2019
DOI: 10.3390/app9153006
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Dual Aptamer-Functionalized 3D Plasmonic Metamolecule for Thrombin Sensing

Abstract: DNA nanotechnology offers the possibility to rationally design structures with emergent properties by precisely controlling their geometry and functionality. Here, we demonstrate a DNA-based plasmonic metamolecule that is capable of sensing human thrombin proteins. The chiral reconfigurability of a DNA origami structure carrying two gold nanorods was used to provide optical read-out of thrombin binding through changes in the displayed plasmonic circular dichroism. In our experiments, each arm of the structure … Show more

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Cited by 28 publications
(32 citation statements)
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“…[73] Thegeneral detection concepts introduced above can also be adapted for the detection of proteins and other biomarkers.T his usually requires the introduction of target-specific aptamers into the DN. [74] Detection of the bound analyte can then be achieved using AFM, [70,75] electrochemistry, [76] fluorimetry, [60] and CD spectroscopy, [77,78] and successful target detection was recently demonstrated even in whole blood. [76] Nevertheless,most of these works can be considered proof-ofprinciple studies that employed well-characterized aptamers with ah igh affinity toward some model targets such as thrombin, [75,78] ATP, [60,76] or adenosine.…”
Section: Diagnostic Applicationsmentioning
confidence: 99%
See 1 more Smart Citation
“…[73] Thegeneral detection concepts introduced above can also be adapted for the detection of proteins and other biomarkers.T his usually requires the introduction of target-specific aptamers into the DN. [74] Detection of the bound analyte can then be achieved using AFM, [70,75] electrochemistry, [76] fluorimetry, [60] and CD spectroscopy, [77,78] and successful target detection was recently demonstrated even in whole blood. [76] Nevertheless,most of these works can be considered proof-ofprinciple studies that employed well-characterized aptamers with ah igh affinity toward some model targets such as thrombin, [75,78] ATP, [60,76] or adenosine.…”
Section: Diagnostic Applicationsmentioning
confidence: 99%
“…[74] Detection of the bound analyte can then be achieved using AFM, [70,75] electrochemistry, [76] fluorimetry, [60] and CD spectroscopy, [77,78] and successful target detection was recently demonstrated even in whole blood. [76] Nevertheless,most of these works can be considered proof-ofprinciple studies that employed well-characterized aptamers with ah igh affinity toward some model targets such as thrombin, [75,78] ATP, [60,76] or adenosine. [77] Successful aptamerbased detection of an infection-related target was demonstrated by Godonoga et al,w ho incorporated aptamers against the malaria-protein biomarker PfLDH in 2D DO substrates (Figure 3c).…”
Section: Diagnostic Applicationsmentioning
confidence: 99%
“…These interactions can be translated into optical signals by plasmonic or by fluorescence excitation [50,51]. Optical DNA origami sensors are developing into sensitive, rapid, accurate, flexible, and multi-target sensing tools with a low limit of detection (LOD) [18,19,21,[52][53][54][55]. They are used in biology, environment monitoring, and the food safety industry, and have a great potential for applications in biomedicine to detect and monitor diseases and pathogens [56].…”
Section: Dna Origami-based Structures Used For Biomolecular Sensingmentioning
confidence: 99%
“…However, in terms of sensing and qualitatively detection of targets, dynamic acting plasmonic DNA nanostructures are more promising. Different dynamic designs were proposed, including tetrahedron metamolecule [135], a DNA-guided plasmonic helix [136], or the two-arms metamolecule [19,20,52,137,138]. Nevertheless, to the best of our knowledge, only the two-armed metamolecule was used for sensing (Figure 6).…”
Section: Circular Dichroism-based Sensorsmentioning
confidence: 99%
“…Dies erfordert normalerweise die Einbringung von Target-spezifischen Aptameren in die DN. [74] Die Detektion des gebundenen Analyten kann dann wieder mittels AFM, [70,75] Elektrochemie, [76] Fluorimetrie [60] und CD-Spektroskopie [77,78] erfolgen. Erfolgreiche Target-Detektion wurde kürzlich sogar in Vollblut demonstriert.…”
Section: Angewandte Chemieunclassified