A highly selective and sensitive fluorescence sensing system for distinction between diphosphate and nucleoside triphosphates

Jae Han Lee; A. Reum Jeong; Jae Hoon Jung; Chung Mo Park; Jong In Hong

doi:10.1021/jo1017102

A highly selective and sensitive fluorescence sensing system for distinction between diphosphate and nucleoside triphosphates

Jae Han Lee, A. Reum Jeong, Jae Hoon Jung, Chung Mo Park, Jong In Hong

Seoul National University

Research output: Contribution to journal › Article › peer-review

54 Scopus citations

Abstract

Among the numerous chemosensors available for diphosphate (P ₂O ₇ ^4-, PPi) and nucleoside triphosphates (NTPs), only a few can distinguish between PPi and NTPs. Hence, very few bioanalytical applications based on such selective chemosensors have been realized. We have developed a new fluorescence sensing system for distinction between PPi and NTPs based on the combination of two sensors, a binuclear Zn(II) complex (1·2Zn) and boronic acid (BA), in which one chemosensor (1·2Zn) shows signal changes depending on the PPi (or NTP) concentration, and the other (BA) blocks the signal change caused by NTPs; this system enables the distinction of PPi from NTPs and is sensitive to nanomolar concentrations of PPi. The new sensing system has been successfully used for the direct quantification of RNA polymerase activity.

Original language	English
Pages (from-to)	417-423
Number of pages	7
Journal	Journal of Organic Chemistry
Volume	76
Issue number	2
DOIs	https://doi.org/10.1021/jo1017102
State	Published - 21 Jan 2011
Externally published	Yes

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title = "A highly selective and sensitive fluorescence sensing system for distinction between diphosphate and nucleoside triphosphates",

abstract = "Among the numerous chemosensors available for diphosphate (P 2O 7 4-, PPi) and nucleoside triphosphates (NTPs), only a few can distinguish between PPi and NTPs. Hence, very few bioanalytical applications based on such selective chemosensors have been realized. We have developed a new fluorescence sensing system for distinction between PPi and NTPs based on the combination of two sensors, a binuclear Zn(II) complex (1·2Zn) and boronic acid (BA), in which one chemosensor (1·2Zn) shows signal changes depending on the PPi (or NTP) concentration, and the other (BA) blocks the signal change caused by NTPs; this system enables the distinction of PPi from NTPs and is sensitive to nanomolar concentrations of PPi. The new sensing system has been successfully used for the direct quantification of RNA polymerase activity.",

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doi = "10.1021/jo1017102",

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T1 - A highly selective and sensitive fluorescence sensing system for distinction between diphosphate and nucleoside triphosphates

AU - Lee, Jae Han

AU - Jeong, A. Reum

AU - Jung, Jae Hoon

AU - Park, Chung Mo

AU - Hong, Jong In

PY - 2011/1/21

Y1 - 2011/1/21

N2 - Among the numerous chemosensors available for diphosphate (P 2O 7 4-, PPi) and nucleoside triphosphates (NTPs), only a few can distinguish between PPi and NTPs. Hence, very few bioanalytical applications based on such selective chemosensors have been realized. We have developed a new fluorescence sensing system for distinction between PPi and NTPs based on the combination of two sensors, a binuclear Zn(II) complex (1·2Zn) and boronic acid (BA), in which one chemosensor (1·2Zn) shows signal changes depending on the PPi (or NTP) concentration, and the other (BA) blocks the signal change caused by NTPs; this system enables the distinction of PPi from NTPs and is sensitive to nanomolar concentrations of PPi. The new sensing system has been successfully used for the direct quantification of RNA polymerase activity.

AB - Among the numerous chemosensors available for diphosphate (P 2O 7 4-, PPi) and nucleoside triphosphates (NTPs), only a few can distinguish between PPi and NTPs. Hence, very few bioanalytical applications based on such selective chemosensors have been realized. We have developed a new fluorescence sensing system for distinction between PPi and NTPs based on the combination of two sensors, a binuclear Zn(II) complex (1·2Zn) and boronic acid (BA), in which one chemosensor (1·2Zn) shows signal changes depending on the PPi (or NTP) concentration, and the other (BA) blocks the signal change caused by NTPs; this system enables the distinction of PPi from NTPs and is sensitive to nanomolar concentrations of PPi. The new sensing system has been successfully used for the direct quantification of RNA polymerase activity.

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A highly selective and sensitive fluorescence sensing system for distinction between diphosphate and nucleoside triphosphates

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