Graduation Semester and Year

2011

Language

English

Document Type

Dissertation

Degree Name

Doctor of Philosophy in Chemistry

Department

Chemistry and Biochemistry

First Advisor

Richard Guan

Abstract

During the past decade, nanopore DNA sequencing has emerged as a revolutionary prospect towards a "$1000 genome" goal set by U.S. National Institute of Health. In the nanopore approach, electrophoretic movement of polynucleotide molecules through a nanopore would provide transient current blockades that are unique to each molecule. Since kilobase length DNA can be read directly without amplification or use of costly reagents such as enzymes and fluorescent tags, the nanopore approach can significantly reduce the sequencing cost. However, due to the rapid DNA translocation velocity through the nanopore, accurate detection of single nucleotide bases via the electrophoretically driven approach has not yet been achieved with the currently available recording technique. This dissertation work comprises of research that aim to reduce DNA translocation rate by 1) using organic salts and 2) via pH effect. In addition, nanopore detection of nerve agent hydrolytes and monitoring peptide cleavage are also included in this dissertation

Disciplines

Chemistry | Physical Sciences and Mathematics

Comments

Degree granted by The University of Texas at Arlington

Included in

Chemistry Commons

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