Showing total 3 results

1. Potential effects of ionizing radiation on the evidentiary value of DNA, latent fingerprints, hair, and fibers: A comprehensive review and new results

Author

Michael D. Brandhagen, Kyle R. Tom, Aaron L. Washington, Keith L. Monson, Karen K. Lowe, Constance L. Fisher, Martine C. Duff, Sherine Ali, Carna E. Meyer, and Maria Antonia Roberts

Subjects

Paper, Mitochondrial DNA, Genotype, Blood Stains, Radiation Dosage, DNA, Mitochondrial, 01 natural sciences, Fluorescence, Pathology and Forensic Medicine, Ionizing radiation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Gamma dose, Radiation, Ionizing, Humans, Cotton Fiber, 030216 legal & forensic medicine, Irradiation, Dermatoglyphics, Human blood, 010401 analytical chemistry, DNA, Sequence Analysis, DNA, DNA Fingerprinting, 0104 chemical sciences, chemistry, Biophysics, Law, Hair, Microsatellite Repeats

Abstract

An extensive literature review and new post-irradiation experimental results are presented of genotyping blood stains and hair, and physical examinations of latent fingerprints, hairs, and fibers. Results indicate that successful development of nuclear short tandem repeat (STR) and mitochondrial DNA sequence profiles from human blood and hair evidence is possible-up to a point-following exposure to gamma, neutron, beta, and alpha radiation at several levels that would most likely be present at this type of crime scene (i.e., a "dirty bomb," etc.). Commencing at gamma radiation levels between 90 and 900kGy, DNA analysis using conventional DNA techniques was unsuccessful. In general, irradiation negatively affected the quality of latent fingerprints. All four radiation types degraded most fingerprint samples at all doses; nevertheless, many fingerprints remained of value for potential use in comparison. Although variable from one hair to another, microscopic changes observed for all types and levels of irradiation could potentially result in false exclusions. Negligible microscopic changes were observed in papers and fibers (used as substrates for fingerprints and bloodstains) up to 90kGy gamma, but fluorescence of fibers began to change above that dose. Paper and fibers, as well as plastic evidence enclosures, became extremely brittle leading to breakage after a gamma dose of 900kGy.

Published

2018

2. STR genotyping and mtDNA sequencing of latent fingerprint on paper

Author

Peter M. Schneider, Joachim Burger, Klaus Bender, Kurt W. Alt, and M.Kinga Balogh

Subjects

Paper, Mitochondrial DNA, Genotype, Sequence analysis, Computational biology, Biology, DNA, Mitochondrial, Polymerase Chain Reaction, Latent fingerprint, Pathology and Forensic Medicine, law.invention, law, Humans, Typing, Dermatoglyphics, Genotyping, Alleles, Polymerase chain reaction, Electrophoresis, Agar Gel, Genetics, Sequence Analysis, DNA, DNA Fingerprinting, Tandem Repeat Sequences, Microsatellite, Low copy number, Law

Abstract

A systematic study was conducted to investigate whether DNA can be successfully extracted from latent fingerprints deposited on ordinary paper and analysed using short tandem repeat profiling and mitochondrial DNA sequencing. In order to evaluate the performance of latent fingerprint analysis in a criminal case, experiments with varying conditions were carried out to improve our understanding of low copy number (LCN) DNA typing. After optimising the extraction methods to achieve increased sensitivity, the examination of touched paper can routinely yield the STR profile of the individual who has touched it. A fingerprint can therefore be considered as a potential source of DNA for genetic identification. Nevertheless, the findings of our "after enhancement experiment" (using chemically or physically pre-treated fingerprints), and our "mixture experiment" (using fingerprints from three to four people on the same sheet of paper) help to define the limitations of the low copy number PCR technique in forensic casework.

Published

2003

3. Biochemical identification of cutaneous leishmanias by analysis of kinetoplast DNA. II. Sequence homologies in Leishmania kDNA

Author

Douglas C. Barker and David E. Arnot

Subjects

Male, Paper, Buoyant density, DNA, Mitochondrial, DNA sequencing, chemistry.chemical_compound, Species Specificity, parasitic diseases, Methods, Humans, A-DNA, Leishmaniasis, Molecular Biology, Southern blot, Sequence (medicine), Electrophoresis, Agar Gel, Leishmania, Genetics, Base Sequence, biology, Nucleic Acid Hybridization, DNA Restriction Enzymes, Diazonium Compounds, biology.organism_classification, Molecular biology, chemistry, Kinetoplast, Female, Parasitology, DNA

Abstract

Kinetoplast DNA (kDNA) has been isolated from the human cutaneous Leishmania isolates, L. tropica major, L. aethiopica and an unknown Kenyan isolate, Leishmania SP48. DNA sequence relationships among these isolates have been studied by restriction enzyme digestion and two phase hybridisation to Southern blots of kDNA covalently coupled to diazobenzyloxymethyl (DBM) paper. The results of this analysis confirm that rapid kDNA sequence evolution is occurring in the Old World leishmanias although some sequence conservation in defined regions of the mini-circle sequence is present. These results emphasise the danger of constructing a rigid Leishmania classification on buoyant density data alone. The covalent binding of kDNA electrophoretic separations to DBM paper permits the construction of a DNA sequence "library' which can be used in the classification and diagnosis of unknown Leishmania isolates.

Published

1981