Chayan Charoenpakdee scite author profile

SummaryDNA or its analogues with an environment-sensitive fluorescent label are potentially useful as a probe for studying the structure and dynamics of nucleic acids. In this work, pyrrolidinyl peptide nucleic acid (acpcPNA) was labeled at its backbone with Nile red, a solvatochromic benzophenoxazine dye, by means of click chemistry. The optical properties of the Nile red-labeled acpcPNA were investigated by UV–vis and fluorescence spectroscopy in the absence and in the presence of DNA. In contrast to the usual quenching observed in Nile red-labeled DNA, the hybridization with DNA resulted in blue shifting and an enhanced fluorescence regardless of the neighboring bases. More pronounced blue shifts and fluorescence enhancements were observed when the DNA target carried a base insertion in close proximity to the Nile red label. The results indicate that the Nile red label is located in a more hydrophobic environment in acpcPNA–DNA duplexes than in the single-stranded acpcPNA. The different fluorescence properties of the acpcPNA hybrids of complementary DNA and DNA carrying a base insertion are suggestive of different interactions between the Nile red label and the duplexes.

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Rapid Detection of the Antibiotic Sulfamethazine in Pig Body Fluids by Paper Spray Mass Spectrometry

Suraritdechachai

Charoenpakdee

Young

et al. 2019

J. Agric. Food Chem.

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We report herein a practical method for nonlethal detection of the antibiotic sulfamethazine in pig body fluids via the combination of simple extraction and paper spray mass spectrometry (PS-MS). This method requires minimal sample preparation while still providing high sensitivities and accuracies in complex matrices including pig whole blood (LOD = 7.9 μg/L; recovery = 95.4−103.7%), pig serum (LOD = 11.5 μg/L; recovery = 103.2−106.2%), and synthetic urine (LOD = 11.2 μg/L; recovery = 99.1−103.2%). Given a known correlation between the level of sulfamethazine in body fluids and edible tissues, this method shows great promise as a practical and nonlethal solution for rapid testing of the drug, which can substantially aid managerial decision in the livestock industry.

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Quenching of fluorescently labeled pyrrolidinyl peptide nucleic acid by oligodeoxyguanosine and its application in DNA sensing

Charoenpakdee

Vilaivan

2020

Org. Biomol. Chem.

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Preparation and Performance Evaluation of a Pyrrolidinyl Peptide Nucleic‐Acid‐Based Displacement Probe as a DNA Sensor

et al. 2016

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A new displacement probe based on pyrrolidinyl peptide nucleic acid was designed and evaluated for DNA sequence recognition. The probe was prepared by combining an Nterminally fluorophore-modified pyrrolidinyl peptide nucleic acid (Flu-or TMR-acpcPNA) and a 3'-Dabcyl-modified DNA as a quencher. Fluorescence studies showed that the fluorophore in the acpcPNA strand was efficiently quenched by the quencher strand. After some optimisation, the fluorescence was significantly restored upon the addition of the complementary DNA target, while the fluorescence stayed at a low level with the addition of mismatched DNA. Even with double-stranded DNA analytes, the high specificity of the PNA-based displacement probes allowed unambiguous discrimination between complementary and single mismatched DNA targets. Furthermore, immobilisation of the probes onto agarose resin could also recognise only the complementary DNA, thereby demonstrating its potential as a practical DNA sensor.

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