A Method for Selecting Structure-switching Aptamers Applied to a Colorimetric Gold Nanoparticle Assay

Martin, Jennifer A.; Smith, Joshua E.; Warren, Mercedes; Chávez, Jorge L.; Hagen, Joshua A.; Kelley‐Loughnane, Nancy

doi:10.3791/52545

Cited by 14 publications

(13 citation statements)

References 39 publications

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“…The aim of this study was to adopt a previously described Capture-SELEX protocol in order to identify a ssDNA aptamer specific for atrazine that would have a target-induced conformational change. 15 , 16 The ssDNA oligonucleotide library utilized in this study has been successfully screened for multiple aptamers bound to small molecules and protein targets. 7 , 17 − 22 …”

Section: Introductionmentioning

confidence: 99%

In Vitro Selection and Characterization of a Single-Stranded DNA Aptamer Against the Herbicide Atrazine

et al. 2018

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Atrazine is an herbicide that is widely used in crop production at about 70 million pounds per year in the United States. Its widespread use has led to contamination of groundwater and other aquatic systems. It has resulted in many serious environmental and human health issues. This study focuses on the identification and characterization of a single-stranded DNA (ssDNA) aptamer that binds to atrazine. In this study, a variation of the systematic evolution of ligands by exponential enrichment (SELEX) process was used to identify an aptamer, which binds to atrazine with high affinity and specificity. This SELEX focused on inducing the aptamer’s ability to change conformation upon binding to atrazine, and stringent negative target selections. After 12 rounds of in vitro selection, the ssDNA aptamer candidate R12.45 was chosen and truncated to obtain a 46-base sequence. The binding affinity, specificity, and structural characteristics of this truncated candidate was investigated by using isothermal titration calorimetry, circular dichroism (CD) analysis, SYBR Green I (SG) fluorescence displacement assays, and gold nanoparticles (AuNPs) colorimetric assays. The truncated R12.45 candidate aptamer bound to atrazine with high affinity (Kd = 3.7 nM) and displayed low cross-binding activities on structurally related herbicides. In addition, CD analysis data indicated a target induced structural stabilization. Finally, SG assays and AuNPs assays showed nonconventional binding activities between the truncated R12.45 aptamer candidate and atrazine, which warrants future studies.

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Section: Introductionmentioning

confidence: 99%

In Vitro Selection and Characterization of a Single-Stranded DNA Aptamer Against the Herbicide Atrazine

et al. 2018

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“…This is due to the lack of mass-transfer (lack of size difference between bound and unbound DNA) upon binding of the small molecule. Although it is worth noting that structure switching protocols (Reverse SELEX) have overcome this problem through the docking of the DNA library onto a solid phase [27]. Upon binding of the small molecule target, to any sequences within a library, the aptamer undergoes a change in conformation and elutes off the solid phase.…”

Section: The Development Of Aptamers and Mipsmentioning

confidence: 99%

The Use of Aptamers and Molecularly Imprinted Polymers in Biosensors for Environmental Monitoring: A Tale of Two Receptors

et al. 2020

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Effective molecular recognition remains a major challenge in the development of robust receptors for biosensing applications. Over the last three decades, aptamers and molecularly imprinted polymers (MIPs) have emerged as the receptors of choice for use in biosensors as viable alternatives to natural antibodies, due to their superior stability, comparable binding performance, and lower costs. Although both of these technologies have been developed in parallel, they both suffer from their own unique problems. In this review, we will compare and contrast both types of receptor, with a focus on the area of environmental monitoring. Firstly, we will discuss the strategies and challenges involved in their development. We will also discuss the challenges that are involved in interfacing them with the biosensors. We will then compare and contrast their performance with a focus on their use in the detection of environmental contaminants, namely, antibiotics, pesticides, heavy metals, and pathogens detection. Finally, we will discuss the future direction of these two technologies.

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“…The design of a docking sequence for capture SELEX, namely the length and nucleotide composition, should provide both strong immobilization before target binding and sufficient dissociation afterwards [ 57 ]. As a rule, it is a heterosequence of 12–18 deoxynucleotides (see, e.g., Table 1 ) placed within the random region (as in [ 57 , 78 , 79 ]), or extending one of the primer-binding sites (as described in [ 80 , 81 , 82 , 83 ]). Currently, the capture SELEX strategy is generally employed for DNA selection, but also suits RNA libraries.…”

Section: General Issues Of Initial Library Designmentioning

confidence: 99%

Key Aspects of Nucleic Acid Library Design for in Vitro Selection

Vorobyeva

Davydova

Vorobjev

et al. 2018

IJMS

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Nucleic acid aptamers capable of selectively recognizing their target molecules have nowadays been established as powerful and tunable tools for biospecific applications, be it therapeutics, drug delivery systems or biosensors. It is now generally acknowledged that in vitro selection enables one to generate aptamers to almost any target of interest. However, the success of selection and the affinity of the resulting aptamers depend to a large extent on the nature and design of an initial random nucleic acid library. In this review, we summarize and discuss the most important features of the design of nucleic acid libraries for in vitro selection such as the nature of the library (DNA, RNA or modified nucleotides), the length of a randomized region and the presence of fixed sequences. We also compare and contrast different randomization strategies and consider computer methods of library design and some other aspects.

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A Method for Selecting Structure-switching Aptamers Applied to a Colorimetric Gold Nanoparticle Assay

Cited by 14 publications

References 39 publications

In Vitro Selection and Characterization of a Single-Stranded DNA Aptamer Against the Herbicide Atrazine

In Vitro Selection and Characterization of a Single-Stranded DNA Aptamer Against the Herbicide Atrazine

The Use of Aptamers and Molecularly Imprinted Polymers in Biosensors for Environmental Monitoring: A Tale of Two Receptors

Key Aspects of Nucleic Acid Library Design for in Vitro Selection

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