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← Back to Discoveries | PubMed → · research article 2026-05-18 synthesized

An ESIPT-AIE nanosensor for ONOO

Wang GY, Tan S, Niu W, Gao F, Liu ST

Plant Signaling

Every time your garden plants get scorched by drought, attacked by a fungal pathogen, or stressed by pollution, they fire off a burst of reactive chemical signals — and until now researchers had no good way to watch those signals happen live inside a leaf cell.

Plants under stress — from disease, drought, or pollution — release a highly reactive chemical called peroxynitrite as part of their alarm system. Researchers built a tiny probe that glows when it encounters this chemical inside a living plant cell, letting scientists see plant stress responses as they happen. This kind of real-time visibility could help uncover exactly how plants defend themselves, which could eventually lead to crops and garden plants that are better at handling tough conditions.

Key Findings

1

A dual-mechanism fluorescent probe (combining ESIPT and AIE chemistry) was engineered to selectively detect peroxynitrite over other chemically similar reactive species in cells.

2

The nanosensor successfully imaged peroxynitrite in living plant cells, confirming it is active during plant stress events.

3

The probe responds rapidly and specifically to peroxynitrite, enabling real-time tracking of this reactive nitrogen species without damaging the cell.

chevron_right Technical Summary

Scientists developed a fluorescent nanosensor that can detect peroxynitrite — a short-lived, reactive stress signal — inside living plant cells in real time. The probe lights up when peroxynitrite is present, giving researchers a new window into how plants experience and respond to stress at the chemical level.

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Abstract Preview

Peroxynitrite (ONOO

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Abstract copyright held by the original publisher.

hub This connects to 9 other discoveries — plant-signaling, stress-response, reactive-oxygen-species +1 more 5 related articles
plant-signaling stress-response reactive-oxygen-species plant-imaging

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