Browsing by Subject "Promega Corporation"
Now showing 1 - 2 of 2
- Results Per Page
- Sort Options
Item Beta Testing and the Population Genetics of Promega's Prototype PowerPlex Y Kit(2004-08-01) Kirkendoll, Ross A.; Joseph Warren; John Planz; Arthur EisenbergDevelopmental validation is typically done by the manufacturer of the technique or technology. According to National Standards, the manufacturer must test for human specificity to ensure compliance with standards. In addition, the PowerPlex Y kit must be shown to have male specificity because all of the loci are located on the Y-chromosome. Other necessary studies include mixture both male/female and male/male mixture studies, stability studies to show stability in the presence of environmental insults, and the focus of this study the construction of a popular database. In order to satisfy both the requirement of the National Standards and the scrutiny of the legal system, Promega Corporation assembled a collaboration of different laboratories to assist with the developmental validation of the PowerPlex Y Kit. This project was a small part of that collaboration. The DNA Identify Laboratory was chosen by Promega to assist with the construction of a population database because of the number of samples available and the need for confirmed father/son pairs. The objectives of the study were to type ~200 father/son pairs from each of the Caucasian and African American races, and then determine the haplotype frequencies, haplotype diversities, and mutation rates for each race.Item Evaluation and Validation of Tecan Genios Microplate Reader for Quantification and Normalization of Family Reference DNA Samples(2007-08-01) Fuqua, Lauren; John Planz; Arthur Eisenberg; Joseph WarrenIn 2001, the Texas State legislation established the Texas Missing Persons DNA Database (TMPDD) at the University of North Texas System Center for Human Identification Laboratory. Texas was the first state to participate in the missing persons section of the federal (FBI) database titles Combined DNA Index System or CODIS. Two indices of CODIS include the Unidentified Human Remains index and the Relatives of Missing Person index. Medical specimens, such as bone marrow or blood, or personal items used only by the missing person, such as a toothbrush or hairbrush, are ideal for identifying human remains through comparison of DNA profiles; although, DNA samples can be taken from family members to help locate missing persons or identify remains. DNA profiles from family reference samples, such as blood or buccal swabs from a close relative, are analyzed and uploaded into CODIS to allow federal, state, and local crime laboratories to exchange and compare profiles to missing persons electronically. At the University of North Texas Health Science Center, family reference samples, missing person reference samples, and unidentified human remains are analyzed to obtain DNA profiles for comparison. This research project involves a method that is proposed to improve the efficiency of DNA analysis for family reference samples. At the UNT System Center for Human Identification laboratory, the family reference samples are extracted in batches of 86 using the Tecan Freedom EVO® 100 extraction robot with the DNA IQ™ extraction kit from Promega Corporation. The DNA IQ™ extraction process is used in conjunction with the EVO® 100 robot in order to obtain a consistent amount of total extracted DNA; although, substantial variation has been detected in the output DNA quantity delivered. A considerable percentage (~20%) of samples exceed the optimal input template DNA amount required for successful amplification using the Applied Biosystems AmpFʅSTR® kits. A method of normalizing these samples was needed to bring the standard input DNA range within the optimal analytical range of the Applied Biosystems 3130 Genetic Analyzers and GeneMapper™ ID software. The ultimate objective of this internship practicum was to improve the efficiency of DNA analysis for family reference samples by using the Tecan GENios microplate reader in conjunction with an OliGreen® assay to estimate DNA quantity with the aim of using the quantification values to normalize family reference samples into an ideal input range for genetic analysis.