Chemistry (Aug 2023)

A Ratiometric Fluorescent Probe for pH Measurement over a Wide Range Composed of Three Types of Fluorophores Assembled on a DNA Scaffold

  • Eiji Nakata,
  • Khongorzul Gerelbaatar,
  • Mashal Asif,
  • Hiroaki Konishi,
  • Yuya Shibano,
  • Peng Lin,
  • Takashi Morii

DOI
https://doi.org/10.3390/chemistry5030125
Journal volume & issue
Vol. 5, no. 3
pp. 1832 – 1842

Abstract

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The desirable properties of the sophisticated fluorescent pH probe are ratiometric detection properties and a wide detection range. In this study, three types of fluorophores with different fluorescence properties were assembled on a DNA origami nanostructure. DNA nanostructure has the advantage of being a scaffold that can assemble different types of fluorophores with control over their number and position. The defined number of three different fluorophores, i.e., pH-sensitive fluorescein (CF) and Oregon Green (OG), and pH-insensitive tetramethylrhodamine (CR), assembled on the DNA scaffold provided a ratiometric fluorescent pH probe with a wide pH detection range that could cover the variation of intracellular pH.

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