高尔基体
对偶(语法数字)
粘度
荧光
化学
生物物理学
纳米技术
材料科学
生物化学
生物
光学
物理
细胞
复合材料
文学类
艺术
作者
Ze-Yi Lian,Pan‐Dong Mao,Kun-Sheng Jin,Wei-Na Wu,Linyan Bian,Yuan Wang,Yun-Chang Fan,Zhi-Hong Xu,Tony D. James
标识
DOI:10.1016/j.snb.2025.137933
摘要
The Golgi apparatus is responsible for regulating the transport of proteins. Research has revealed that an increase in viscosity and sulfur dioxide (SO 2 ) levels in the Golgi are associated with many diseases. Unfortunately, no probes currently exist to simultaneously measure variations in viscosity and SO 2 in the Golgi apparatus. With this research, we modified a coumarin-cyanoacetamide probe ( 1 ) with a sulfanilamide moiety for targeting the Golgi apparatus. Probe 1 could respond to viscosity increases by exhibiting fluorescence enhancements at 590 nm due to the inhibition of intramolecular rotation. Moreover, the nucleophilic attack of the C=C bond by HSO 3 − resulted in creating a conjugate addition product that generated a blue emission band at 480 nm. Significantly, this probe can identify HSO 3 − in real water samples and food specimens, as well as monitor HSO 3 − levels and changes of viscosity in the Golgi apparatus of plants, live cells, and zebrafish. • A coumarin-cyanoacetamide probe 1 was designed with a sulfanilamide moiety for Golgi-targeting. • Probe 1 exhibited excellent dual response to HSO 3 − and viscosity changes. • Probe 1 was used to detect HSO 3 − in real water samples and food specimens. • Probe 1 was used for bioimaging HSO 3 − and viscosity changes in the Golgi of HeLa cells, Arabidopsis thaliana , and zebrafish.
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