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Messenger Rna Profiling: A Prototype Method For Body Fluidand Tissue Identification

Conventional methods of body fluid identification use labor-intensive, technologically diverse techniques that are performed in a series, not parallel, manner and are costly in terms of time and sample. Furthermore, for some frequently encountered body fluids, such as saliva or vaginal secretions, no confirmatory technique exists. Terminally differentiated cells, such as blood lymphocytes or epithelial cells lining the oral cavity, have a unique pattern of gene expression, which is evinced by the presence and relative abundance of specific mRNA species. If the type and abundance of mRNAs can be determined in a stain or tissue sample recovered at the crime scene, it would be possible to definitively identify the tissue or body fluid in question. Advantages of an mRNA-based approach, compared to conventional biochemical analysis, include greater specificity, simultaneous and semi-automated analysis though a common assay format, improved timeliness, decreased sample consumption and compatibility with DNA extraction methodologies. In this report, we demonstrate that RNA is stable in biological stains and can be recovered in sufficient quantity and quality for analysis using reverse transcriptasepolymerase chain reaction assay (RT-PCR). We have identified sets of candidate tissuespecific genes for body fluids and tissues of forensic interest, namely blood, saliva, semen, vaginal secretions, menstrual blood, urine, skin, muscle, adipose, and brain. We also report the identification of a new housekeeping gene for use in mRNA based assays. Select body fluid-specific genes have been incorporated into multiplex PCR and real-time PCR assays. These assays allow for the positive identification of blood, saliva, semen,vaginal secretions, and/or menstrual blood in a stain. The final task of this work was the molecular characterization of mRNA degradation patterns in biological stains, which not only has fundamental importance in possibly revealing mRNA degradation pathways in dried biological stains, but may ultimately lead to better assay design strategies for mRNA markers for forensic use. An mRNA-based approach described in this report could allow the facile identification of the tissue components present in a body fluid stain and could conceivably supplant the battery of serological and biochemical tests currently employed in the forensic serology laboratory.

Identiferoai:union.ndltd.org:ucf.edu/oai:stars.library.ucf.edu:etd-1577
Date01 January 2005
CreatorsJuusola, Jane
PublisherSTARS
Source SetsUniversity of Central Florida
LanguageEnglish
Detected LanguageEnglish
Typetext
Formatapplication/pdf
SourceElectronic Theses and Dissertations

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