The dual detection of formaldehydes and sulfenic acids with a reactivity fluorescent probe in cells and in plants

In order to reveal the inter-relationship between protein sulfenic acid (RSOH) and formaldehyde (FA) in different physiological processes, development of tools that are capable of respective and continuous detection for both species is highly valuable. Herein, we reported an “off-on” sensor NA-SF for dual detection of RSOH and FA in cells and plant tissues. Importantly, the highly desirable attribute of the probe NA-SF combined with TCEP, makes it possible to monitor endogenous both RSOH and FA in living cells and plants tissues. NA-SF has been applied successfully in detecting RSOH and FA at physiological concentrations in HeLa, HepG2, A549 cells. Furthermore, the application of NA-SF in evaluating the RSOH and FA level in Arabidopsis thaliana roots of different growth stages are performed. The results show that the level of RSOH and FA in Arabidopsis thaliana roots correlates well with their growth stages, which suggests that both RSOH and FA might play important roles in promoting plant growth and roots elongation. And it also implied a potential application for the biological and pathological research of RSOH and FA, especially in plant physiology. Therefore, we expect NA-SF could provide a convenient and robust tool for better understanding the physiological and pathological roles of RSOH and FA. [Display omitted] •An “off-on” sensor NA-SF for dual detection of RSOH and FA in cells and plant tissues was reported.•NA-SF possessed the ability to evaluate RSOH and FA level in Arabidopsis thaliana roots of different growth stages in situ.•NA-SF provided a convenient and robust tool for understanding the physiological and pathological roles of RSOH and FA.•RSOH and FA might play the role of signaling molecule in promoting the plant growth and root elongation.