Multi-organelle imaging with dye combinations: targeting the ER, mitochondria, and plasma membrane.

Multi-organelle imaging allows the visualization of multiple organelles within a single cell, allowing monitoring of the cellular processes in real-time using various fluorescent probes that target specific organelles. However, the limited availability of fluorophores and potential spectral overlap present challenges, and many optimized designs are still in nascency. In this work, we synthesized various sulfonamide-based organic fluorophores that emit in the blue, green, and red regions to target different sub-cellular organelles. By utilizing binary mixtures, we successfully demonstrated multiple imaging of the sub-cellular organelles, such as the endoplasmic reticulum, plasma membrane, and mitochondria in HeLa cells, and dual imaging of the endoplasmic reticulum and mitochondria in A549 lung carcinoma cells with the help of blue and red-emitting fluorophores without any spectral spillover. Additionally, these photostable probes allowed precise cell staining and differentiation, structural features, and live cell dynamics. This approach of utilizing fluorescent mixtures can gain traction for various cellular studies and investigations.