Identifier

etd-11142008-071704

Degree

Doctor of Philosophy (PhD)

Department

Chemistry

Document Type

Dissertation

Abstract

This dissertation explores the development of analytical methods for studies of CVD biomarkers and related biomolecular indicators. Initially, spectroscopic studies were conducted to investigate the chemical reactivity of homocysteine (Hcy), an independent CVD risk factor and serological biomarker. Consequently, we proposed an alternate theory for in vivo Hcy clearance based on spontaneous pyridoxal tetrahydrothiazine (PT) formation from Hcy and pyridoxal. The validity of PT-assisted Hcy clearance was further evaluated by use of capillary electrophoretic methods, which allowed rapid monitoring of protein oligomerization in PT-protein reaction mixtures. The results of these studies suggest that PT formation is a plausible mechanism for Hcy clearance. Moreover, PT formation was shown to protect proteins from post-translational modification by homocysteine thiolactone. This dissertation also addresses the need for rapid and direct detection methods for CVD biomarkers. Accordingly, we introduced the first plasmon resonant GNP sensing scheme for protein homocystamide. The nanosensor provides visual conformation of protein homocystamide (N-Hcy-protein) by way of a red-to-blue color change. Further sensor investigations conducted with protein nanobioconjugates revealed that the GNP sensing mechanism is dependent on several complex physiochemical and biomolecular interactions including nanoparticle self-assembly, interparticle disulfide cross-linking, and modification-induced protein conformational changes. This dissertation also continues previous atherosclerotic tissue characterization studies by demonstrating the feasibility of using hybrid organic-immunoaffinity extraction for GC-MS analysis of polycyclic aromatic hydrocarbons in human heart plaque samples. This body of work is significant because it proposes new bioanalytical technologies that could enhance CVD screening and treatment.

Date

2008

Document Availability at the Time of Submission

Release the entire work immediately for access worldwide.

Committee Chair

Isiah M. Warner

Included in

Chemistry Commons

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