Novel algorithms for improved detection and analysis of fluorescent signal fluctuations

Fluorescent dyes and genetically encoded fuorescence indicators (GEFI) are common tools for visualizing concentration changes of specifc ions and messenger molecules during intra- as well as intercellular communication. Using advanced imaging technologies, fuorescence indicators are a prerequisite for the analysis of physiological molecular signaling. Automated detection and analysis of fuorescence signals require to overcome several challenges, including correct estimation of fuorescence fuctuations at basal concentrations of messenger molecules, detection, and extraction of events themselves as well as proper segmentation of neighboring events. Moreover, event detection algorithms need to be sensitive enough to accurately capture localized and low amplitude events exhibiting a limited spatial extent. Here, we present two algorithms (PBasE and CoRoDe) for accurate baseline estimation and automated detection and segmentation of fuorescence fuctuations.