3814-18-4Relevant articles and documents
Rational design of fluorescent probes for targeted: In vivo nitroreductase visualization
Chen, Ji-An,Gao, Jie,Gu, Xianfeng,Li, Mimi,Tan, Jiahui,Yin, Xiaofan,Zhao, Zhen
supporting information, p. 4744 - 4747 (2020/07/13)
Nitroreductase (NTR) has been recognized as a biomarker for identifying the hypoxic status of cancers. Therefore, it is of high scientific interest to design effective fluorescent probes for tracking NTR activity. However, studies on elucidation of the structure-performance relationship of fluorescent probes and those providing valuable insight into optimized probe design have rarely been reported. Three BODIPY based fluorescent probes were made by conjugation of para-, ortho-, and meta-nitrobenzene to the BODIPY core via a thiolether bond, respectively. Our study revealed that the linkage and nitro substituent position significantly influence the capability of nitroreductase detection.
No-carrier-added [18F]fluoroarenes from the radiofluorination of diaryl sulfoxides
Chun, Joong-Hyun,Morse, Cheryl L.,Chin, Frederick T.,Pike, Victor W.
supporting information, p. 2151 - 2153 (2013/03/14)
No-carrier-added [18F]fluoroarenes were synthesized through the radiofluorination of diaryl sulfoxides with [18F]fluoride ion. Diaryl sulfoxides bearing a para electron-withdrawing substituent readily gave the corresponding 4-[18F]fluoroarenes in high RCYs. This process broadens the scope for preparing novel 18F-labeling synthons and PET radiotracers.
A general and efficient approach to aryl thiols: Cul-catalyzed coupling of aryl iodides with sulfur and subsequent reduction
Jiang, Yongwen,Qin, Yuxia,Xie, Siwei,Zhang, Xiaojing,Dong, Jinhua,Ma, Dawei
supporting information; scheme or table, p. 5250 - 5253 (2009/12/28)
A Cul-catalyzed coupling reaction of aryl iodides and sulfur powder takes place in the presence of K2CO3 at 90 °C. The coupling mixture is directly treated with NaBH4 or triphenylphosphine to afford aryl thiols in good to