Date of Award

12-1-2005

Degree Type

Restricted Access Professional Report

Degree Name

Master of Science

Field of Study

Cell Biology and Genetics

Department

Graduate School of Biomedical Sciences

First Advisor

John Planz

Second Advisor

Joseph Warren

Third Advisor

Arthur Eisenberg

Abstract

Human STR analysis has greatly increased the ability to perform identity testing for many different situations. These situations include, but are not limited to, the identification of individuals involved in violent crimes, establishing paternity, and identification of unknown human remains. The most common type of DNA information currently used for identity testing is the short tandem repeat, or STR. STR testing utilizes the number of repeating units in the DNA to assign an allele. Alleles from several different loci are used to establish a genetic profile. Currently, the United States used a standard of 13 different DNA loci to establish identity. These 13 loci can be typed by using a number of different multiplex kits such as the Applied Biosystems Profiler Plus, Cofiler, and Identifiler Kits [1,2]. The 13 loci were selected based on a number of parameters. Each locus was required to be polymorphyic, and a tetranucleotide repeat. The loci also could not display any linkage between each other and extensive population studies had to be conducted to both verify the absence of linkage and to establish allelic frequencies [1]. The goal of this research was the construction of a more cost effective method of utilizing the Applied Biosystems Identifiler Kit. Across the country there is a large backlog of samples that need to be processed in order to obtain a genetic profile. If these samples could be tested using a more cost effective method, more funding could be directed to other endeavors. Paternity testing, as well as some research endeavors could be conducted at a fraction of the cost, leaving resources for other projects or additional staff. Although it would be inadvisable to use this technique on forensic samples, the implications on paternity and research samples would be positive. This research attempted to design a nested PCR reaction and subsequently dilute the Applied Biosystems Primers in order to reduce the cost. The first step was to design new primers for the first round of PCR, followed by testing of those primers. The new primers then required optimization so that they all worked effectively together. After optimization was accomplished, the Identifiler primers were diluted until loci began dropping out of the genetic profile.

Comments

W 4.8 M636C 2005

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