Major
Chemistry
Research Abstract
Theranostic agents, a class of molecules that simultaneously serve both a diagnostic and therapeutic function, enable in vivo imaging for early diagnosis and targeted drug delivery within a single entity. Due to recent advances in the synthesis and photophysical properties of the rhodamine scaffold, rhodamine dyes present a promising new direction for theranostic research. Toward the goal of exploring rhodamine dyes as self-immolative prodrugs for theranostic applications, we have synthesized a rhodamine precursor via a telescoped radical bromination/hydrolysis. Upon completion of the full rhodamine synthesis, we will explore and optimize the kinetics of its “turn-on” fluorescence and drug release in vitro.
Faculty Mentor/Advisor
Herman Nikolayevskiy
Included in
Synthesis of Self-Immolative Rhodamine Based Theranostic Agent
Theranostic agents, a class of molecules that simultaneously serve both a diagnostic and therapeutic function, enable in vivo imaging for early diagnosis and targeted drug delivery within a single entity. Due to recent advances in the synthesis and photophysical properties of the rhodamine scaffold, rhodamine dyes present a promising new direction for theranostic research. Toward the goal of exploring rhodamine dyes as self-immolative prodrugs for theranostic applications, we have synthesized a rhodamine precursor via a telescoped radical bromination/hydrolysis. Upon completion of the full rhodamine synthesis, we will explore and optimize the kinetics of its “turn-on” fluorescence and drug release in vitro.