Structural Insights into the Mechanism of High-Affinity Binding of Ochratoxin A by a DNA Aptamer

Xu, Guisheng; Jie, Zhao; Yu, Hao; Wang, Chen; Huang, Yangyu; Zhao, Qiang; Zhou, Xin; Li, Conggang; Liu, Maili

doi:10.1021/jacs.2c00478

Cited by 41 publications

(20 citation statements)

References 52 publications

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“…In the absence of OTA, the FAM is distant from the BHQ1, resulting in high fluorescence intensity. In the presence of OTA, OTA specifically binds to the aptamer, inducing the aptamer folding into a duplex–quadruplex structure [ 26 ], and the fluorescence is quenched due to the close proximity of FAM and BHQ1. Therefore, OTA detection can be achieved by measuring the change in fluorescence intensity of the aptamer probe upon OTA binding.…”

Section: Resultsmentioning

confidence: 99%

“…In this work, taking advantage of aptamer and molecular beacon strategy, we developed a simple and rapid fluorescence method for OTA detection by using a high-affinity DNA aptamer against OTA, which has a duplex and G-quadruplex structure in the affinity complex [ 26 ]. The aptamer was modified with a fluorescein (FAM) and a black hole quencher (BHQ1) at the 5′ terminal and the 3′ terminal, respectively.…”

Section: Introductionmentioning

confidence: 99%

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Aptamer Molecular Beacon Sensor for Rapid and Sensitive Detection of Ochratoxin A

Zhao

2022

Molecules

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Ochratoxin A (OTA) is a carcinogenic fungal secondary metabolite which causes wide contamination in a variety of food stuffs and environments and has a high risk to human health. Developing a rapid and sensitive method for OTA detection is highly demanded in food safety, environment monitoring, and quality control. Here, we report a simple molecular aptamer beacon (MAB) sensor for rapid OTA detection. The anti-OTA aptamer has a fluorescein (FAM) labeled at the 5′ end and a black hole quencher (BHQ1) labeled at the 3′ end. The specific binding of OTA induced a conformational transition of the aptamer from a random coil to a duplex–quadruplex structure, which brought FAM and BHQ1 into spatial proximity causing fluorescence quenching. Under the optimized conditions, this aptamer sensor enabled OTA detection in a wide dynamic concentration range from 3.9 nM to 500 nM, and the detection limit was about 3.9 nM OTA. This method was selective for OTA detection and allowed to detect OTA spiked in diluted liquor and corn flour extraction samples, showing the capability for OTA analysis in practical applications.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Aptamer Molecular Beacon Sensor for Rapid and Sensitive Detection of Ochratoxin A

Zhao

2022

Molecules

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“…The aptamer binds more strongly to the target molecule (OTA) than to the cDNA. 34,35 Upon addition of the target molecule, the cDNA with the fluorescent label is shed.…”

Section: Resultsmentioning

confidence: 99%

Highly sensitive and specific assessment of ochratoxin A in herbal medicines via activator regeneration by electron transfer ATRP

et al. 2022

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“…Unlike the binding site of PyPDS/PDS, L 1 Pt(dien) with a large aromatic plane and platinum unit binds to both G-quadruplex and duplex motifs of MYT1L with high spatial matching (Figure a,b), while the aromatic plane stacks at the G-tetrad via π–π stacking and the platinum unit interacts with the duplex region via groove binding. In contrast, the ochratoxin A (OTA) with a small organic plane and flexible scaffold binds to the duplex and other base regions of the OBA33 QDH (Figure c) . The spatial structure of the ligand itself is important for its binding site to DNA .…”

Section: Discussionmentioning

confidence: 99%

“…In contrast, the ochratoxin A (OTA) with a small organic plane and flexible scaffold binds to the duplex and other base regions of the OBA33 QDH (Figure 5c). 40 The spatial structure of the ligand itself is important for its binding site to DNA. 41 The spatial selective and adaptive matching between ligands and G4s is critical for the specific recognition of G4s by ligand.…”

Section: ■ Discussionmentioning

confidence: 99%

Structural Basis of Pyridostatin and Its Derivatives Specifically Binding to G-Quadruplexes

Liu

Zeng

et al. 2022

J. Am. Chem. Soc.

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The nucleic acid G-quadruplex (G4) has emerged as a promising therapeutic target for a variety of diseases such as cancer and neurodegenerative disease. Among small-molecule G4-binders, pyridostatin (PDS) and its derivatives (e.g., PyPDS) exhibit high specificity to G4s, but the structural basis for their specific recognition of G4s remains unknown. Here, we presented two solution structures of PyPDS and PDS with a quadruplex–duplex hybrid. The structures indicate that the rigid aromatic rings of PyPDS/PDS linked by flexible amide bonds match adaptively with G-tetrad planes, enhancing π–π stacking and achieving specific recognition of G4s. The aliphatic amine side chains of PyPDS/PDS adjust conformation to interact with the phosphate backbone via hydrogen bonding and electrostatic interactions, increasing affinity for G4s. Moreover, the N–H of PyPDS/PDS amide bonds interacts with two O6s of G-tetrad guanines via hydrogen bonding, achieving a further increase in affinity for G4s, which is different from most G4 ligands. Our findings reveal from structural perspectives that the rational assembly of rigid and flexible structural units in a ligand can synergistically improve the selectivity and affinity for G4s through spatial selective and adaptive matching.

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Structural Insights into the Mechanism of High-Affinity Binding of Ochratoxin A by a DNA Aptamer

Cited by 41 publications

References 52 publications

Aptamer Molecular Beacon Sensor for Rapid and Sensitive Detection of Ochratoxin A

Aptamer Molecular Beacon Sensor for Rapid and Sensitive Detection of Ochratoxin A

Highly sensitive and specific assessment of ochratoxin A in herbal medicines via activator regeneration by electron transfer ATRP

Structural Basis of Pyridostatin and Its Derivatives Specifically Binding to G-Quadruplexes

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