The Design And Development Of A Comprehensive 49 Locus Y-str Database For Major U.S. Populations

Berdos, Paulina Niki

01 January 2004

The establishment of a U.S. National Y-STR reference database from a variety of geographically and ethically diverse populations is essential to facilitate the generation of reliable estimates of Y-STR haplotype frequencies. Such multi-locus haplotype frequencies are required to provide a statistical estimate of the significance of a match. Y-STR loci, unlike traditional STR markers, are not independent of one another and are co-inherited as extended haplotypes of linked markers. The estimation of the frequency of occurrence of a particular haplotype therefore necessitates the use of a counting method, which means that the significance of many matches is dependent upon the size, in both the number of samples and the number of included loci, in the database. A U.S. Y-STR Haplotype Reference Database has been created by the International Forensic Y-User Group and is maintained by the Max Plank Institute for Evolutionary Anthropology, Leipzig, Germany. However, this database has been limited to a set of 9 core Y-STRs, limiting its operational usefulness, particularly in light of the development of novel Y-STR multiplexes consisting of additional loci. A key component of our developmental strategy is to allow for the continuous updating of haplotype data using the same samples. This ensures that as new markers are developed, the same samples would be re-typed, and a new extended haplotype developed, thus accommodating any laboratory needing haplotype data for any combination of Y-STR markers. The aid of geographically diverse crime laboratories was enlisted to obtain the necessary samples. In exchange for the samples, the crime laboratories benefit by obtaining a custom built no-cost local Y-STR database. Results on the development of a 49 locus Y-STR National Reference Database will be defined and information on the future establishment of web-based accessibility to the forensic community will also be provided.

Database

Haplotypes

Y STRS

Chemistry

Micromanipulation and Genetic Analysis of Individual Sperm Cells for Sexual Assault Investigations

Penn, Amanda

01 January 2019

Sexual assault investigations utilize both physical and biological evidence to aid in the investigation. Physical evidence may include fingerprints, hair, fibers, stains, soil, and glass. Biological evidence may include semen, saliva, vaginal secretions, menstrual blood, and skin. Semen, often found in small or trace quantities, is of great importance when trying to identify the perpetrator. From the semen sample, DNA profiles using autosomal short tandem repeats (aSTRs) (gold standard in forensic science) or Y-chromosome short tandem repeats (Y-STRs) can be obtained and can be used to identify a perpetrator through comparison to suspect reference samples or by searching the profile against a DNA database (CODIS). Obtaining DNA profiles can be challenging when assaults are reported many days after the incident. The amount of semen will decrease as the time frame increases due to various factors such as drainage from the vagina. To potentially overcome this obstacle and improve the recovery of profiles from extended interval samples, it may be possible to develop novel collection and analysis methods using individual or few sperm cells. Small quantities of sperm cells may still be present in extended interval samples that may otherwise fail to provide a DNA profile using conventional methods. The work presented here focuses on the development of these novel analysis methods using micromanipulation techniques and enhanced amplification strategies for the analysis of individual sperm cells to determine if a full DNA profile is present. The developed methods will be applied to the analysis of extended interval post coital samples.

micromanipulation

sperm cells

Y-STRs

autosomal-STRs

sexual assault

Biology

Y-STR profiling of four South African populations using the University of the Western Cape 10 locus set

Tsiana, Kebareng Jacobeth

January 2015

>Magister Scientiae - MSc / In this study the 10 Y-specific loci of the University of the Western Cape (DYS710, DYS518 385a/b, DYS644, DYS612, DYS626, DYS504, DYS447, DYS447, and DYS481) were analysed in 492 individuals from South African population groups. Four different populations namely; Zulu, Coloured, Afrikaner and Asian Indian were sampled. A total of 488 haplotypes were observed, 412 of which were unique. Haplotype diversity was 0.9981. Gene Diversity values ranged from 0.8075 for DYS447 to 0.9209 for DYS710. The discriminatory capacity was 0.9106 which is high. The study showed that the University of the Western Cape 10 locus is a powerful discrimination tool for routine forensic applications and could be used in genealogical investigations as compared to other commercial kits when used on the South African populations (Zulu, Coloured, Afrikaner and Asian Indian) considering its high discriminatory capacity. This data will be used for the establishment of a Y-STR DNA databases for South African population which would aid law enforcement authorities in the investigation and resolution of crimes AMOVA computed using haplotype frequencies showed that when male haplotypes from the four different populations were compared, 0.22 % of the total genetic variation was due to the variability among populations and 99.78 % of the total variation is found within populations. However AMOVA computed using distance matrix showed that 5.97 % of the total variation was due to variability among populations and 94.07 % of the total variation is found within populations. Genetic substructure was found among the four studied South African population groups. All the six population pairwise comparisons using AMOVA were significant .Therefore Y-STRs are very useful in comparing closely related populations. It should be noted that their utility for evolutionary purposes, they need to be combined more stable Y-DNA markers such as single nucleotide polymorphisms (SNPs). Factorial Correspondence Analysis (FCA) showed that the Coloured population has large genetic contribution from Afrikaner population and lesser contribution from the Zulu and Asian Indian population groups. / National Research Foundation (NFR)

Genotyping

Electrophoresis

Population

South Africa

A dual analysis of the South African Griqua population using ancestry informative mitochondrial DNA and discriminatory short tandem repeats on the Y chromosome

Heynes, Kirstie

January 2015

>Magister Scientiae - MSc / The primary objective of this Masters project was to investigate the maternal ancient substructure of the Griqua population in South Africa. Genetic ancestry was determined by investigating ancestry informative single nucleotide polymorphisms. These are located in the control region of the mitochondrial genome. The auxiliary aim was to test the validity of the UWC 10plex system in relation to a sample group of Griqua males. This short tandem repeat multiplex targets specific mutations confined to paternal lineages. The Khoi Khoi or Hottentots were the first inhabitants in the Cape. Indigenous Khoi Khoi female slaves had offspring with the European settlers in the 1800s which resulted in the Griqua population group. The incorporated European paternal ancestry is what set the Griqua apart from the native population groups at that time. Colonisation events from the mid-17th to 19th Century and the apartheid regime resulted in land dispossession of the native population and an extensively mixed gene pool in South Africa. One hundred and seventy six (N=176) male and female Griqua people were collectively sampled in Kokstad (2012), Vredendal (2012 and 2013) and at the Griqua National Conference in Ratelgat (2013). All 176 samples were analysed using mtDNA control region Sanger sequencing. The sample group (N=176) was separated based on birthplace (Origin sample group and post-colonial sample group). The origin sample group consists of individuals whose ancestors were not part of the Griqua Trek to Northern regions of South Africa and were less likely to be exposed to colonial influences. Mutations within the hypervariable segments of the mtDNA control region were used to infer haplogroups with geographic-specific population data. In this way one can plot the extent of ancient Khoisan (L0d) and Bantu influences (L1-L5) as well as the influence of East (M, A, B, E) and West (N, R, J, H) Eurasian haplogroups in the maternal ancestry of the Griqua population group. The origin sample group showed 91% African ancestry (76.8% L0d) while the post-colonial group had 78% African ancestry (60% L0d). The origin sample group had 2% East Eurasian and 7% West Eurasian ancestry, while the post-colonial group contained 20% Eurasian ancestry. There is greater admixture in the post-colonial group which can be attributed to the integration of surrounding populations during settlement periods in parts of the Northern Cape and KwaZulu-Natal. The UWC 10plex STR kit was tested to see if it could discriminate between male individuals of this admixed sample group (N=91 males). The markers for this multiplex were selected according to their ability to differentiate between individuals of African descent. It proved to be a viable Y chromosome short tandem repeat testing tool, displaying a statistically significant discrimination capacity value of 0.966 and only having 3 shared haplotypes in the sample group of 91 Griqua males. / National Research Foundation (NRF)

Griqua population

Single Nucleotide Polymorphisms

Mitochondrial DNA control region

Population structure and demographics in Nigerian populations utilizing Y-chromosome markers

Cole-Showers, Curtis Lanre

January 2014

Philosophiae Doctor - PhD / Nigeria is peopled by ethnically and linguistically diverse populations of which little were known until the last few millennial. The absence of major natural geographical barrier increases the possibility of the populations being affected by the same demographic events. The aim of this thesis was to ascertain the genetic variations and demographics in five major Nigerian populations using Y-markers. This was done by determining the genetic structures of the Afro-asiatic speaking Hausa (n=78) of Northern Nigeria and the Niger Congo speaking populations of Igbo (n=119), Yoruba (n=238), Bini (n=13) and Ijaw (n=15) of Southern Nigeria all spread over 22 geographical origins and four (North, South east, south west and South south) geographical regions. They were compared with more than 2000 individuals from 46 populations of 20 other African and Middle Eastern countries, in published literature. The Scientific Working Group on DNA Analysis Methods (SWGDAM) recommended Y-Short Tandem Repeats (STRs) and nine Y-Single Nucleotide Polymorphisms (SNPs) haplogroups were typed with multiplex Polymerase Chain Reaction (PCR), Restriction Fragment Length Polymorphisms (RFLP) and High Resolution Melting (HRM). Summary statistics and measures of diversity were determined. Population structure was assessed with Population Pairwise Differences, hierarchical Analysis of Molecular Variance, Multidimensional scaling and correspondence analysis plots. Mantel’s test was used to assess the correlation of genetic distances with geographic distances. Demographic inferences were assessed with lineage based Network reconstruction, Spatial autocorrelation plots, effective migrants per population and both Inter and Intra-lineages Times to the Most Recent Common Ancestor (TMRCA). The patterns of diversity of the Y-markers showed a North-South gradient and a notable sub-structure among the Hausa populations. The Niger-Congo speakers displayed rare presence of haplogroups R and E1b1b but a preponderance of E1b1a7. Overall, the Y markers showed high diversities and significant genetic sub-structure within the Hausa populations of Nigeria with stronger linguistic than geographical bias. The demographic evaluations gave credence for genetic validation of both historical records and archeological findings among these Nigerian populations. These populations showed stronger affiliations with other sub-Saharan African populations rather than with North African or Middle Eastern populations, lacking evidence for the Middle Eastern origins of the male founders of these populations. Finally, the contribution of these Nigerian dataset would greatly enhance the Africa meta-population on the YHRD with more than 274 new haplotypes of forensic estimation significance.

Linguistic affiliations

Geographical origins

Y-STRs

Y-SNPs

Nigerian populations

Genetic structures

The identification and characterization of new y-chromosome short tandem repeat LOCI and a closer look at the YpXq 3-4mb homology block

Maybruck, Julie Lauren

20 July 2004

No description available.

Biology, Genetics

Y-chromosome

Y-chromosome short tandem repeats

Y-STRs

Y-chromosome microsatellites