Pattern‐Based Detection of Toxic Metals in Surface Water with DNA Polyfluorophores

Yuen, Lik Hang; Franzini, Raphael M.; Wang, Shenliang; Crisalli, Pete; Singh, Vijay Pal; Jiang, Wei; Kool, Eric T.

doi:10.1002/anie.201403235

Cited by 71 publications

(49 citation statements)

References 42 publications

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“…For extensive reviews on the subject, the reader is referred to the reviews by Wilson et al., Dodd et al., Sinkeldam et al., and Wilhelmsson and the references cited therein 10. The utilization of FBAs was first naturally focused on the study of the numerous bioprocesses in which DNA and RNA are involved,11 but more recently FBAs have outgrown the field of strict nucleic acid biology and have proven useful, for instance, in the development of DNA‐based optical chemosensors12 and in DNA nanotechnology 13…”

Section: Introductionmentioning

confidence: 99%

Second‐Generation Fluorescent Quadracyclic Adenine Analogues: Environment‐Responsive Probes with Enhanced Brightness

Dumat

Bood

Wranne

et al. 2015

Chemistry A European J

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Fluorescent base analogues comprise a group of increasingly important molecules for the investigation of nucleic acid structure, dynamics, and interactions with other molecules. Herein, we report on the quantum chemical calculation aided design, synthesis, and characterization of four new putative quadracyclic adenine analogues. The compounds were efficiently synthesized from a common intermediate through a two-step pathway with the Suzuki-Miyaura coupling as the key step. Two of the compounds, qAN1 and qAN4, display brightnesses (εΦF) of 1700 and 2300, respectively, in water and behave as wavelength-ratiometric pH probes under acidic conditions. The other two, qAN2 and qAN3, display lower brightnesses but exhibit polarity-sensitive dual-band emissions that could prove useful to investigate DNA structural changes induced by DNA-protein or -drug interactions. The four qANs are very promising microenvironment-sensitive fluorescent adenine analogues that display considerable brightness for such compounds.

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Section: Introductionmentioning

confidence: 99%

Second‐Generation Fluorescent Quadracyclic Adenine Analogues: Environment‐Responsive Probes with Enhanced Brightness

Dumat

Bood

Wranne

et al. 2015

Chemistry A European J

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“…3b), as has been reported for a few other sensors484950538182. However, solely colour-based detection has its limitation with regard to the detection of unknown samples of identical colour-generating ‘different metal species’, ‘different concentration of a particular metal’, ‘different counter anion of a metal’, as well as ‘mixture of metals’ including non-colour generating metals.…”

Section: Resultsmentioning

confidence: 87%

A Miniaturized Therapeutic Chromophore for Multiple Metal Pollutant Sensing, Pathological Metal Diagnosis and Logical Computing

Rout

2016

Sci Rep

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The efficacy of a miniaturized unimolecular analytic system is illustrated. The easily accessible therapeutic chromophore “temoporfin”, which responds differentially to bound metals at multiple wavelengths of Q-band absorption using chemometric analysis, expeditiously detects and discriminates a wide range of metals regarded as priority pollutants in water and hence may also be used for diagnosis of medically relevant metals in human urine. The molecule was further investigated as an electronic logic device, e.g. keypad lock device, to authorize multiple highly secure chemical passwords for information protection.

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“…A better theoretical understanding of the effects of environment on fluorescence of such compounds will in the future lead to predictive designs and will greatly enhance future applications. Similarly, given that there are now over 100 fluorescent nucleobases to choose from, we are beginning to see an increase in the combination of multiple fluorescent analogues into DNA and RNA strands, resulting in interesting and potentially useful new fluorescence properties that emerge from the electronic interactions between the fluorophores 83,124 . A better theoretical and physical understanding of these electronic interactions will ultimately lead to more effective designs and a broad range of applications in imaging, sensing and biological investigation.…”

Section: Concluding Remarks and Future Prospectsmentioning

confidence: 99%

Fluorescent nucleobases as tools for studying DNA and RNA

2017

Self Cite

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Understanding the diversity of dynamic structures and functions of DNA and RNA in biology requires tools that can selectively and intimately probe these biomolecules. Synthetic fluorescent nucleobases that can be incorporated into nucleic acids alongside their natural counterparts have emerged as a powerful class of molecular reporters of location and environment. They are enabling new basic insights into DNA and RNA, and are facilitating a broad range of new technologies with chemical, biological and biomedical applications. In this Review, we will present a brief history of the development of fluorescent nucleobases and explore their utility as tools for addressing questions in biophysics, biochemistry and biology of nucleic acids. We provide chemical insights into the two main classes of these compounds: canonical and non-canonical nucleobases. A point-by-point discussion of the advantages and disadvantages of both types of fluorescent nucleobases is made, along with a perspective into the future challenges and outlook for this burgeoning field.

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Pattern‐Based Detection of Toxic Metals in Surface Water with DNA Polyfluorophores

Cited by 71 publications

References 42 publications

Second‐Generation Fluorescent Quadracyclic Adenine Analogues: Environment‐Responsive Probes with Enhanced Brightness

Second‐Generation Fluorescent Quadracyclic Adenine Analogues: Environment‐Responsive Probes with Enhanced Brightness

A Miniaturized Therapeutic Chromophore for Multiple Metal Pollutant Sensing, Pathological Metal Diagnosis and Logical Computing

Fluorescent nucleobases as tools for studying DNA and RNA

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