description:
Virus-related infectious diseases are serious threats to humans, which makes virus detection of great importance.
Traditional virus-detection methods usually suffer from low sensitivity and specificity, are time-consuming, have a high cost, etc.
Recently, DNA biosensors based on DNA nanotechnology have shown great potential in virus detection.
DNA nanotechnology, specifically DNA tiles and DNA aptamers, has achieved atomic precision in nanostructure construction.
Exploiting the programmable nature of DNA nanostructures, researchers have developed DNA nanobiosensors that outperform traditional virus-detection methods.
This paper reviews the history of DNA tiles and DNA aptamers, and it briefly describes the Baltimore classification of virology.
Moreover, the advance of virus detection by using DNA nanobiosensors is discussed in detail and compared with traditional virus-detection methods.
Finally, challenges faced by DNA nanobiosensors in virus detection are summarized, and a perspective on the future development of DNA nanobiosensors in virus detection is also provided.
Related Results
EPD Electronic Pathogen Detection v1
EPD Electronic Pathogen Detection v1
Electronic pathogen detection (EPD) is a non - invasive, rapid, affordable, point- of- care test, for Covid 19 resulting from infection with SARS-CoV-2 virus. EPD scanning techno...
Genome wide hypomethylation and youth-associated DNA gap reduction promoting DNA damage and senescence-associated pathogenesis
Genome wide hypomethylation and youth-associated DNA gap reduction promoting DNA damage and senescence-associated pathogenesis
Abstract
Background: Age-associated epigenetic alteration is the underlying cause of DNA damage in aging cells. Two types of youth-associated DNA-protection epigenetic mark...
Echinococcus granulosus in Environmental Samples: A Cross-Sectional Molecular Study
Echinococcus granulosus in Environmental Samples: A Cross-Sectional Molecular Study
Abstract
Introduction
Echinococcosis, caused by tapeworms of the Echinococcus genus, remains a significant zoonotic disease globally. The disease is particularly prevalent in areas...
Capítulo 6 – HIV-AIDS, como tratar, o que fazer e o que não fazer durante o tratamento?
Capítulo 6 – HIV-AIDS, como tratar, o que fazer e o que não fazer durante o tratamento?
A infecção pelo vírus do HIV pode ocorrer de diversas maneiras, tendo sua principal forma a via sexual por meio do sexo desprotegido. O vírus do HIV fica em um período de incubação...
The Application of DNA Origami in Biosensing
The Application of DNA Origami in Biosensing
Biosensing plays a vital role in medical diagnostics, environmental monitoring, and food safety, enabling highly sensitive and specific detection of diverse biological and chemical...
Applications of Field Effect Transistor Biosensors Integrated in Microfluidic Chips
Applications of Field Effect Transistor Biosensors Integrated in Microfluidic Chips
With the progress of micro-nano technology, the integration of microfluidic technology with a field effect transistor (FET) sensor has made portable biosensing devices of miniaturi...
Structure and Functions of the Kirsten Murine Sarcoma Virus Genome: Molecular Cloning of Biologically Active Kirsten Murine Sarcoma Virus DNA
Structure and Functions of the Kirsten Murine Sarcoma Virus Genome: Molecular Cloning of Biologically Active Kirsten Murine Sarcoma Virus DNA
The unintegrated closed circular form of viral DNA prepared from NIH3T3 cells infected with Kirsten murine sarcoma virus was cloned into bacterial plasmid pBR322. The closed circul...
CRISPR-Based Biosensors for Medical Diagnosis: Readout from Detector-Dependence Detection Toward Naked Eye Detection
CRISPR-Based Biosensors for Medical Diagnosis: Readout from Detector-Dependence Detection Toward Naked Eye Detection
The detection of biomarkers (such as DNA, RNA, and protein) plays a vital role in medical diagnosis. The CRISPR-based biosensors utilize the CRISPR/Cas system for biometric recogni...