What question did this study set out to answer?

This research aims to develop a novel chemiluminescent probe for the detection of alkaline phosphatase (ALP).

April 10, 2026Open Access

Phosphorylated Chemiluminescent Probe Based on Spiro-cyclobutyl-phenoxy-dioxetane for the In Situ Light-Activated Sensing of Alkaline Phosphatase

Key Points

This research aims to develop a novel chemiluminescent probe for the detection of alkaline phosphatase (ALP).
Developed an ALP probe called CL-A1 using a dioxetane scaffold.
Utilized sequential light-induced oxidation and ALP-mediated dephosphorylation to generate chemiluminescence.
Tested the probe in Escherichia coli strains to assess its effectiveness for detecting ALP.
CL-A1 exhibited stronger chemiluminescence than commercial substrates AMPPD and APS-5.
The probe successfully detected endogenous ALP activity in bacterial samples using in situ light activation.

Abstract

Alkaline phosphatase (ALP) plays important biological roles for many living species, including bacteria. Here, we developed an ALP probe (CL-A1) using the dephosphorylation of an in situ light-activated chemiluminescent species based on a spiro-cyclobutane-substituted dioxetane scaffold. A sequential light-induced oxidation and ALP-mediated dephosphorylation of CL-A1 rapidly generated intense chemiluminescence (CL), which was stronger than that of the commercial CL substrates AMPPD and APS-5 tested in the presence of a signal enhancer. Analysis using Escherichia coli strains confirmed the applicability of CL-A1 for the sensitive detection of endogenous ALP activity using in situ light activation.

Phosphorylated Chemiluminescent Probe Based on Spiro-cyclobutyl-phenoxy-dioxetane for the In Situ Light-Activated Sensing of Alkaline Phosphatase

Key Points

Abstract

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