The Development and Application of Nanohoops as Novel Fluorescent Probes for Biological Applications

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Date

2020-12-08

Authors

Lovell, Terri

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University of Oregon

Abstract

Fluorescent molecules are imperative for the detection of diseases and observation of complex biological processes in living systems. A wide variety of small molecule fluorophores are available, however they each come with their limitations. An entirely new scaffold with enhanced photophysical properties, tunability, and chemical stability would be advantageous. Herein, we present our efforts in designing and applying nanohoops as novel fluorophores for biological applications. Chapter I reviews commonly used small molecule fluorophores and how to tune their photophysical properties using physical organic chemistry concepts. Chapter II describes how to enhance the brightness of nanohoops to make them suitable for biological imaging. Chapter III demonstrates how to shift the fluorescence of nanohoops further red, which is desirable for cellular imaging. Chapter IV reports the first intracellular targeted nanohoop for live cell imaging. Lastly, Chapter V describes our efforts to broadly apply nanohoops as novel fluorophores for protein and DNA labelling. This dissertation describes the pronounced strides made towards developing nanohoops as novel fluorophores for biotechnology. This dissertation includes previously published and unpublished co-authored material.

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