Maria Minunni scite author profile

The DNA thrombin aptamer has been extensively investigated, and the coupling of this aptamer to different transduction principles has demonstrated the wide applicability of aptamers as bioreceptors in bioanalytical assays. The goal of this work was to design an aptamer-based sandwich assay with electrochemical detection for thrombin analysis in complex matrixes, using a simple target capturing step by aptamer-functionalized magnetic beads. The conditions for the aptamer immobilization and for the protein binding have been first optimized by surface plasmon resonance, and then transferred to the electrochemical-based assay performed onto screen-printed electrodes. The assay was then applied to the analysis of thrombin in buffer, spiked serum, and plasma and high sensitivity and specificity were found. Moreover, thrombin was generated in situ in plasma by the conversion of its precursor prothrombin, and the formation of thrombin was followed at different times. The concentrations detected by the electrochemical assay were in agreement with a simulation software that mimics the formation of thrombin over time (thrombogram). The proposed work demonstrates that the high specificity of aptamers together with the use of magnetic beads are the key features for aptamer-based analysis in complex matrixes, opening the possibility of a real application to diagnostics or medical investigation.

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Surface plasmon resonance imaging for affinity-based biosensors

Scarano

Mascini

Turner

et al. 2010

Biosensors and Bioelectronics

392

172

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SPR imaging (SPRi) is at the forefront of optical label-free and real-time detection. It offers the possibility of monitoring hundreds of biological interactions simultaneously and from the binding profiles, allows the estimation of the kinetic parameters of the interactions between the immobilised probes and the ligands in solution. We review the current state of development of SPRi technology and its application including commercially available SPRi instruments. Attention is also given to surface chemistries for biochip functionalisation and suitable approaches to improve sensitivity.

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Aptamers-based assays for diagnostics, environmental and food analysis

Tombelli¹,

Minunni²,

Mascini³

2007

Biomolecular Engineering

264

159

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Aptamer-based biosensors for the detection of HIV-1 Tat protein

Tombelli

Minunni

Luzi

et al. 2005

Bioelectrochemistry

246

153

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Maria Minunni

Analytical applications of aptamers

Aptamer-Based Detection of Plasma Proteins by an Electrochemical Assay Coupled to Magnetic Beads

Surface plasmon resonance imaging for affinity-based biosensors

Aptamers-based assays for diagnostics, environmental and food analysis

Aptamer-based biosensors for the detection of HIV-1 Tat protein

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