Chinese

Hg2+ rhodamine fluorescent probe bearing flexible ɑ-amino acid hydrazines and its photoactivation under UV light

Date: 2024-03-04    Source: 


                                                       Dan Wu, Mingyue Ma, Meiling Zhang, Yannan Xiao, Haibo Yu, Zhihui Cheng

                                                                  College of Environmental Sciences, Liaoning University

                                                                                                      Xinfu Zhang, Yi Xiao

                                                        State Key Laboratory of Fine Chemicals, Dalian University of Technology

                                                                                                           Yihang Shao

                                                                                                Shiyan North High School


Abstract

The regulation factors of rhodamine spirolactam switch has captured great attention because of its great potential applications in super-resolution image and fluorescent probe fields. Herein, we developed two Hg2+ rhodamine probe bearing flexible ɑ-amino acid hydrazines, Rh-SH and Rh-MH, to investigate photo-operated rhodamine switch induced by Hg2+. The Hg2+ binding process with Rh-SH containing serine hydrazines moiety was more sensitive to UV light, owing to weak affinity with Hg2+. On the contrary, UV light had little effect on Hg2+ binding process of Rh-MH bearing methionine hydrazine group. The strong Hg2+ binding affinity of Rh-MH demonstrated a higher sensitivity to Hg2+, and detection limit of Rh-MH was 2.32 × 10− 6 M. Probe Rh-MH can also map the distribution of Hg2+ in mitochondria of MCF-7 cells. The modulation of binding affinity of flexible ɑ-amino acid hydrazine with Hg2+ might provide new opportunity and strategy to photo-promoted ring switch of rhodamine spirolactam.


Read the full article here:   66-Hg2+rhodamine fluorescent probe bearing flexible ɑ-amino acid hydrazines and its photoactivation under UV light.pdf