Ces as well as search for shared alleles of nuclear DNA (nDNA) markers between samples. DNA from the tissue was extracted by cleaning the tissue block and cutting a section of 5 mm3 tissue into smaller pieces. Extraction was Epigenetic Reader Domain performed in a 1.5-ml tube containing 150 ml extraction buffer composed of 0.61 g TrisBase, 0.5 TWEEN 20, 1 mM EDTA and H2O. The sample was incubated at 65uC for 6 h followed by addition of 50 ml extraction buffer and 0.2 mg Proteinase K, and the sample was incubated again at 65uC for 1676428 12 h. This was followed by deactivation of the proteinase at 95uC for 10 minutes and precipitation of DNA as described above.PCR for mtDNA analysisThe hypervariable regions I and II (HVI and HVII) in the control region of the mitochondrial genome are routinely sequenced in forensic genetics and ancient DNA analysis [15]. For PCR and sequence analysis the HVI primers 16128 and 16348 as well as the HVII F-45 and R-287 were used (Table 1). The resulting PCR fragments are 221 bp for the HVI region and 243 bp for HVII. To investigate the degree of degradation in the samples, the hypervariable region I was also amplified using three different primer pairs, generating short (221 bp), intermediate (440 bp) and long (616 bp) amplification products (Table 1). In order to counteract inhibitors, dilutions with water in 1:10 and 1:20 concentrations were prepared from the 25837696 original extracts. Each PCR reaction contained 10 ml DNA extract (undiluted, 1:10 or 1:20) and 16 PCR Gold Buffer (Applied inhibitor Biosystems), 0.2 mM dNTPs, 2.4 mM MgCl2 (Applied Biosystems), 10 Glycerol, 0.16 mg/ml BSA, 0.2 mM of each primer and 5 U AmpliTaqGoldTM (Applied Biosystems) in a total volume of 30 ml. Amplification was performed in a GeneAmp PCR System 9700 instrument (Applied Biosystems) and the cycling conditions were 1 cycle of 10 minutes at 95uC, 40 cycles of 30 seconds at 95uC, 45 s at 60uC, 60 s at 72uC with a final extension step for 7 minutes at 72uC for all 4 targets.Contamination precautionsA DNA analysis of aged Epigenetics skeletal remains requires special safety precautions in order to avoid contamination by modern exogenous DNA. Therefore, a special clean-room facility, with HEPA-filtered air, positive pressure and LAF benches was used. To avoid contamination from the analysts, full body laboratory coats, facial masks, hair covers and disposable gloves were worn at all times. Separated pre and post polymerase chain reaction (PCR) laboratories were used, and each step of the analysis was performed by at least two different analysts. Furthermore, numerous negative controls were included in the extraction procedure, and PCR and all working areas as well as the equipment were regularly UV irradiated and cleaned with sodium hypochlorite (bleach). The genetic profiles of the staff handling the pre-PCR steps were known and were all compared with the obtained profile.DNA extraction of skeletal remainsAn ulna bone and part of the cranium were selected for the DNA analysis. A total of two pieces (approximately 1 cm3 each) from the cranium and four pieces from the ulna were sampled using a Dremel drill. The bones were soaked in 6 commercial bleach (NaOCl) for 15 minutes followed by three washing steps in sterile H2O to remove exogenous contamination [13,14]. For Epigenetic Reader Domain demineralisation of the bones, 2 ml of 0.5 M ethylene diamine tetra-acetic acid (EDTA) (pH 8) was added and the bone samples were incubated at 25uC for 52 h. Thereafter, 3 mg Proteinase K (20 mg/ml) was added and the samples.Ces as well as search for shared alleles of nuclear DNA (nDNA) markers between samples. DNA from the tissue was extracted by cleaning the tissue block and cutting a section of 5 mm3 tissue into smaller pieces. Extraction was performed in a 1.5-ml tube containing 150 ml extraction buffer composed of 0.61 g TrisBase, 0.5 TWEEN 20, 1 mM EDTA and H2O. The sample was incubated at 65uC for 6 h followed by addition of 50 ml extraction buffer and 0.2 mg Proteinase K, and the sample was incubated again at 65uC for 1676428 12 h. This was followed by deactivation of the proteinase at 95uC for 10 minutes and precipitation of DNA as described above.PCR for mtDNA analysisThe hypervariable regions I and II (HVI and HVII) in the control region of the mitochondrial genome are routinely sequenced in forensic genetics and ancient DNA analysis [15]. For PCR and sequence analysis the HVI primers 16128 and 16348 as well as the HVII F-45 and R-287 were used (Table 1). The resulting PCR fragments are 221 bp for the HVI region and 243 bp for HVII. To investigate the degree of degradation in the samples, the hypervariable region I was also amplified using three different primer pairs, generating short (221 bp), intermediate (440 bp) and long (616 bp) amplification products (Table 1). In order to counteract inhibitors, dilutions with water in 1:10 and 1:20 concentrations were prepared from the 25837696 original extracts. Each PCR reaction contained 10 ml DNA extract (undiluted, 1:10 or 1:20) and 16 PCR Gold Buffer (Applied Biosystems), 0.2 mM dNTPs, 2.4 mM MgCl2 (Applied Biosystems), 10 Glycerol, 0.16 mg/ml BSA, 0.2 mM of each primer and 5 U AmpliTaqGoldTM (Applied Biosystems) in a total volume of 30 ml. Amplification was performed in a GeneAmp PCR System 9700 instrument (Applied Biosystems) and the cycling conditions were 1 cycle of 10 minutes at 95uC, 40 cycles of 30 seconds at 95uC, 45 s at 60uC, 60 s at 72uC with a final extension step for 7 minutes at 72uC for all 4 targets.Contamination precautionsA DNA analysis of aged skeletal remains requires special safety precautions in order to avoid contamination by modern exogenous DNA. Therefore, a special clean-room facility, with HEPA-filtered air, positive pressure and LAF benches was used. To avoid contamination from the analysts, full body laboratory coats, facial masks, hair covers and disposable gloves were worn at all times. Separated pre and post polymerase chain reaction (PCR) laboratories were used, and each step of the analysis was performed by at least two different analysts. Furthermore, numerous negative controls were included in the extraction procedure, and PCR and all working areas as well as the equipment were regularly UV irradiated and cleaned with sodium hypochlorite (bleach). The genetic profiles of the staff handling the pre-PCR steps were known and were all compared with the obtained profile.DNA extraction of skeletal remainsAn ulna bone and part of the cranium were selected for the DNA analysis. A total of two pieces (approximately 1 cm3 each) from the cranium and four pieces from the ulna were sampled using a Dremel drill. The bones were soaked in 6 commercial bleach (NaOCl) for 15 minutes followed by three washing steps in sterile H2O to remove exogenous contamination [13,14]. For demineralisation of the bones, 2 ml of 0.5 M ethylene diamine tetra-acetic acid (EDTA) (pH 8) was added and the bone samples were incubated at 25uC for 52 h. Thereafter, 3 mg Proteinase K (20 mg/ml) was added and the samples.Ces as well as search for shared alleles of nuclear DNA (nDNA) markers between samples. DNA from the tissue was extracted by cleaning the tissue block and cutting a section of 5 mm3 tissue into smaller pieces. Extraction was performed in a 1.5-ml tube containing 150 ml extraction buffer composed of 0.61 g TrisBase, 0.5 TWEEN 20, 1 mM EDTA and H2O. The sample was incubated at 65uC for 6 h followed by addition of 50 ml extraction buffer and 0.2 mg Proteinase K, and the sample was incubated again at 65uC for 1676428 12 h. This was followed by deactivation of the proteinase at 95uC for 10 minutes and precipitation of DNA as described above.PCR for mtDNA analysisThe hypervariable regions I and II (HVI and HVII) in the control region of the mitochondrial genome are routinely sequenced in forensic genetics and ancient DNA analysis [15]. For PCR and sequence analysis the HVI primers 16128 and 16348 as well as the HVII F-45 and R-287 were used (Table 1). The resulting PCR fragments are 221 bp for the HVI region and 243 bp for HVII. To investigate the degree of degradation in the samples, the hypervariable region I was also amplified using three different primer pairs, generating short (221 bp), intermediate (440 bp) and long (616 bp) amplification products (Table 1). In order to counteract inhibitors, dilutions with water in 1:10 and 1:20 concentrations were prepared from the 25837696 original extracts. Each PCR reaction contained 10 ml DNA extract (undiluted, 1:10 or 1:20) and 16 PCR Gold Buffer (Applied Biosystems), 0.2 mM dNTPs, 2.4 mM MgCl2 (Applied Biosystems), 10 Glycerol, 0.16 mg/ml BSA, 0.2 mM of each primer and 5 U AmpliTaqGoldTM (Applied Biosystems) in a total volume of 30 ml. Amplification was performed in a GeneAmp PCR System 9700 instrument (Applied Biosystems) and the cycling conditions were 1 cycle of 10 minutes at 95uC, 40 cycles of 30 seconds at 95uC, 45 s at 60uC, 60 s at 72uC with a final extension step for 7 minutes at 72uC for all 4 targets.Contamination precautionsA DNA analysis of aged skeletal remains requires special safety precautions in order to avoid contamination by modern exogenous DNA. Therefore, a special clean-room facility, with HEPA-filtered air, positive pressure and LAF benches was used. To avoid contamination from the analysts, full body laboratory coats, facial masks, hair covers and disposable gloves were worn at all times. Separated pre and post polymerase chain reaction (PCR) laboratories were used, and each step of the analysis was performed by at least two different analysts. Furthermore, numerous negative controls were included in the extraction procedure, and PCR and all working areas as well as the equipment were regularly UV irradiated and cleaned with sodium hypochlorite (bleach). The genetic profiles of the staff handling the pre-PCR steps were known and were all compared with the obtained profile.DNA extraction of skeletal remainsAn ulna bone and part of the cranium were selected for the DNA analysis. A total of two pieces (approximately 1 cm3 each) from the cranium and four pieces from the ulna were sampled using a Dremel drill. The bones were soaked in 6 commercial bleach (NaOCl) for 15 minutes followed by three washing steps in sterile H2O to remove exogenous contamination [13,14]. For demineralisation of the bones, 2 ml of 0.5 M ethylene diamine tetra-acetic acid (EDTA) (pH 8) was added and the bone samples were incubated at 25uC for 52 h. Thereafter, 3 mg Proteinase K (20 mg/ml) was added and the samples.Ces as well as search for shared alleles of nuclear DNA (nDNA) markers between samples. DNA from the tissue was extracted by cleaning the tissue block and cutting a section of 5 mm3 tissue into smaller pieces. Extraction was performed in a 1.5-ml tube containing 150 ml extraction buffer composed of 0.61 g TrisBase, 0.5 TWEEN 20, 1 mM EDTA and H2O. The sample was incubated at 65uC for 6 h followed by addition of 50 ml extraction buffer and 0.2 mg Proteinase K, and the sample was incubated again at 65uC for 1676428 12 h. This was followed by deactivation of the proteinase at 95uC for 10 minutes and precipitation of DNA as described above.PCR for mtDNA analysisThe hypervariable regions I and II (HVI and HVII) in the control region of the mitochondrial genome are routinely sequenced in forensic genetics and ancient DNA analysis [15]. For PCR and sequence analysis the HVI primers 16128 and 16348 as well as the HVII F-45 and R-287 were used (Table 1). The resulting PCR fragments are 221 bp for the HVI region and 243 bp for HVII. To investigate the degree of degradation in the samples, the hypervariable region I was also amplified using three different primer pairs, generating short (221 bp), intermediate (440 bp) and long (616 bp) amplification products (Table 1). In order to counteract inhibitors, dilutions with water in 1:10 and 1:20 concentrations were prepared from the 25837696 original extracts. Each PCR reaction contained 10 ml DNA extract (undiluted, 1:10 or 1:20) and 16 PCR Gold Buffer (Applied Biosystems), 0.2 mM dNTPs, 2.4 mM MgCl2 (Applied Biosystems), 10 Glycerol, 0.16 mg/ml BSA, 0.2 mM of each primer and 5 U AmpliTaqGoldTM (Applied Biosystems) in a total volume of 30 ml. Amplification was performed in a GeneAmp PCR System 9700 instrument (Applied Biosystems) and the cycling conditions were 1 cycle of 10 minutes at 95uC, 40 cycles of 30 seconds at 95uC, 45 s at 60uC, 60 s at 72uC with a final extension step for 7 minutes at 72uC for all 4 targets.Contamination precautionsA DNA analysis of aged skeletal remains requires special safety precautions in order to avoid contamination by modern exogenous DNA. Therefore, a special clean-room facility, with HEPA-filtered air, positive pressure and LAF benches was used. To avoid contamination from the analysts, full body laboratory coats, facial masks, hair covers and disposable gloves were worn at all times. Separated pre and post polymerase chain reaction (PCR) laboratories were used, and each step of the analysis was performed by at least two different analysts. Furthermore, numerous negative controls were included in the extraction procedure, and PCR and all working areas as well as the equipment were regularly UV irradiated and cleaned with sodium hypochlorite (bleach). The genetic profiles of the staff handling the pre-PCR steps were known and were all compared with the obtained profile.DNA extraction of skeletal remainsAn ulna bone and part of the cranium were selected for the DNA analysis. A total of two pieces (approximately 1 cm3 each) from the cranium and four pieces from the ulna were sampled using a Dremel drill. The bones were soaked in 6 commercial bleach (NaOCl) for 15 minutes followed by three washing steps in sterile H2O to remove exogenous contamination [13,14]. For demineralisation of the bones, 2 ml of 0.5 M ethylene diamine tetra-acetic acid (EDTA) (pH 8) was added and the bone samples were incubated at 25uC for 52 h. Thereafter, 3 mg Proteinase K (20 mg/ml) was added and the samples.