Evaluation of New Technologies for Forensic DNA Analysis

Divne, Anna-Maria

January 2005

<p>DNA samples from crime scenes or mass disasters are often limited and degraded which limits the possibility of successful traditional STR analysis. Moreover, there is a need to decrease the turnaround time in criminal investigations. These circumstances require a wider set of assays and technologies to be investigated for potential use in forensic DNA analysis, which has been explored in this thesis work. DNA analysis can also provide a useful tool in forensic pathology investigations. </p><p>In a search for mutations involved in The Sudden Infant death Syndrome (SIDS), the entire mitochondrial genome was sequenced in six SIDS infants and shorter mtDNA regions were analysed in paraffin-embedded tissues from an additional 14 SIDS cases. In this sample material no mutations associated with SIDS were found that could explain the death of these infants. </p><p>To reduce time, cost and effort related to sequencing of the mtDNA HVI/HVII regions in caseworks, a HVI/HVII mtDNA linear array assay was used as a pre-screening for exclusions of suspects or evidence samples. Using this assay, 56% of the samples involved in casework analysis could be excluded before sequencing was undertaken.</p><p>The possibility to use the new array technology was explored in a SNP assay targeting both mtDNA and nuclear SNPs. The system relies on minisequencing in solution prior to hybridisation to tag arrays. Using this system, we demonstrate a rapid, highly multiplexable and flexible array-format for SNP analysis.</p><p>The properties of the Pyrosequencing technology being a fast and user-friendly assay was utilised in a study to investigate the possibility to use this method for limited and degraded samples. Ten STR loci, overlapping with standardised kits, were genotyped in 114 Swedish individuals. We found additional variation and higher resolution of repeats at some of these loci that are not detected using standard fragment analysis.</p>

Genetics

STR

SNP

SIDS

mtDNA

HVI/HVII SSOP linear array

minisequencing

tag arrays

Pyrosequencing

Genetik

Clinical genetics

Klinisk genetik

Evaluation of New Technologies for Forensic DNA Analysis

Divne, Anna-Maria

January 2005

DNA samples from crime scenes or mass disasters are often limited and degraded which limits the possibility of successful traditional STR analysis. Moreover, there is a need to decrease the turnaround time in criminal investigations. These circumstances require a wider set of assays and technologies to be investigated for potential use in forensic DNA analysis, which has been explored in this thesis work. DNA analysis can also provide a useful tool in forensic pathology investigations. In a search for mutations involved in The Sudden Infant death Syndrome (SIDS), the entire mitochondrial genome was sequenced in six SIDS infants and shorter mtDNA regions were analysed in paraffin-embedded tissues from an additional 14 SIDS cases. In this sample material no mutations associated with SIDS were found that could explain the death of these infants. To reduce time, cost and effort related to sequencing of the mtDNA HVI/HVII regions in caseworks, a HVI/HVII mtDNA linear array assay was used as a pre-screening for exclusions of suspects or evidence samples. Using this assay, 56% of the samples involved in casework analysis could be excluded before sequencing was undertaken. The possibility to use the new array technology was explored in a SNP assay targeting both mtDNA and nuclear SNPs. The system relies on minisequencing in solution prior to hybridisation to tag arrays. Using this system, we demonstrate a rapid, highly multiplexable and flexible array-format for SNP analysis. The properties of the Pyrosequencing technology being a fast and user-friendly assay was utilised in a study to investigate the possibility to use this method for limited and degraded samples. Ten STR loci, overlapping with standardised kits, were genotyped in 114 Swedish individuals. We found additional variation and higher resolution of repeats at some of these loci that are not detected using standard fragment analysis.

Genetics

STR

SNP

SIDS

mtDNA

HVI/HVII SSOP linear array

minisequencing

tag arrays

Pyrosequencing

Genetik

Clinical genetics

Klinisk genetik

Application of Mitochondrial DNA Analysis in Contemporary and Historical Samples

Lembring, Maria

January 2013

The mitochondrion is a tiny organelle that is the power supplier of the cell and vital to the functioning of the body organs. Additionally it contains a small circular genome of about 16 kb, present in many copies which makes the mitochondrial DNA more viable than nuclear DNA. Mitochondrial DNA is also maternally inherited and thus provides a direct link to maternal relatives. These two properties are of particular use for forensic samples, which only contain limited or degraded amounts of DNA, and for historical samples (ancient DNA). This thesis presents work on the mitochondrial DNA in the hypervariable regions (HV) I and II, in both contemporary and historical samples. Forensic genetics makes use of mitochondrial DNA analysis in court as circumstantial evidence, and population databases are used for the calculation of evidence value. Population samples (299) across Sweden have been analysed in order to enrich the EDNAP mtDNA database (EMPOP) (paper I). The application of mitochondrial DNA analysis allowed for analysis of historical skeletal remains: Copernicus, 1473-1543 (paper II), Karin Göring, 1888-1931 (paper III) and Medieval bones, 880-1000 AD, from a mass grave found in Sigtuna, Sweden (paper IV). The thesis also includes analyses of bones and teeth from the shipwrecked crew of the Vasa warship, 1628, samples from the Vasa museum, Stockholm, Sweden (paper V). Overall, the varying age of the samples and the different conservation environments (soil and water) accounted for variations in quality, but still allowed for successful DNA analysis.

Forensic genetics

Mitochondrial DNA

HVI/HVII

Population database

Haplotype

Haplogroup

Ancient DNA

Historical DNA samples

skeletal remains

Vasa museum

Medieval samples

Copernicus

Göring

Mitochondrial DNA in Sensitive Forensic Analysis

Nilsson, Martina

January 2007

<p>Genetic profiling is commonly performed on the autosomes using multiple DNA markers. Although routine forensic DNA analysis is robust and based on reliable technologies, samples with degraded or limited amounts of DNA often fail. In these cases, the analysis of mitochondrial DNA (mtDNA) can be very valuable due to the high copy number per cell. This thesis describes evaluation and modifications of existing technologies that are useful in forensic DNA typing, mainly focusing on mtDNA.</p><p>DNA quantities isolated from common evidence materials such as hairs, fingerprints and accessories were estimated using a real-time quantification assay. Knowledge of quantitative differences between materials can guide forensic scientists to perform the best analysis (Paper I).</p><p>The current mtDNA analysis is based on hypervariable region (HVI/HVII) sequencing, which is the most rigorous and time-consuming forensic DNA analysis. Therefore, we evaluated the possibility to exclude individuals by screening for non-matching samples using the rapid and easy mtDNA Linear Array Assay (Paper II). </p><p>The major disadvantage using mtDNA is the lower discrimination power compared to multiple nuclear DNA markers. In contrast to the nuclear genome, due to the uniparental (maternal) mode of inheritance, no individual has unique mtDNA. We investigated the possibility of increasing the discrimination power by using pyrosequencing technology to analyse parts of the coding region in addition to HVI/HVII (Paper III). Furthermore, the addition of coding mtDNA information was evaluated by comparing several recently published mtDNA coding region assays (Paper IV). </p><p>Mixtures of DNA are common in forensic genetics due to contribution of DNA from several individuals, contamination or heteroplasmy. To resolve mixtures we have developed a pyrosequencing-based assay for the accurate quantification of the mtDNA mixture components (Paper V).</p><p>In conclusion, this thesis describes several assays that are valuable in forensic genetics for DNA quantification, improved mtDNA analysis, and mtDNA mixture interpretation.</p>

Genetics

Forensic genetics

Mitochondrial DNA

HVI/HVII

Nuclear DNA

Quantification

Real-time PCR

Immobilised SSO probe assay

Pyrosequencing

Discrimination power

Coding region

Mixtures

Genetik

Mitochondrial DNA in Sensitive Forensic Analysis

Nilsson, Martina

January 2007

Genetic profiling is commonly performed on the autosomes using multiple DNA markers. Although routine forensic DNA analysis is robust and based on reliable technologies, samples with degraded or limited amounts of DNA often fail. In these cases, the analysis of mitochondrial DNA (mtDNA) can be very valuable due to the high copy number per cell. This thesis describes evaluation and modifications of existing technologies that are useful in forensic DNA typing, mainly focusing on mtDNA. DNA quantities isolated from common evidence materials such as hairs, fingerprints and accessories were estimated using a real-time quantification assay. Knowledge of quantitative differences between materials can guide forensic scientists to perform the best analysis (Paper I). The current mtDNA analysis is based on hypervariable region (HVI/HVII) sequencing, which is the most rigorous and time-consuming forensic DNA analysis. Therefore, we evaluated the possibility to exclude individuals by screening for non-matching samples using the rapid and easy mtDNA Linear Array Assay (Paper II). The major disadvantage using mtDNA is the lower discrimination power compared to multiple nuclear DNA markers. In contrast to the nuclear genome, due to the uniparental (maternal) mode of inheritance, no individual has unique mtDNA. We investigated the possibility of increasing the discrimination power by using pyrosequencing technology to analyse parts of the coding region in addition to HVI/HVII (Paper III). Furthermore, the addition of coding mtDNA information was evaluated by comparing several recently published mtDNA coding region assays (Paper IV). Mixtures of DNA are common in forensic genetics due to contribution of DNA from several individuals, contamination or heteroplasmy. To resolve mixtures we have developed a pyrosequencing-based assay for the accurate quantification of the mtDNA mixture components (Paper V). In conclusion, this thesis describes several assays that are valuable in forensic genetics for DNA quantification, improved mtDNA analysis, and mtDNA mixture interpretation.

Genetics

Forensic genetics

Mitochondrial DNA

HVI/HVII

Nuclear DNA

Quantification

Real-time PCR

Immobilised SSO probe assay

Pyrosequencing

Discrimination power

Coding region

Mixtures

Genetik