Yin Nah Teo scite author profile

We recently described the assembly of fluorescent deoxyriboside monomers (“fluorosides”) into DNA-like phosphodiester oligomers (oligodeoxyfluorosides, or ODFs) in which hydrocarbon and heterocyclic aromatic fluorophores interact both physically and electronically. Here we report the identification of a multicolor set of water-soluble ODF dyes that display emission colors across the visible spectrum, and all of which can be simultaneously excited by long-wavelength UV light at 340−380 nm. Multispectral dye candidates were chosen from a library of 4096 tetramer ODFs constructed on PEG-polystyrene beads using a simple long-pass filter to observe all visible colors at the same time. We re-synthesized and characterized a set of 23 ODFs containing one to four individual chromophores, and included 2−3 spacer monomers to increase aqueous solubility and minimize aggregation. Emission maxima of this set range from 376 nm to 633 nm, yielding apparent colors from violet to red, all of which can be visualized directly. The spectra of virtually all ODFs in this set varied considerably from the simple combination of monomer components, revealing extensive electronic interactions between the presumably stacked monomers. In addition, comparisons of anagrams in the set (isomers having the same components in a different sequence) reveal the importance of nearest-neighbor interactions in the emissive behavior. Preliminary experiments with human tumor (HeLa) cells, observing two ODFs by laser confocal microscopy, showed that they can penetrate the outer cellular membrane, yielding cytoplasmic localization. In addition, a set of four distinctly-colored ODFs was incubated with live zebrafish embryos, showing tissue penetration, apparent biostability, and no apparent toxicity. The results suggest that ODF dyes may be broadly useful as labels in biological systems, allowing the simultaneous tracking of multiple species by color, and allowing visualization in moving systems where classical fluorophores fail.

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A novel oxidative desulfurization process to remove refractory sulfur compounds from diesel fuel

Sampanthar

Xiao

Dou

et al. 2006

Applied Catalysis B: Environmental

203

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Molecular Rotors As Conditionally Fluorescent Labels for Rapid Detection of Biomolecular Interactions

et al. 2014

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We demonstrate the use of fluorescent molecular rotors as probes for detecting biomolecular interactions, specifically peptide-protein interactions. Molecular rotors undergo twisted intramolecular charge transfer upon irradiation, relax via the nonradiative torsional relaxation pathway, and have been typically used as viscosity probes. Their utility as a tool for detecting specific biomolecular interactions has not been explored. Using the well characterized p53-Mdm2 interaction as a model system, we designed a 9-(2-carboxy-2-cyanovinyl) julolidine-based p53 peptide reporter, JP1-R, which fluoresces conditionally only upon Mdm2 binding. The reporter was used in a rapid, homogeneous assay to screen a fragment library for antagonists of the p53-Mdm2 interaction, and several inhibitors were identified. Subsequent validation of these hits using established secondary assays suggests increased sensitivity afforded by JP1-R. The fluorescence of molecular rotors contingent upon target binding makes them a versatile tool for detecting specific biomolecular interactions.

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Yin Nah Teo

DNA-Multichromophore Systems

Polyfluorophores on a DNA Backbone: A Multicolor Set of Labels Excited at One Wavelength

A novel oxidative desulfurization process to remove refractory sulfur compounds from diesel fuel

Molecular Rotors As Conditionally Fluorescent Labels for Rapid Detection of Biomolecular Interactions

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