AI Article Synopsis
- Imidazo[1,5-]pyridine is a stable chemical scaffold that is effective for creating fluorescent compounds used in fields like optoelectronics and chemical biology, making them promising cell membrane probes.
- Five fluorophores based on this scaffold were synthesized using a one-pot method and tested for their ability to indicate membrane dynamics and cellular health.
- The study found that these probes showed excellent solvatochromic behavior and successfully intercalated into liposomes, suggesting their potential for future research as fluorescent agents in membrane studies.
Article Abstract
Imidazo[1,5-]pyridine is a stable scaffold, widely used for the development of emissive compounds in many application fields (e.g., optoelectronics, coordination chemistry, sensors, chemical biology). Their compact shape along with remarkable photophysical properties make them suitable candidates as cell membrane probes. The study of the membrane dynamics, hydration, and fluidity is of importance to monitor the cellular health and to explore crucial biochemical pathways. In this context, five imidazo[1,5-]pyridine-based fluorophores were synthesized according to a one-pot cyclization between an aromatic ketone and benzaldehyde in the presence of ammonium acetate and acetic acid. The photophysical features of prepared compounds were investigated in several organic solvents and probes - exhibited the greatest solvatochromic behavior, resulting in a higher suitability as membrane probes. Their interaction with liposomes as artificial membrane model was tested showing a successful intercalation of the probes in the lipid bilayer. Kinetic experiments were carried out and the lipidic phase influence on the photophysical features was evaluated through temperature-dependent experiments. The results herein reported encourage further investigations on the use of imidazo[1,5-]pyridine scaffold as fluorescent membrane probes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9230927 | PMC |
| http://dx.doi.org/10.3390/molecules27123856 | DOI Listing |
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