Thioflavin T as a noncovalent reporter for a label-free, non-enzymatic, catalytic DNA amplifier

Tulsi R. Damase; Md Mamunul Islam; Mason Shipley; Peter B. Allen

doi:10.1088/2050-6120/aba357

Thioflavin T as a noncovalent reporter for a label-free, non-enzymatic, catalytic DNA amplifier

Tulsi R. Damase, Md Mamunul Islam, Mason Shipley, Peter B. Allen

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

DNA-DNA reactions can be monitored with a label-free fluorogenic reaction. Guanosine-rich, single-stranded DNA oligonucleotides bind to thioflavin-T (ThT) and enhance the fluorescence of the dye. We discovered a novel DNA sequence that produces fluorescence upon binding to ThT. We denote this oligonucleotide ThTSignal. We use ThTSignal as a label-free reporter for the activity of several designed DNA-DNA reactions (DNA circuits). The DNA circuits conditionally produce the ThTSignal oligonucleotide by association or by liberating the ThTSignal oligonucleotide from double-stranded DNA. This strategy offers label-free, cost-effective, fluorogenic detection of the molecular beacon reaction, split reporter reaction, one-step strand displacement reaction, and the entropy-driven amplifier reaction (a catalytic DNA circuit).

Original language	English (US)
Article number	045001
Journal	Methods and Applications in Fluorescence
Volume	8
Issue number	4
DOIs	https://doi.org/10.1088/2050-6120/aba357
State	Published - Oct 2020

Keywords

G-rich sequence
Thioflavin-T
entropy-driven amplifier reaction
label-freeDNAcircuits

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Instrumentation
Materials Science(all)
Spectroscopy

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title = "Thioflavin T as a noncovalent reporter for a label-free, non-enzymatic, catalytic DNA amplifier",

abstract = "DNA-DNA reactions can be monitored with a label-free fluorogenic reaction. Guanosine-rich, single-stranded DNA oligonucleotides bind to thioflavin-T (ThT) and enhance the fluorescence of the dye. We discovered a novel DNA sequence that produces fluorescence upon binding to ThT. We denote this oligonucleotide ThTSignal. We use ThTSignal as a label-free reporter for the activity of several designed DNA-DNA reactions (DNA circuits). The DNA circuits conditionally produce the ThTSignal oligonucleotide by association or by liberating the ThTSignal oligonucleotide from double-stranded DNA. This strategy offers label-free, cost-effective, fluorogenic detection of the molecular beacon reaction, split reporter reaction, one-step strand displacement reaction, and the entropy-driven amplifier reaction (a catalytic DNA circuit).",

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doi = "10.1088/2050-6120/aba357",

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T1 - Thioflavin T as a noncovalent reporter for a label-free, non-enzymatic, catalytic DNA amplifier

AU - Damase, Tulsi R.

AU - Islam, Md Mamunul

AU - Shipley, Mason

AU - Allen, Peter B.

PY - 2020/10

Y1 - 2020/10

N2 - DNA-DNA reactions can be monitored with a label-free fluorogenic reaction. Guanosine-rich, single-stranded DNA oligonucleotides bind to thioflavin-T (ThT) and enhance the fluorescence of the dye. We discovered a novel DNA sequence that produces fluorescence upon binding to ThT. We denote this oligonucleotide ThTSignal. We use ThTSignal as a label-free reporter for the activity of several designed DNA-DNA reactions (DNA circuits). The DNA circuits conditionally produce the ThTSignal oligonucleotide by association or by liberating the ThTSignal oligonucleotide from double-stranded DNA. This strategy offers label-free, cost-effective, fluorogenic detection of the molecular beacon reaction, split reporter reaction, one-step strand displacement reaction, and the entropy-driven amplifier reaction (a catalytic DNA circuit).

AB - DNA-DNA reactions can be monitored with a label-free fluorogenic reaction. Guanosine-rich, single-stranded DNA oligonucleotides bind to thioflavin-T (ThT) and enhance the fluorescence of the dye. We discovered a novel DNA sequence that produces fluorescence upon binding to ThT. We denote this oligonucleotide ThTSignal. We use ThTSignal as a label-free reporter for the activity of several designed DNA-DNA reactions (DNA circuits). The DNA circuits conditionally produce the ThTSignal oligonucleotide by association or by liberating the ThTSignal oligonucleotide from double-stranded DNA. This strategy offers label-free, cost-effective, fluorogenic detection of the molecular beacon reaction, split reporter reaction, one-step strand displacement reaction, and the entropy-driven amplifier reaction (a catalytic DNA circuit).

KW - G-rich sequence

KW - Thioflavin-T

KW - entropy-driven amplifier reaction

KW - label-freeDNAcircuits

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Thioflavin T as a noncovalent reporter for a label-free, non-enzymatic, catalytic DNA amplifier

Abstract

Keywords

ASJC Scopus subject areas

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