Abstract
Bacterial resistance, primarily stemming from misdiagnosis, misuse, and overuse of antibacterial medications in humans and animals is a pressing issue. To address this, we hereby focused on developing a fluorescent probe for the detection of bacteria, with a unique feature — an exceptionally long fluorescence lifetime — to overcome autofluorescence limitations in biological samples. The polymyxin-based probe (ADOTA-PMX) selectively targets Gram-negative bacteria and used the red-emitting fluorophore azadioxatriangulenium (with a reported fluorescent lifetime of 19.5 ns). Evaluation of ADOTA-PMX's bacterial labeling efficacy revealed strong specificity for Gram-negative bacteria and full spectral fluorescence lifetime imaging microscopy demonstrated the potential of ADOTA-PMX for bacterial imaging applications. The probe exhibited a lifetime of 4.5 ns when bound to bacteria possibly indicating interactions with the bacterial outer membrane. Furthermore, the fluorescence lifetime measurements of ADOTA-PMX labelled bacteria could be performed using a bench-top fluorimeter without the need of sophisticated microscopes. This study represents the first targeted probe for fluorescence lifetime imaging, offering sensitivity crucial for detecting Gram-negative bacteria and enabling multiplexing via fluorescence lifetime imaging.
Supplementary materials
Title
Supplementary characterizations and figures
Description
Electronic supporting information contains additional figures and photo-physical characterization of the compound described in the manuscript.
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