876752-79-3Relevant academic research and scientific papers
Synthesis of chemical-biology tools enabling in vivo imaging and analysis of epigallocatechin gallate
Asakawa, Tomohiro,Yoshida, Atsushi,Hirooka, Yasuo,Suzuki, Takashi,Itoh, Kunihiko,Shimizu, Kosuke,Oku, Naoto,Furuta, Takumi,Wakimoto, Toshiyuki,Inai, Makoto,Kan, Toshiyuki
, p. 218 - 242 (2017/03/14)
(-)-Epigallocatechin gallate (EGCg) has multiple bioactivities, and imaging/analytical tools are required for drug development studies. Here we present full details of our synthetic studies aimed at providing building blocks for development of such tools,
Concise synthesis of catechin probes enabling analysis and imaging of EGCg
Yoshida, Atsushi,Hirooka, Yasuo,Sugata, Yusuke,Nitta, Mariko,Manabe, Tamiko,Ido, Shunsuke,Murakami, Kouki,Saha, Repon Kumer,Suzuki, Takashi,Ohshima, Motohiro,Yoshida, Akira,Itoh, Kunihiko,Shimizu, Kosuke,Oku, Naoto,Furuta, Takumi,Asakawa, Tomohiro,Wakimoto, Toshiyuki,Kan, Toshiyuki
supporting information; experimental part, p. 1794 - 1796 (2011/04/22)
A concise synthesis of APDOEGCg (3) was accomplished. Due to the reactivity of its amine group, the compound could be easily converted to the fluorescein probe 21 and immunogen probe 22 efficiently. We then demonstrated the usefulness of the probes for im
The Pennsylvania Green fluorophore: A hybrid of Oregon Green and Tokyo Green for the construction of hydrophobic and pH-insensitive molecular probes
Mottram, Laurie F.,Boonyarattanakalin, Siwarutt,Kovel, Rebecca E.,Peterson, Blake R.
, p. 581 - 584 (2007/10/03)
Fluorescent small molecules are powerful tools for exploring cellular biology. As a more hydrophobic, photostable, and less pH-sensitive alternative to fluorescein, we synthesized Pennsylvania Green, a bright, monoanionic fluorophore related to Oregon Gre
