Your search keyword '"skeletal remains"' showing total 9 results

1. Prediction of autosomal STR typing success in ancient and Second World War bone samples.

Author

Zupanič Pajnič, Irena, Zupanc, Tomaž, Balažic, Jože, Geršak, Živa Miriam, Stojković, Oliver, Skadrić, Ivan, and Črešnar, Matija

Subjects

PREDICTION models, SHORT tandem repeat analysis, ANALYSIS of bones, POLYMERASE chain reaction, DNA analysis

Abstract

Human-specific quantitative PCR (qPCR) has been developed for forensic use in the last 10 years and is the preferred DNA quantification technique since it is very accurate, sensitive, objective, time-effective and automatable. The amount of information that can be gleaned from a single quantification reaction using commercially available quantification kits has increased from the quantity of nuclear DNA to the amount of male DNA, presence of inhibitors and, most recently, to the degree of DNA degradation. In skeletal remains samples from disaster victims, missing persons and war conflict victims, the DNA is usually degraded. Therefore the new commercial qPCR kits able to assess the degree of degradation are potentially able to predict the success of downstream short tandem repeat (STR) typing. The goal of this study was to verify the quantification step using the PowerQuant kit with regard to its suitability as a screening method for autosomal STR typing success on ancient and Second World War (WWII) skeletal remains. We analysed 60 skeletons excavated from five archaeological sites and four WWII mass graves from Slovenia. The bones were cleaned, surface contamination was removed and the bones ground to a powder. Genomic DNA was obtained from 0.5 g of bone powder after total demineralization. The DNA was purified using a Biorobot EZ1 device. Following PowerQuant quantification, DNA samples were subjected to autosomal STR amplification using the NGM kit. Up to 2.51 ng DNA/g of powder were extracted. No inhibition was detected in any of bones analysed. 82% of the WWII bones gave full profiles while 73% of the ancient bones gave profiles not suitable for interpretation. Four bone extracts yielded no detectable amplification or zero quantification results and no profiles were obtained from any of them. Full or useful partial profiles were produced only from bone extracts where short autosomal (Auto) and long degradation (Deg) PowerQuant targets were detected. It is concluded that STR typing of old bones after quantification with the PowerQuant should be performed only when both Auto and Deg targets are detected simultaneously with no respect to [Auto]/[Deg] ratio. Prediction of STR typing success could be made according to successful amplification of Deg fragment. The PowerQuant kit is capable of identifying bone DNA samples that will not yield useful STR profiles using the NGM kit, and it can be used as a predictor of autosomal STR typing success of bone extracts obtained from ancient and WWII skeletal remains. [ABSTRACT FROM AUTHOR]

Published

2017

2. Bringing colour back after 70 years: Predicting eye and hair colour from skeletal remains of World War II victims using the HIrisPlex system.

Author

Chaitanya, Lakshmi, Pajnič, Irena Zupanič, Walsh, Susan, Balažic, Jože, Zupanc, Tomaž, and Kayser, Manfred

Subjects

ANTHROPOMETRY, WORLD War II, DNA fingerprinting, PHENOTYPES, FORENSIC sciences

Abstract

Retrieving information about externally visible characteristics from DNA can provide investigative leads to find unknown perpetrators, and can also help in disaster victim and other missing person identification cases. Aiming for the application to both types of forensic casework, we previously developed and forensically validated the HIrisPlex test system enabling parallel DNA prediction of eye and hair colour. Although a recent proof-of-principle study demonstrated the general suitability of the HIrisPlex system for successfully analysing DNA from bones and teeth of various storage times and conditions, practical case applications to human remains are scarce. In this study, we applied the HIrisPlex system to 49 DNA samples obtained from bones or teeth of World War II victims excavated at six sites, mostly mass graves, in Slovenia. PCR-based DNA quantification ranged from 4 pg/μl to 313 pg/μl and on an average was 41 pg/μl across all samples. All 49 samples generated complete HIrisPlex profiles with the exception of one MC1R DNA marker (N29insA) missing in 83.7% of the samples. In 44 of the 49 samples (89.8%) complete 15-loci autosomal STR (plus amelogenin) profiles were obtained. Of 5 pairs of skeletal remains for which STR profiling suggested an origin in the same individuals, respectively, 4 showed the same HIrisPlex profiles and predicted eye and hair colours, respectively, while discrepancies in one pair (sample 26 and 43) are likely to be explained by DNA quantity and quality issues observed in sample 43. Sample 43 had the lowest DNA concentration of only 4 pg/μl, producing least reliable STR results and could be misleading in concluding that samples 43 and 26 originate from the same individual. The HIrisPlex-predicted eye and hair colours from two skeletal samples, suggested to derive from two brothers via STR profiling together with a living sister, were confirmed by the living sister's report. Overall, we demonstrate that after more than 70 years, HIrisPlex-based eye and hair colour prediction from skeletal remains is feasible with high success rate. Our results further encourage the use of the HIrisPlex system in missing person/disaster victim identification to aid the identification process in cases where ante-mortem samples or putative relatives are not directly available, and DNA predicted eye and hair colour information provides leads for locating them, allowing STRbased individual identification. [ABSTRACT FROM AUTHOR]

Published

2017

3. Kinship analysis of skeletal remains from the Middle Ages.

Author

Dzehverovic, Mirela, Jusic, Belma, Pilav, Amela, Lukic, Tamara, and Cakar, Jasmina

Subjects

ANTHROPOMETRY, ARCHAEOLOGICAL human remains, KINSHIP, MIDDLE Ages, GENETIC markers

Abstract

Medieval cemeteries Klisa-Guca Gora, Alihodze and Glavica-Han Bila located in the Travnik area (Travnik, Bosnia and Herzegovina) were archaeologically examined in the period 2011–2014, revealing human skeletal remains of 11 individuals in total. Archaeological skeletal samples, previously deposited in Travnik Homeland Museum (Travnik, Bosnia and Herzegovina) were subjected to genetic analysis. The aim of this research was to test familiar relationship of 11 individuals excavated from three medieval cemeteries and to predict Y-haplogroup for male individuals. In order to perform molecular-genetic characterisation of collected human skeletal remains, two systems of genetic markers were analysed: autosomal and Y-STR loci. Complete or partial data obtained by autosomal STR typing of 11 individuals were subjected to kinship analysis. Male sex was determined in eight samples out of 11. Direct relatives of the "brother-brother" type were detected in one case with high kinship probability (KP) value of 99.99996 %. Complete or nearly complete and usable Y-STR profiles were obtained for six out of eight male individuals. The presence of identical haplotypes at Y-STR loci and results of Y-haplogroup prediction suggest that all male individuals share the same paternal lineage and belong to J2a haplogroup. Overall, this study emphasises the usefulness, efficiency and sensitivity of STR markers in the molecular-genetic characterisation of old skeletal remains as well as the importance of employing additional markers like Y-STRs in archaeogenetic studies, besides traditionally used autosomal STR markers, in order to get a comprehensive information about close and distant relatives, and ancestry. • Kinship determination is important for understanding social habits and structure in past human communities. • Complete or nearly complete autosomal STR and Y-STR profiles were obtained from the archaeological human skeletal remains. • Kinship analysis revealed siblingship between two males with high KP value of 99.99996 %. • Identical haplotypes and Y-haplogroup prediction suggested that all male individuals are related by patrilineal descent. • Employing additional markers is crucial for getting a comprehensive information about close and distant relatives, and ancestry. [ABSTRACT FROM AUTHOR]

Published

2023

4. Ancestry informative markers: Inference of ancestry in aged bone samples using an autosomal AIM-Indel multiplex.

Author

Romanini, Carola, Romero, Magdalena, Salado Puerto, Mercedes, Catelli, Laura, Phillips, Christopher, Pereira, Rui, Gusmão, Leonor, and Vullo, Carlos

Subjects

DNA fingerprinting, DNA analysis, FORENSIC genetics, FORENSIC sciences, POLYMERASE chain reaction

Abstract

Ancestry informative markers (AIMs) can be useful to infer ancestry proportions of the donors of forensic evidence. The probability of success typing degraded samples, such as human skeletal remains, is strongly influenced by the DNA fragment lengths that can be amplified and the presence of PCR inhibitors. Several AIM panels are available amongst the many forensic marker sets developed for genotyping degraded DNA. Using a 46 AIM Insertion Deletion (Indel) multiplex, we analyzed human skeletal remains of post mortem time ranging from 35 to 60 years from four different continents (Sub-Saharan Africa, South and Central America, East Asia and Europe) to ascertain the genetic ancestry components. Samples belonging to non-admixed individuals could be assigned to their corresponding continental group. For the remaining samples with admixed ancestry, it was possible to estimate the proportion of co-ancestry components from the four reference population groups. The 46 AIM Indel set was informative enough to efficiently estimate the proportion of ancestry even in samples yielding partial profiles, a frequent occurrence when analyzing inhibited and/or degraded DNA extracts. [ABSTRACT FROM AUTHOR]

Published

2015

5. Simple and highly effective DNA extraction methods from old skeletal remains using silica columns.

Author

Lee, Hwan Young, Park, Myung Jin, Kim, Na Young, Sim, Jeong Eun, Yang, Woo Ick, and Shin, Kyoung-Jin

Subjects

DNA damage, ARCHAEOLOGICAL human remains, SILICA, POLYMERASE chain reaction, FORENSIC sciences, DNA data banks

Abstract

Abstract: The recovery of DNA data from old skeletal remains is often difficult due to degraded and very low yield of extracted DNA and the presence of PCR inhibitors. Herein, we compared several silica-based DNA extraction methods from artificially degraded DNA, DNA with PCR inhibitors and DNA from old skeletal remains using quantitative real-time PCR. We present a modified large-scale silica-based extraction combined with complete demineralization, that enables maximum DNA recovery and efficient elimination of PCR inhibitors. This is performed with high concentration of EDTA solution for demineralization of bone powder followed by QIAamp® spin columns and buffers from the QIAquick® PCR purification kit. We have successfully used this modified technique to perform STR analysis for 55-year-old skeletal remains. The results of this study will contribute to solve the forensic cases dealing with skeletal remains. [ABSTRACT FROM AUTHOR]

Published

2010

6. Novel methods of molecular sex identification from skeletal tissue using the amelogenin gene.

Author

Gibbon, Victoria, Paximadis, Maria, Štrkalj, Goran, Ruff, Paul, and Penny, Clem

Subjects

GENETIC sex determination, ARCHAEOLOGICAL human remains, MOLECULAR genetics, FORENSIC genetics, FOSSIL DNA, AMELOGENIN, DEMOGRAPHIC characteristics

Abstract

Abstract: Sex identification from skeletal material is of vital importance in order to reconstruct the demographic variables of an individual in forensic genetics and ancient DNA (aDNA) analysis. When the use of conventional methods of sex identification are impossible, molecular analysis of the X and Y chromosomes provides an expedient solution. Two novel systems of molecular sex identification suitable for skeletal material using the amelogenin gene are described, beginning in intron 2–3, spanning exon 3 and ending in intron 3–4. This area was optimal for sexing, as it includes 14 sex-specific polymorphic regions in addition to an indel (insertion or deletion of nucleotides). Once optimised and working with 100% efficiency on the controls, these procedures were applied to a collection of miscellaneous archaeological skeletons (ex situ) sourced from the Raymond Dart Collection of Human Skeletons (Dart Collection). This collection was used to optimise these techniques for skeletal remains derived from an archaeological context. These methods produced 46.66% sex results for the ex situ sample, which is within the normal range for aDNA studies. These new techniques are optimal for sex identification, with both the inherent control of isolating many sex-specific features and combined with the use of sensitive micro-fluidic electrophoresis. [Copyright &y& Elsevier]

Published

2009

7. Molecular genetic investigations on Austria's patron saint Leopold III.

Author

Bauer, Christiane Maria, Bodner, Martin, Niederstätter, Harald, Niederwieser, Daniela, Huber, Gabriela, Hatzer-Grubwieser, Petra, Holubar, Karl, and Parson, Walther

Subjects

MOLECULAR genetics, CHRISTIAN patron saints, MARRIAGE law, MITOCHONDRIAL DNA, DNA analysis

Abstract

Abstract: The successful marriage policy of margrave Leopold III increased the importance of the House of Babenberg in late medieval Austria (12th century). Historical documentation is inconclusive in providing evidence whether or not his eldest son Adalbert derived from an earlier relationship or from the marriage with King Henry IV''s daughter Agnes of Waiblingen, with whom Leopold is considered to have had 17 children. As a matter of fact Adalbert was ignored in the line of succession in favor of a younger brother, Leopold IV, which has led to long term historical discussions. Human remains attributed to these individuals were subjected to DNA analysis. Autosomal, Y-chromosomal and mitochondrial DNA analyses brought successful results, which suggested that Leopold III, Agnes and Adalbert were related in parent–son constellation, in contrast to historical considerations. A possible mix-up of Adalbert''s remains with those of his younger brother Ernst could not be confirmed by DNA analysis. [Copyright &y& Elsevier]

Published

2013

8. The challenge of predicting human pigmentation traits in degraded bone samples with the MPS-based HIrisPlex-S system.

Author

Kukla-Bartoszek, Magdalena, Szargut, Maria, Pośpiech, Ewelina, Diepenbroek, Marta, Zielińska, Grażyna, Jarosz, Agata, Piniewska-Róg, Danuta, Arciszewska, Joanna, Cytacka, Sandra, Spólnicka, Magdalena, Branicki, Wojciech, and Ossowski, Andrzej

Subjects

BONES, DNA, MITOCHONDRIAL DNA, DNA fingerprinting, ANIMAL coloration, ARCHAEOLOGICAL human remains

Abstract

• Prediction of human pigmentation can facilitate identification of skeletal remains • Targeted MPS allows for efficient and sensitive analysis of phenotyping SNPs • Results of FDP analysis for heavily degraded samples need careful interpretation • Pros and cons of pigmentation prediction using HPS-MPS from bones are discussed Identification of human remains is an important part of human DNA analysis studies. STR and mitochondrial DNA markers are well suited for the analysis of degraded biological samples including bone material. However, these DNA markers may be useless when reference material is not available. In these cases, predictive DNA analysis can support the process of human identification by providing investigative leads. Forensic DNA phenotyping has progressed significantly by offering new methods based on massively parallel sequencing technology, but the frequent degradation processes observed in skeletal remains can make analysis of such samples challenging. In this study, we demonstrate the usefulness of a recently established Ion AmpliSeqTM HIrisPlex-S panel using Ion Torrent technology for analyzing bone samples that show different levels of DNA degradation. In total, 63 bone samples at post-mortem intervals up to almost 80 years were genotyped and eye, hair and skin colour predictions were performed using the HIrisPlex-S models. Following the recommended coverage thresholds, it was possible to establish full DNA profiles comprising of 41 DNA variants for 35 samples (55.6%). For 5 samples (7.9%) no DNA profiles were generated. The remaining 23 samples (36.5%) produced partial profiles and showed a clear underperformance of 3 HIrisPlex-S SNPs - rs1545397 (OCA2), rs1470608 (OCA2) and rs10756819 (BNC2), all used for skin colour prediction only. None of the 23 samples gave complete genotypes needed for skin colour prediction was obtained, and in 7 of them (25.9%) the 3 underperformed SNPs were the cause. At the same time, the prediction of eye and hair colour using complete IrisPlex and HIrisPlex profiles could be made for these 23 samples in 20 (87.0%) and 12 cases (52.2%), respectively. Complete HIrisPlex-S profiles were generated from as little as 49 pg of template DNA. Five samples for which the HIrisPlex-S analysis failed, consistently failed in standard STR analysis. Importantly, the 3 underperforming SNPs produced significantly lower number of reads in good quality samples. Nonetheless, the AUC loss resulting from missing data for these 3 SNPs is not considered large (≤0.004) and the prediction of pigmentation from partial profiles is also available in the current HPS tool. The study shows that DNA degradation and the resulting loss of data are the most serious challenge to DNA phenotyping of skeletal remains. Although the newly developed HIrisPlex-S panel has been successfully validated in the current research, primer redesign for the 3 underperforming SNPs in the MPS design should be considered in the future. [ABSTRACT FROM AUTHOR]

Published

2020

9. Molecular genetic investigations on Austria's patron saint Leopold III

Author

Bauer, Christiane Maria, Bodner, Martin, Niederstätter, Harald, Niederwieser, Daniela, Huber, Gabriela, Hatzer-Grubwieser, Petra, Holubar, Karl, and Parson, Walther

Subjects

Y-chromosomal STRs, Short tandem repeats, Skeletal remains, mtDNA, Genetics, Forensic archeology, Pathology and Forensic Medicine

Abstract

The successful marriage policy of margrave Leopold III increased the importance of the House of Babenberg in late medieval Austria (12th century). Historical documentation is inconclusive in providing evidence whether or not his eldest son Adalbert derived from an earlier relationship or from the marriage with King Henry IV's daughter Agnes of Waiblingen, with whom Leopold is considered to have had 17 children. As a matter of fact Adalbert was ignored in the line of succession in favor of a younger brother, Leopold IV, which has led to long term historical discussions. Human remains attributed to these individuals were subjected to DNA analysis. Autosomal, Y-chromosomal and mitochondrial DNA analyses brought successful results, which suggested that Leopold III, Agnes and Adalbert were related in parent–son constellation, in contrast to historical considerations. A possible mix-up of Adalbert's remains with those of his younger brother Ernst could not be confirmed by DNA analysis.