Computational and Experimental Characterization of a Fluorescent Dye for Detection of Potassium Ion Concentration

Tanha, Matteus; Chakraborty, Subhasish; Gabris, Beth; Waggoner, Alan S.; Salama, Guy; Yaron, David

doi:10.1021/jp507552q

Cited by 10 publications

(7 citation statements)

References 15 publications

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“…These macrocycles, along with Ca 2+ and pH sensors, were incorporated into a multianalyte microfluidic device that was used for the analysis of the electrolytes present in human tears. Potassium was detected by rhodamine-appended 163 (Figure ), and computational studies indicated that 163 was a PET-based sensor, in which complexation with K + destabilized the charge transfer state, leading to the observed signal changes Figure ), containing a europium luminophore appendage, was used to detect potassium in synthetic human blood serum …”

Section: Luminescent Macrocycle Sensorsmentioning

confidence: 99%

Supramolecular Luminescent Sensors

2018

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There is great need for stand-alone luminescence-based chemosensors that exemplify selectivity, sensitivity, and applicability and that overcome the challenges that arise from complex, real-world media. Discussed herein are recent developments toward these goals in the field of supramolecular luminescent chemosensors, including macrocycles, polymers, and nanomaterials. Specific focus is placed on the development of new macrocycle hosts since 2010, coupled with considerations of the underlying principles of supramolecular chemistry as well as analytes of interest and common luminophores. State-of-the-art developments in the fields of polymer and nanomaterial sensors are also examined, and some remaining unsolved challenges in the area of chemosensors are discussed. CONTENTS 4.4. Explosives 4.5. Pharmaceutical Agents 4.6. Biologically Relevant 4.6.1. Adenosine Triphosphate (ATP)

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Section: Luminescent Macrocycle Sensorsmentioning

confidence: 99%

Supramolecular Luminescent Sensors

2018

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“…[6][7][8] A sodium-potassium pump that moves both Na + and K + in opposite directions across the plasma membrane is responsible for the mechanism of the ion transportation. [8][9][10][11][12][13] The concentrations of Na + and K + on the opposite sides of the membrane are interdependent, suggesting that the same carrier transports both the ions. On the other hand, Mg 2+ and Ca 2+ play key roles in nerve transmission, maintenance of muscular strength and extracellular osmolarity, enzyme activation, apoptosis of a cell, regulation of blood pressure, pH, and the concentration of other ions in living cells.…”

Section: Introductionmentioning

confidence: 99%

Supramolecular recognition control of polyethylene glycol modified N-doped graphene quantum dots: tunable selectivity for alkali and alkaline-earth metal ions

Yang

Sun

Zhu

et al. 2016

Analyst

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The graphene quantum dot based fluorescent probe community needs unambiguous evidence about the control on the ion selectivity. In this paper, polyethylene glycol modified N-doped graphene quantum dots (PN-GQDs) were synthesized by alkylation reaction between graphene quantum dots and organic halides. We demonstrate the tunable selectivity and sensitivity by controlling the supramolecular recognition through the length and the end group size of the polyether chain on PN-GQDs. The relationship formulae between the selectivity/detection limit and polyether chains are experimentally deduced. The polyether chain length determines the interaction between the PN-GQDs and ions with different ratios of charge to radius, which in turn leads to a good selectivity control. Meanwhile the detection limit shows an exponential growth with the size of end groups of the polyether chain. The PN-GQDs can be used as ultrasensitive and selective fluorescent probes for Li(+), Na(+), K(+), Mg(2+), Ca(2+) and Sr(2+), respectively.

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“…[6][7][8] Nucleic acid-based aptamers that are generated by a systematic evolution of ligands with an exponential enrichment (SELEX) process and obtained through selections, 9 are artificial single-stranded DNA (ssDNA) or RNA sequences that can recognize specific biological molecules with a wide range, such as small molecules, 10 organic compound, 11 proteins 12 or even whole cells. 13 With outstanding stability, high affinity, excellent selectivity, easy modification, as well as low immunogenesis, nucleic acid-based aptamers have successfully attracted the increasing attention of researchers, and have been widely used in food safety, diagnosis, cell imaging and drug delivery.…”

Section: Introductionmentioning

confidence: 99%

A Novel Biosensor Based on Terminal Protection and Fluorescent Copper Nanoparticles for Detecting Potassium Ion

Deng

Liu

et al. 2017

ANAL. SCI.

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A novel biosensor for sensitively detecting potassium ion (K + ) has been developed based on fluorescent copper nanoparticles (Cu NPs). In our design, we employ a label-free single-strand DNA (ssDNA) that contains two parts. One is 3′-terminus structure-switching aptamers (SSAs) that can fold into G-quadruplex after binding with its target K + . The other is 5′-terminus poly thymine (polyT) which works as a template to construct fluorescent Cu NPs. After incubating with K + , the part SSAs go through target-induced conformational changes. Benifiting from the exceptional digestion ability of exonuclease I (Exo I), the G-quadruplexes display effective resistance to nuclease digestion, so that 5′-terminus polyT remains and the in situ formation of Cu NPs provides a turn-on fluorescent signal that is used to evaluate the concentration of K + . The recovery of the fluorescence intensity is linearly correlated with the K + concentration in the range of 0.05 to 1 mM with a detection limit of 0.05 mM. Compared with some methods, this assay is cost-effective and facile with high specificity. Meanwhile, this excellent strategy shows a great potentiality in other sensing approaches that can study the interaction between similar SSAs and different specific targets.

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Computational and Experimental Characterization of a Fluorescent Dye for Detection of Potassium Ion Concentration

Cited by 10 publications

References 15 publications

Supramolecular Luminescent Sensors

Supramolecular Luminescent Sensors

Supramolecular recognition control of polyethylene glycol modified N-doped graphene quantum dots: tunable selectivity for alkali and alkaline-earth metal ions

A Novel Biosensor Based on Terminal Protection and Fluorescent Copper Nanoparticles for Detecting Potassium Ion

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