Nano-Conjugate Fluorescence Probe for the Discrimination of Phosphate and Pyrophosphate

Al-Absi; Aldakov; Alivisatos; Anzenbacher; Beer; Bunz; Chan; Chantelau; Cheung; Couri; Eibl; Fabbrizzi; Fan; Fleisch; Gunnlaugsson; Gunnlaugsson; Hanshaw; Heinonen; Ho; Jang; Katayev; Kim; Kim; Kim; Kubo; Lakowicz; Lavigne; Lee; Lee; Lee; Leiboff; Liu; Lomashvili; Lust; McQuade; Medintz; Miyaji; Mizukami; O'Neil; Palacios; Patterson; Phillips; Pinto; Plitt; Proudfoot; Quinlan; Rosi; Shanahan; Singh; Song; Swamy; Thomas; Tobey; Tobey; Van de Graaf; Vance; Wiskur; Yavuz Cafer; You; Zhang; Zhang; Zhao; Zhou; Zyryanov

Nano-Conjugate Fluorescence Probe for the Discrimination of Phosphate and Pyrophosphate

Authors: Al-Absi
Aldakov
Alivisatos
Anzenbacher
Beer
Bunz
Chan
Chantelau
Cheung
Couri
Eibl
Fabbrizzi
Fan
Fleisch
Gunnlaugsson
Gunnlaugsson
Hanshaw
Heinonen
Ho
Jang
Katayev
Kim
Kim
Kim
Kubo
Lakowicz
Lavigne
Lee
Lee
Lee
Leiboff
Liu
Lomashvili
Lust
McQuade
Medintz
Miyaji
Mizukami
O'Neil
Palacios
Patterson
Phillips
Pinto
Plitt
Proudfoot
Quinlan
Rosi
Shanahan
Singh
Song
Swamy
Thomas
Tobey
Tobey
Van de Graaf
Vance
Wiskur
Yavuz Cafer
You
Zhang
Zhang
Zhao
Zhou
Zyryanov
Publication date: 1 January 2009
Publisher: 'Wiley'
Doi

Abstract

We describe a pyrophosphate (PPi) probe that is based on a fluorescent dicarboxylate-substituted poly(para-phenyleneethynylene) (PPE) and 10 nm cobalt–iron spinel nanoparticles (NPs) in aqueous media. The spinel NPs efficiently quench the fluorescence of the PPE at a concentration of 20–30 pmol. Addition of phosphate anions to the PPE–NP construct displaces the quenched PPE to give rise to a fluorescent response; we found that PPi and phosphate (Pi) have significantly different binding affinities for the self-assembled materials. We can discern \u3e40 nM PPi in the presence of 0.1 mM Pi at pH 7, which suggests that these assemblies may be useful in bio-analytical applications. This displacement assay was used to effectively determine the ability of pyrophosphatase to hydrolyze PPi to Pi