N-aryl pyrido cyanine derivatives are nuclear and organelle DNA markers for two-photon and super-resolution imaging

Live cell imaging using fluorescent DNA markers are an indispensable molecular tool in various biological and biomedical fields. It is a challenge to develop DNA probes that avoid UV light photo-excitation, have high specificity for DNA, are cell-permeable and are compatible with cutting-edge imaging techniques such as super-resolution microscopy. Herein, we present N-aryl pyrido cyanine (N-aryl-PC) derivatives as a class of long absorption DNA markers with absorption in the wide range of visible light. The high DNA specificity and membrane permeability allow the staining of both organelle DNA as well as nuclear DNA, in various cell types, including plant tissues, without the need for washing post-staining. N-aryl-PC dyes are also highly compatible with a separation of photon by lifetime tuning method in stimulated emission depletion microscopy (SPLIT-STED) for super-resolution imaging as well as two-photon microscopy for deep tissue imaging, making it a powerful tool in the life sciences. It is challenging to develop DNA probes that allow staining of both organelle and nuclear DNA, are compatible with super resolution imaging and avoid UV-light photo-excitation. The authors overcome these issues with N-aryl pyrido cyanine derivatives showing high DNA specificity and membrane permeability.

Automated summary

N-aryl pyrido cyanine derivatives are long absorption DNA markers with high DNA specificity and membrane permeability, suitable for staining organelle and nuclear DNA in various cell types. They are also compatible with super-resolution imaging and deep tissue imaging techniques.