Theoretical Study on the Photoinduced Electron Transfer Mechanisms of Different Peroxynitrite Probes.
Li LiMinghui ZanXingwang QieJuan YuePeng MiaoMingfeng GeZhimin ChangZheng WangFu Quan BaiHong-Xing ZhangJames K FerriWen-Fei DongPublished in: The journal of physical chemistry. A (2017)
The development of probes for rapid and selective detection of peroxynitrite in vivo is of great importance in biological science. We investigate different photoinduced electron transfer (PIET) processes of two generations of peroxynitrite probes. Each has fluorescein and phenol moieties; one is conjugated by an ether linkage while the other is conjugated via an amine linkage. Using theoretical calculations, we demonstrated that the PIET in the probe with an ether linkage occurs from the benzoic acid to the xanthene moiety. In contrast, the PIET in the probe with an amine linkage occurs from the phenol moiety to the fluorescein. This suggests that better sensitivity can be accomplished in probes with an amine linkage than with an ether linkage. Following this model, we designed two novel peroxynitrite probes and simulated their detection capabilities in the near-infrared region.
Keyphrases
- living cells
- electron transfer
- fluorescent probe
- hiv testing
- genome wide
- single molecule
- small molecule
- loop mediated isothermal amplification
- men who have sex with men
- fluorescence imaging
- public health
- magnetic resonance
- dna methylation
- quantum dots
- computed tomography
- gene expression
- molecular dynamics
- hiv infected
- human immunodeficiency virus
- sensitive detection
- hepatitis c virus
- molecular dynamics simulations
- contrast enhanced