DNA Labeling Generates a Unique Amplification Probe for Sensitive Photoelectrochemical Immunoassay of HIV-1 p24 Antigen

Zhao, Weiwei; Han, Yijie; Zhu, Yuan‐Cheng; Zhang, Nan; Xu, Jing‐Juan; Chen, Hong‐Yuan

doi:10.1021/acs.analchem.5b01360

Cited by 70 publications

(27 citation statements)

References 29 publications

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“…Enzyme-free detection is extremely desirable 1 - 3 yet still challenging to the engineering of robust methods which would renovate immunoassay and improve current diagnostic techniques. Although extensive research has been devoted including the use of electrochemistry 4 - 6 , fluorescence 7 , 8 and chemiluminescence 9 - 11 , the requirement of additional expensive equipment discourages their broad application especially in resource limited regions.…”

Section: Introductionmentioning

confidence: 99%

Metal-linked Immunosorbent Assay (MeLISA): the Enzyme-Free Alternative to ELISA for Biomarker Detection in Serum

Liu

Jin

et al. 2016

Theranostics

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Determination of disease biomarkers in clinical samples is of crucial significance for disease monitoring and public health. The dominating format is enzyme-linked immunosorbent assay (ELISA), which subtly exploits both the antigen-antibody reaction and biocatalytic property of enzymes. Although enzymes play an important role in this platform, they generally suffer from inferior stability and less tolerant of temperature, pH condition compared with general chemical product. Here, we demonstrate a metal-linked immunosorbent assay (MeLISA) based on a robust signal amplification mechanism that faithfully replaces the essential element of the enzyme. As an enzyme-free alternative to ELISA, this methodology works by the detection of α-fetoprotein (AFP), prostatic specific antigen (PSA) and C-reactive protein (CRP) at concentrations of 0.1 ng mL-1, 0.1 ng mL-1 and 1 ng mL-1 respectively. It exhibits approximately two magnitudes higher sensitivity and is 4 times faster for chromogenic reaction than ELISA. The detection of AFP and PSA was further confirmed by over a hundred serum samples from hepatocellular carcinoma (HCC) and prostate cancer patients respectively.

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Section: Introductionmentioning

confidence: 99%

Metal-linked Immunosorbent Assay (MeLISA): the Enzyme-Free Alternative to ELISA for Biomarker Detection in Serum

Liu

Jin

et al. 2016

Theranostics

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“…TiO 2 nanotubes (TiO 2 NTs) have a special tubular structure which could reduce the obstruction of electron transfer, facilitate electron transfer, suppress electron‐hole recombination, and effectively enhance its photoelectric properties. Therefore, it has been widely used in electrochemical detection , photocatalytic detection , electrochemical luminescence detection , and photoelectrochemical detection systems . However, the wider band gap of TiO 2 (3.2 eV) leads to lower efficiency in solar energy utilization since only ultraviolet light (<387 nm) can be absorbed by TiO 2 .…”

Section: Introductionmentioning

confidence: 99%

A Sensitive Photoelectrochemical Aptasensor for miRNA‐21 Based on the Sensitization Effect of CdSe Quantum Dots

et al. 2018

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A novel photoelectrochemical aptasensor for the sensitive detection of miRNA‐21 was designed based on the sensitization effect of CdSe quantum dots as a signal amplification strategy. The TiO2NTs/RGO/AuNPs electrode was prepared by the electrodeposition of graphene oxide and Au nanoparticles on TiO2 nanotubes with electrochemical reduction. The electrode was prepared as the matrix of the electrochemical aptasensor. The hairpin DNA strands decorated with CdSe quantum dots were immobilized on the surface of the electrode by Au−S bonds. Because of the card‐type structure of the hairpin DNA (HP‐DNA), the CdSe quantum dots were close to the base electrode, which would lead to the sensitization effect and cause the increase of the photocurrent intensity. When a certain concentration of the miRNA‐21 was added, miRNA‐21 hybridized with the complementary part of the HP‐DNA. At the same time, the hairpin structure of HP‐DNA was broken into a straight chain structure, so the CdSe quantum dots on the end of the DNA would move away from the electrode surface, the sensitization effect would be weakened, and the photocurrent intensity would be decreased. The designed photoelectrochemical aptasensor exhibited a low detection limit of 5.6 fM and a wide linear range from 20 fM to 0.2 nM, and it also showed good specificity, reproducibility and stability. The signal amplification strategy was also expected to provide a significant photoelectrochemical biosensor platform for the sensitive detection of biomolecules.

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“…ECL biosensors have been widely applied in immunoassays [3], DNA analysis [4], and clinical diagnosis [5]. Nowadays, QD-based ECL assays have attracted significant attention in basic research and clinical applications due to its size controlled luminescence, high quantum yield, and stable light emission [6,7]. With increasing numbers of reports on QDs ECL [8,9], QDs are especially appealing as potential ECL resonance energy transfer (RET) donors and acceptors, since their optical properties can be tailored to meet specific wavelength requirements by simply changing their chemical composition or size [10].…”

Section: Introductionmentioning

confidence: 99%

Quantum dots bilayers/Au@Ag-based electrochemiluminescence resonance energy transfer for detection of thrombin by autocatalytic multiple amplification strategy

Jie

Wang

2017

Sensors and Actuators B: Chemical

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DNA Labeling Generates a Unique Amplification Probe for Sensitive Photoelectrochemical Immunoassay of HIV-1 p24 Antigen

Cited by 70 publications

References 29 publications

Metal-linked Immunosorbent Assay (MeLISA): the Enzyme-Free Alternative to ELISA for Biomarker Detection in Serum

Metal-linked Immunosorbent Assay (MeLISA): the Enzyme-Free Alternative to ELISA for Biomarker Detection in Serum

A Sensitive Photoelectrochemical Aptasensor for miRNA‐21 Based on the Sensitization Effect of CdSe Quantum Dots

Quantum dots bilayers/Au@Ag-based electrochemiluminescence resonance energy transfer for detection of thrombin by autocatalytic multiple amplification strategy

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