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The fundamental objective of this project is to design, synthesize, and characterize fluorescent dyes, which may be utilized in super resolution imaging techniques. In Chapters 1, 2 and 3, we concentrated on photoswitchable rhodamine dyes. We synthesized several rhodamine dyes and increased their water solubility, installed a bioconjugation unit and, more importantly, we optimized the absorption properties (close to 400 nm) of the rhodamine spirolactams in their closed state and studied their basic photophysical properties as well. In Chapter 4, we synthesized azido-DCDHF fluorogens that can be converted to the bright state after a 1,3-dipolar cycloaddition reaction between an azide-Ph-DCDHF and a strained alkene. We synthesized some strained alkenes, which may speed up the kinetics in 1,3-dipolar cycloaddition. This chemical method of turning the dyes from dark to bright state is a new dimension in the bioconjugation arena. In Chapter 5, we synthesized Nile red derivatives which can switch to a bright state from a dark state by collision on the cell surface utilizing PAINT methodology. We expected that the design of new Nile red derivatives may have better properties than the parent Nile red. Besides the PAINT technique, we worked on some active control of emission by enzymatic cleavage of fluorescent dyes in a dark state to the bright state, which can be utilized in super resolution imaging. Related to the 1,3-dipolar cycloaddition reaction between azido-DCDHF and norbornene, we have examined recently popularized tetrazine chemistry. We linked pyridyl tetrazines to DCDHF with short spacer. In Chapter 6, we describe the preparation of co-crystals between perfluorophenazine and several polynuclear aromatic compounds/polynuclear heteroaromatic compounds. In Chapter 7 we describe the preparation of some partially fluorinated heteropolynuclear aromatic compounds such phenzaine and acridine class of compounds for possible use in organic semiconductors.
Alzheimer’s disease (AD) is characterized by two main protein aggregate hallmarks in the brain: extracellular deposition of the amyloid-? (A?) in senile plaques and intracellular neurofibrillary tangles (NFTs) consisting of hyperphosphorylated tau protein. The past decade has seen great progress in the development of imaging probes for the non-invasive detection of A? and tau aggregates. Here positron emission tomography (PET), single-photon emission computed tomography (SPECT) and magnetic resonance imaging (MRI), are highly promising technologies for clinical diagnostics. However, as a research tool, optical imaging is superior because it is real-time, sensitive, inexpensive, not radioactive and that it in particular affords high-resolution studies both in vitro and in vivo. Fluorescent probes are especially useful for designing novel binding scaffolds for structure investigations of protein aggregates. This thesis describes design, synthesis and evaluation of a series of fluorescent probes for detection of amyloid fibrils, especially A? or tau aggregates in vitro. Firstly, trans-stilbenoid vinylbenzene-1,2-diol with benzene, naphthalene, anthracene, and pyrene are investigated with respect to their photophysical properties free in solution and when bound to amyloid fibrils, including time-resolved fluorescence measurements. It is noted that the extended conjugated systems retained the amyloid targeting properties of the probes and both the anthracene and pyrene moieties extensively enhanced the fluorescence intensity and prolonged lifetimes. Secondly, the synthesis of two molecules, Py1SA and Py2SA, based on pyrene linked to salicylic acid via a trans-stilbene C = C bond is presented. The compounds show strikingly different emission spectra when bound to preformed A?1-42 fibrils as well as to fibrils from four other distinct proteins. Additionally, excited state intramolecular proton transfer (ESIPT) coupled-charge transfer (ICT) is observed for the anionic form of the probes in polar solvents. This is likely the reason for the spectral differences of the probes when bound to amyloid fibrils. Moreover, the synthesis of a further development of the Congo red analogue X-34 [2,5-bis(4’-hydroxy-3’-carboxy-styryl) benzene] by rational design and synthesis is described. Full photophysical characterization was performed, including recording absorbance and fluorescence spectra, Stokes shift, quantum yield and fluorescence lifetimes. All ligands displayed high affinity towards recombinant amyloid fibrils of A?1-42 and tau as well as selectivity towards the corresponding disease-associated protein aggregates in human post mortem AD tissue. Lastly, the synthesis of a set of 2,1,3-benzothiadiazole (BTD)-based ligands with different conjugated spacers and variable patterns of OH substitutions of bis-styryl-BTD prototypes were developed. A? binding affinities (A?1-42 and A?1-40 fibrils) and the specificity towards A? plaques of all ligands were determined. These findings extend the structure to activity relationships of BTD-based ligands for A? fibril binding. Throughout the studies in this dissertation, new interesting properties of small molecule fluorescence probes have been discovered and analyzed. This knowledge should facilitate the development of noninvasive probes for early detection of Alzheimer's disease and to distinguish different A? fibril polymorphs.
The design and synthesis of fluorescent chemosensor probes based on photoinduced electron transfer is discussed. First, the design of a series of probes to detect the presence of divalent metal cations is discussed. Next, the results for an existing probe for divalent cations are examined. Computational chemistry is used to provide a possible answer to its selectivity. This method of examination suggests that the probes selectivity is due to the bonding involved in analyte coordination. Then, the design of a series of probes to detect the presence of mono-, di-, and, trivalent hydrocarbon anions is discussed. From this discussion, the synthesis of a single probe from that series as well as characterization and the spectrophotometric results from its titration with pyruvate, malate, and citrate is discussed, respectively. The probe was found to be more selective and sensitive toward pyruvate. Work is currently underway to design and synthesize other series of probes to detect this family of anion.