Detection of immunoglobulin E using an aptamer based dot-blot assay

Wang, YiXian; Ye, ZunZhong

doi:10.1007/s11434-013-5702-9

Cited by 9 publications

(5 citation statements)

References 27 publications

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“…In comparison with previously reported methods, our approach avoids constructing complicated aptasensors and shows better or comparable sensitivity toward IgE molecules. [28][29][30][31] Of note, however, compared with the sticky-end pairing-based colorimetric aptasensor reported by Wu et al, 19 our approach is less sensitive. This existing assay, however, requires slow, multi-step preparation processes of nanoparticle-aptamer conjugates that take 2 days, thus our approach is more convenient, faster, and cheaper.…”

Section: Sensitivity Of Igementioning

confidence: 65%

Label-free colorimetric aptasensor for IgE using DNA pseudoknot probe

Chang

Chen

Zhao

et al. 2014

Analyst

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The development of simple and low-cost approaches to the detection of immunoglobulin E (IgE) would provide a method for the early diagnosis and prevention of atopic diseases. The current methods of detection are generally tedious, multi-step processes and are limited by the high cost of the labeled proteins. We describe here a label-free structure-switching colorimetric method for the simple measurement of IgE using DNA pseudoknot probes and gold nanoparticles. In the absence of a target the IgE aptamer probe adopts a pseudoknot conformation that dissociates a capture probe from the unmodified gold nanoparticles. However, when IgE binds to the aptamer probe, the pseudoknot is resolved, leading to a favorable hybridization between the 3' terminal loop of the aptamer probe and the capture probe; this induces the aggregation of the gold nanoparticles. As a result, the colorimetric IgE sensor using this structure-switching mechanism is sensitive, specific and convenient, and the assay works even when challenged with complicated biological matrixes such as vaginal fluids. The proposed method is expected to be of great clinical value for IgE detection and could be used, after appropriate design, for sensing applications of other structured aptamers.

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Section: Sensitivity Of Igementioning

confidence: 65%

Label-free colorimetric aptasensor for IgE using DNA pseudoknot probe

Chang

Chen

Zhao

et al. 2014

Analyst

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“…5B). The limit of detection was experimentally found to be 8.0 Â 10 À14 M, which is lower than 37 pM for a label-free electrochemical aptasensor [19], 211 fM for a fluorescent method [20], 4.4 pM for an electrokinetic concentration-enhanced aptamer affinity probe electrophoresis assay [21], 2.89 nM for an aptamer based dot-blot assay [25]. …”

Section: Analytical Performancementioning

confidence: 90%

Petal-like CdS nanospheres-based electrochemiluminescence aptasensor for detection of IgE with gold nanoparticles amplification

Cao

Wang

Liu

2015

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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“…A fully microchip integrated version of the electrophoretic selection process by combining the bead-based aptamer selection (bead-based PCR amplification) with gel electrophoresis was improved [23], resulted in aptamers reaching a K D value of 18 nM in only 3 selection rounds [24]. [97]. However, the conventional HRP label can be replaced by DNAzymes exhibiting peroxidase activity that can be conveniently linked to the aptamer sequence, resulting in a bifunctional probe, e.g., IgE aptamer and peroxidase-active hemin aptamer.…”

Section: Ige Detection With Aptamersmentioning

confidence: 99%

“…Relevant examples indicate that such assays can be accomplished in ca. 40 min with LODs in the lower nanomolar range [97]. However, the conventional HRP label can be replaced by DNAzymes exhibiting peroxidase activity that can be conveniently linked to the aptamer sequence, resulting in a bifunctional probe, e.g., IgE aptamer and peroxidase-active hemin aptamer.…”

Section: Ige Detection With Aptamersmentioning

confidence: 99%

Aptamers against Immunoglobulins: Design, Selection and Bioanalytical Applications

Bognár

Gyurcsányi

2020

IJMS

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Nucleic acid aptamers show clear promise as diagnostic reagents, as highly specific strands were reported against a large variety of biomarkers. They have appealing benefits in terms of reproducible generation by chemical synthesis, controlled modification with labels and functionalities providing versatile means for detection and oriented immobilization, as along with high biochemical and temperature resistance. Aptamers against immunoglobulin targets—IgA, IgM, IgG and IgE—have a clear niche for diagnostic applications, therefore numerous aptamers have been selected and used in combination with a variety of detection techniques. The aim of this review is to overview and evaluate aptamers selected for the recognition of antibodies, in terms of their design, analytical properties and diagnostic applications. Aptamer candidates showed convincing performance among others to identify stress and upper respiratory tract infection through SIgA detection, for cancer cell recognition using membrane bound IgM, to detect and treat hemolytic transfusion reactions, autoimmune diseases with IgG and detection of IgE for allergy diseases. However, in general, their use still lags significantly behind what their claimed benefits and the plethora of application opportunities would forecast.

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Detection of immunoglobulin E using an aptamer based dot-blot assay

Cited by 9 publications

References 27 publications

Label-free colorimetric aptasensor for IgE using DNA pseudoknot probe

Label-free colorimetric aptasensor for IgE using DNA pseudoknot probe

Petal-like CdS nanospheres-based electrochemiluminescence aptasensor for detection of IgE with gold nanoparticles amplification

Aptamers against Immunoglobulins: Design, Selection and Bioanalytical Applications

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