Abstract
Plants use secondary metabolites such as polyphenols for chemical defense against pathogens and herbivores. Despite their importance in plant pathogen interactions and tolerance to diseases, it remains challenging to detect polyphenols in complex plant tissues. Here, we create molecular sensors for plant polyphenol imaging that are based on near‐infrared (NIR) fluorescent single‐wall carbon nanotubes (SWCNTs). We identified polyethylene glycol–phospholipids that render (6,5)‐SWCNTs sensitive (Kd=90 nM) to plant polyphenols (tannins, flavonoids, …), which red‐shift (up to 20 nm) and quench their emission (ca. 1000 nm). These sensors report changes in total polyphenol level after herbivore or pathogen challenge in crop plant systems (Soybean Glycine max) and leaf tissue extracts (Tococa spp.). We furthermore demonstrate remote chemical imaging of pathogen‐induced polyphenol release from roots of soybean seedlings over the time course of 24 h. This approach allows in situ visualization and understanding of the chemical plant defense in real time and paves the way for plant phenotyping for optimized polyphenol secretion.
Highlights
Smart agricultural solutions are required to optimize production practices and crop yields to enable a sustainable food supply for a rising global population
There is a general tendency of fluorescence increase for ssDNASWCNTs and a decrease for polyethylene glycol (PEG)-PL-single-wall carbon nanotubes (SWCNTs)
All tested compounds with two or more hydroxy residues on the phenol structure led to a significant fluorescence change, while salicylic acid did not alter the emission features of the tested SWCNTs
Summary
Smart agricultural solutions are required to optimize production practices and crop yields to enable a sustainable food supply for a rising global population. It responds to polyphenols in vitro and enables in vivo/in situ chemical imaging of polyphenols released from plant roots challenged with pathogen-related stress
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