Allele frequency distribution for 15 autosomal STR loci in Afridi Pathan population of Uttar Pradesh,India

Allele frequencies of the 15 autosomal short tandem repeat (STR) loci D8S1179, D21S11, D7S820, CSF1PO D19S433, vWA, TPOX, D18S51, D3S1358, THO1, D13S317, D16S539, D2S1338, D5S818 and FGA were determined in Afridi Pathan population of Uttar Pradesh, India. All the 15 STR loci studied were found to be highly polymorphic with respect to observed heterozygosity values. Adherence to the expectations of the Hardy–Weinberg equilibrium (HWE) was confirmed for all the loci with an exception of TPOX and FGA. The allele 12 in CSF1PO was found to be most frequent. The power of discrimination was found to be high ranging from a minimum of 0.858 for the locus CSFIPO to maximum of 0.962 for the locus FGA, thereby facilitating the validation and efficiency of these STR markers in human identification. Population differentiation test between the studied and neighboring populations revealed significant differences at several loci suggesting the endogamous nature of the studied population. To the best of our knowledge, Afridi Pathan population has not been explored genetically for generating forensic data on STR markers. Therefore, STR allele frequency data of this unique population is a valuable contribution to the existing DNA database on Indian populations.     

Fourteen non-CODIS autosomal short tandem repeat loci multiplex data from Taiwanese

Interest in the development of polymorphic short tandem repeat (STR) markers unlinked to the CODIS loci is growing among forensic practitioners. We developed a multiplex system in which14 autosomal STR (D3S1744, D4S2366, D8S1110, D12S1090, D13S765, D14S608, Penta E, D17S1294, D18S536, D18S1270, D20S470, D21S1437, Penta D, and D22S683) could be amplified in one single polymerase chain reaction. DNA samples from 572 unrelated Taiwanese Han subjects were analyzed using this 14 STR multiplex system. Thirty parent–child pairs of parentage testing cases with a combined paternity index (CPI) below 1,000 and 32 parent–child pairs with single-step mutations found in AmpFℓSTR Identifiler loci were also recruited for validation of the newly developed system. DNA sequencing was performed for novel STRs and novel alleles found in these subjects. The distributions of allelic frequencies for these autosomal STRs and sequence data, allele nomenclature for the STRs, and forensic parameters are presented. The discrimination power in our multiplex loci ranged from 0.6858 (D18S536) to 0.9168 (Penta E), with a combined discrimination power of 0.999999999. It provides additional power to distinguish the possible single-step mutations in parent–child pairs and improves the ability to prove parentage by increasing the CPI. The combined power of exclusion of these 14 loci in Taiwanese Han in this study was 0.9999995913. In conclusion, this 14-autosomal STRs multiplex system provides highly informative STR data and appears useful in forensic casework and parentage testing.     

Assessment of application value of 19 autosomal short tandem repeat loci of GoldenEyeTM 20A kit in forensic paternity testing

This study was carried out to assess the application value of 19 autosomal short tandem repeat (STR) loci of GoldenEye^TM 20A kit, in which 13 combined DNA index system core STR loci and PentaE, PentaD, D2S1338, D19S433, D12S391, and D6S1043 of six STR loci could be used in forensic paternity testing in Chinese population. We amplified the genomic DNA from blood samples on FTA paper of 289 paternity testing cases by using the GoldenEye^TM 20A kit. The amplified products were detected by capillary electrophoresis, and then the genotypes of 20 genetic markers including 19 STR loci as well as Amelogenin for sex determination were analyzed by GeneMapper v3.2 and GeneMarker HID Software. The results of genotypes were compared to the three commonly used commercial kits including AmpF?STR Identifiler^TM, PowerPlex^TM16, and AmpF?STR Sinofiler^TM kits. Compared to the three other common commercial kits, the GoldenEye^TM 20A kit had higher value of combined paternity index in certainty of paternity or non-exclusion paternity cases, and more numbers of STR loci were excluded in exclusionary paternity cases. Our data in this study showed that the GoldenEye^TM 20A kit has a higher application value in forensic paternity testing and will be of help for kinship analysis.     

Loss of heterozygosity detected at three short tandem repeat locus commonly used for human DNA identification in a case of paternity testing

Short tandem repeat (STR) is widely used for DNA profiling in forensic sciences for its stable inheritance. Genomic variations in STR loci may affect the results of the genotyping. In this study, using STR profiling and genome-wide chromosomal microarray assay, we detected the incidence of uniparental disomy or copy-neutral loss of heterozygosity (LOH) in a case of a parental testing, which altered the genotype of three commonly used STR markers including D2S1338, D2S441 and D2S1776. To the best of our knowledge, this is the first time found that LOH affect the genotyping of STR markers commonly used for paternity testing. Our findings demonstrated that the incidence of LOH in the genome may dramatically alter the results of DNA identification, and suggested that genomic structure variation need to be taking into consideration in the DNA identification using STR markers.     

Developmental validation of the Huaxia™ Platinum PCR amplification kit: A 6-dye multiplex direct amplification assay designed for Chinese reference samples

The Huaxia™ Platinum Kit for short tandem repeat (STR) amplification was designed to meet the needs of the rapidly growing Chinese forensic database. This PCR multiplex allows simultaneous amplification of the following autosomal loci: D3S1358, vWA, D16S539, CSF1PO, TPOX, D8S1179, D21S11, D18S51, Penta E, D2S441, D19S433, TH01, FGA, D22S1045, D5S818, D13S317, D7S820, D6S1043, D10S1248, D1S1656, D12S391, D2S1338, Penta D and the gender-identification markers Yindel, and AMEL.The Huaxia™ Platinum Kit enables direct amplification from blood and buccal samples stored on treated and untreated paper, and features an optimized PCR protocol that yields time to results in less than 45 min. Developmental validation testing followed SWGDAM guidelines and demonstrated that this assay produces reproducible and accurate results. Studies on 798 individuals in 4 major Chinese ethnic groups produced highly concordant results with other commercially available STR genotyping kits. The validation results demonstrate that the Huaxia™ Platinum Kit is a robust and reliable identification system for forensic DNA databasing applications.     

产前亲子鉴定方法研究(附23例报告)

目的对23个产前案例进行亲子鉴定。方法超声监视下行羊膜穿刺术,抽取羊水30~40ml。离心收集羊水沉渣后提取其基因组DNA,同时抽取其父母双方外周血基因组DNA。应用毛细管电泳技术和五色荧光复合扩增的方法,检测所有DNA样本的16个STR基因座基因型。结果所有羊水基因组DNA均来自独立个体,无母体DNA的污染。三联体分析显示23个案例中17例为肯定亲权关系,亲子关系概率均大于0.9999,6例确定为排除亲权关系,平均排除(位点数)指标为7.67个。二联体分析显示23个案例中17例肯定父权的平均亲子关系概率为0.9997以上,6例排除亲权关系的平均排除(位点数)指标为5个,但其中1例的排除位点只有1个。结论16个STR位点的多重荧光扩增方法在对羊水中母体DNA的污染程度进行评估的同时,可以准确、可靠的应用于产前亲子鉴定。在检测单亲鉴定案例时,若排除(位点数)指标小于2时必须补充母亲样本或增加检测的STR位点指标数,直至得出明确结论。     

Evaluation of the Early Access STR Kit v1 on the Ion Torrent PGM™ platform

The Early Access STR Kit v1 is designed to detect 25-plex loci with next generation sequencing (NGS) technology on the Ion Torrent PGM™ platform, including 16 of 20 expanded Combined DNA Index System (CODIS) core loci (CSF1PO, D1S1656, D2S1338, D2S441, D3S1358, D5S818, D7S820, D8S1179, D10S1248, D13S317, D16S539, D19S433, D21S11, TH01, TPOX and vWA), 8 non-CODIS core loci (D1S1677, D2S1776, D4S2408, D5S2500.AC008791, D6S1043, D6S474, D9S2157 and D14S1434) and Amelogenin. In this study, we compared the Early Access STR Kit v1 with the Ion Torrent™ HID STR 10-plex to find out its improvements and explored an appropriate analytical threshold to enhance the performance. In addition, seven experiments were conducted to evaluate the Early Access STR Kit v1 such as studies of repeatability, concordance, sensitivity, mixtures, degraded samples, case-type samples and pedigrees. Other than a little discordance (0.95%) with CE-STR results observed at D21S11, NGS-STR results correctly reflected the sample being tested. Repeatable results were obtained from both initial PCRs and emPCRs aside from a few variations of allele coverage. Full profiles could be obtained from 100 pg input DNA and >48.84% profiles from 10 pg input DNA. Mixtures were easily detected at 9:1 and 1:9 ratios. This system could be adapted to case-type samples and degraded samples. As a whole, the Early Access STR Kit v1 is a robust, reliable and reproducible assay for NGS-STR typing and a potential tool for human identification.     

Comparative study of STR loci for typing old skeletal remains with modified protocols of AmpFlSTR Identifiler and AmpFlSTR MiniFiler STR Kits

This study highlights a comparative study of short tandem repeat (STR) loci with modified protocols of AmpFlSTR Identifiler and AmpFlSTR MiniFiler STR Kits for typing 27 old skeletal remains collected from 100–1000-year-old mass graves in Pakistan. DNA profiles were obtained from minute quantities of DNA (even from?≤?10?pg/μL) with modified protocols of these kits, which is a significant achievement in this study. Consensus profiles were produced for each bone sample. A comparison was carried out between Identifiler and Minifiler successfully genotyped STR loci. Full concordance was perceived in 97.33% (146/150) of the compared STR loci, while discordant STR loci were 2.67% (4/150) of the total successfully genotyped STR loci due to either or both allele drop-out or drop-in. Finally, it was observed that the AmpFlSTR MiniFiler kit promoted the recovery of locus/alleles that failed to type with the AmpFlSTR Identifiler kit and more informative DNA profiles were obtained from old skeletal remains with the AmpFlSTR MiniFiler STR kit compared with the AmpFlSTR Identifiler STR kit.     

Increasing the discrimination power of forensic STR testing by employing high-performance mass spectrometry, as illustrated in indigenous South African and Central Asian populations

Short tandem repeat (STR) typing has become the standard technique in forensic methodology for the identification of unknown samples. National DNA databases have been established that contain STR genotypes for intelligence purposes. Due to their success, national DNA databases have been growing so fast that the number of advantageous matches may become a logistic problem for the analysts. This is especially true for partial STR profiles as they display reduced discrimination power. To overcome this drawback, modified versions (so-called mini-STRs) of existing loci were introduced as well as new loci to improve the information content of (partial) STR profiles. We pursue an alternative approach that makes use of nucleotide variation within the amplified STR fragments, which can be discerned by mass spectrometry. We have developed an assay that determines molecular masses from crude STR amplicons which were purified and separated by a liquid chromatographic system directly hyphenated to an electrospray ionization mass spectrometer. We present here new population data of forensically relevant STRs in Khoisan and Yakut populations. These autochthonous groups were selected as they may harbor additional STR alleles that are rare or unobserved in modern humans from cosmopolitan areas, especially for the Khoisan, which are known to represent a very ancient human population. The analysis of the molecular mass of STRs offered a widened spectrum of allele variability escorted by enhanced forensic use. Thus, established STR data derived from fragment size analysis can still be used in casework or in the context of intelligence databasing.     

Autosomal STR variations in three endogamous populations of West Bengal, India

The allele frequency distribution of 15 autosomal STR loci was determined using AmpFlSTR Identifiler kit in three endogamous caste populations namely, Rajbanshi, Paliya and Dhimal from northern regions of West Bengal, India. The study includes 13 CODIS STR core markers, i.e., D8S1179, D3S1358, D21S11, D7S820, CSF1PO, vWA, TPOX, D18S51, THO1, D13S317, D16S539, D5S818, FGA and two other loci D19S433 and D2S1338. All the loci followed Hardy-Weinberg equilibrium, except loci D8S1179, vWA and FGA in Rajbanshi population, D13S317 in Paliya population and D16S539 and TPOX in Dhimal population. The allele 12 in CSF1PO in Rajbanshi population and allele nine in THO1 in Paliya as well as in Dhimal population were found to be most frequent. All the 15 STR loci studied were found to be highly polymorphic with respect to observed heterozygosity values. Population differentiation tests revealed highly significant differences at several loci suggesting the endogamous nature of studied populations. STR allele frequency data on Dhimal population presented here is a unique contribution to the existing DNA data base on Indian population. To the best of our present knowledge, hitherto Dhimal Population has not been explored genetically for generating forensic data on STR markers.     

Autosomal and Y-STR analysis of degraded DNA from the 120-year-old skeletal remains of Ezekiel Harper

The 120-year-old skeletal remains of Confederate Civil War soldier Captain Ezekiel “Zeke” Harper were exhumed by court order in January 2011 for DNA analysis. The goal of the DNA testing was to support or refute whether Captain Harper had fathered a son (Earl J. Maxwell) with his Native American maid prior to his murder in 1892. Bones with adequate structural integrity (left tibia, right tibia, right femur, mandible, four teeth) were retrieved from the burial site and sent to the Institute of Applied Genetics in Fort Worth, Texas for analysis. Given the age and condition of the remains, three different extraction methods were used to maximize the probability of DNA recovery. The majority of the DNA isolates from over fifty separate bone sections yielded partial autosomal STR genotypes and partial Y-STR haplotypes. After comparing the partial results for concordance, consensus profiles were generated for comparison to reference samples from alleged family members. Considering the genetic recombination that occurs in autosomal DNA over the generations within a family, Y-STR analysis was determined to be the most appropriate and informative approach for determining potential kinship. Two of Earl J. Maxwell's grandsons submitted buccal samples for comparison. The Y-STR haplotypes obtained from both of these reference samples were identical to each other and to the alleles in Ezekiel Harper's consensus profile at all 17 loci examined. This Y-STR haplotype was not found in either of two major Y-STR population databases (U.S. Y-STR database and YHRD). The fact that the Y-STR haplotype obtained from Ezekiel's skeletal remains and Earl's grandsons is not found in either population database demonstrates its rarity and further supports a paternal lineage relationship among them. Results of the genetic analyses are consistent with the hypothesis that Earl J. Maxwell is the son of Ezekiel Harper.     

Forensic value of nine STR loci in Northern Thai

Nine STR loci (D3S1358, D5S818, D7S820, D8S1179, D13S317, TH01, VWA, TPOX, LPL) were studied in a large Northern Thai population sample. All loci meet Hardy-Weinberg expectations. The combined power of discrimination and exclusion is 0.9999999979 and 0.99798 respectively. Mutation rates for STR loci did not exceed 1-4 per 1000 parent/child pairs as derived from disputed paternity cases. Similar mutation rates were also reported from other populations. No mutations were found for D5S818, D7S820, TH01, and TPOX.     

Multistep microsatellite mutation in the maternally transmitted locus D13S317: a case of maternal allele mismatch in the child

Examination of a case of a paternity dispute with 17 autosomal short tandem repeats (STR) loci revealed a mismatch of the maternally transmitted allele at the locus D13S317 in the questioned child. The composition of the alleles of this locus in the mother, questioned child and suspected father was 8/8, 11/11 and 8/11, respectively. The sequence analysis of the regions flanking the locus D13S317 and peak height measurements of the paternal, maternal and child alleles at this locus excluded the possibility of null allele as a cause of the allelic mismatch inherited by the child. The results suggested expansion of the microsatellite repeat motif, TATC by three repeat units as a probable cause for the allelic mismatch in the child. This is a rare case of maternally transmitted multistep microsatellite mutation reported for the first time for this locus in the forensic DNA analysis. The mutation rate at D13S317 locus in maternal and paternal meiosis was 0.04 and 0.14%, respectively, and overall mutation rate was 0.15%. The probability of maternity and paternity were 0.999999 and 0.999999, respectively, for all the 17 autosomal STR loci analyzed. Furthermore, the sequence of two hypervariable regions of mitochondrial DNA, HV1 and HV2 and the maternal alleles of six X chromosome STR loci in the questioned child matched completely with the mother. These results conclusively proved that the mother and suspected father are the biological parents of the questioned child.Electronic Supplementary Material Supplementary material is available for this article at     

Nine short tandem repeat loci analysis in aged semen stains using the AmpFLSTR Profiler Kit and description of a new vWA variant allele

Nine short tandem repeat (STR) loci, D3S1358, D5S818, vWA, TH01, D13S317, TPOX, FGA, D7S820 and CSF1PO, were investigated in semen stains of various ages using the AmpFLSTR Profiler Kit. The nine STR loci were typed from semen stains stored for up to 25 years with the application of 1-10 ng DNA. This system provides a useful tool in medicolegal individualization of aged semen stains. During this investigation we found a new variant allele 18.1 at the vWA locus.     

Tri-allelic patterns of STRs and partially homologous non-sister chromatid crossover observed in a parentage test

A maternity testing case is reported, in which the child showed tri-allelic patterns in two short tandem repeat (STR) loci. The genotypes of Penta D of the mother and the child were 9,13 and 9,10,13, respectively. Those of D21S11 were 32.2,35 and 29,35, respectively, but intensity ratio of alleles 29 and 35 of the child was 1:2. These results suggested the copy number variations (CNVs) or trisomy of chromosome 21. By further examination using STR-based chromosome aneuploidy detection kit, three alleles were detected in D21S1411, LFG21 and Penta D, and 2 alleles with intensity ratio of 1:2 were observed in D21S2502, D21S1435, D21S11 and D21S1246. Karyotype and whole-genome SNP array analyses showed that the child had a free trisomy 21. In addition, partially homologous non-sister chromatid crossover occurred at the region 19181770-39499178 on the long arm of chromosome 21.     

Forensic STR profile of two endogamous populations of Madhya Pradesh, India

Genotypic polymorphism studies at 15 highly polymorphic short tandem repeat (STR) loci were carried out in two populations belonging to one caste and one tribal group of Madhya Pradesh, in central region of India. These include 110 individuals from Brahmin caste (Kanyakubj) and 89 from Gond tribe (Ojha). The 15 loci studied are: 13 CODIS STR core markers, i.e., D8S1179, D3S1358, D21S11, D7S820, CSF1PO, vWA, TPOX, D18S51, THO1, D13S317, D16S539, D5S818, FGA and 2 other loci D19S433 and D2S1338. The results show departure from the Hardy-Weinberg equilibrium with respect to two loci, viz., D3S1358 and FGA in Gond tribe and at seven loci, viz., D21S11, D19S433, TPOX, D18S51, THO1, D5S818, and FGA in Brahmin caste. Population differentiation tests between the two studied populations and with seven neighboring populations (4 tribes and 3 castes - two middle castes and one Deshasth Brahmin) revealed significant differences at several loci. The power of discrimination of the microsatellite markers used was found to be high for both the populations. The data thereof is of immense significance for forensic result interpretation and is an addition to the existing autosomal STR database on Indian population.     

Population genetics of ten STR loci (AmpFℓSTR SGM plus) in Austria

A population study on the ten short tandem repeat (STR) loci D3S1358, VWA, D16S539, D2S1338, D8S1179, D21S11, D18S51, D19S433, TH01 and FGA was performed on 204 unrelated Austrian Caucasians. The DNA was amplified by multiplex PCR using the AmpFℓSTR SGM plus kit. All loci met Hardy-Weinberg expectations. The combined power of exclusion for the ten STR loci was 0.999976. The results show that these loci are very useful for forensic purposes. Received: 28 February 2000 / Accepted: 22 May 2000     

Massively parallel sequencing of 17 commonly used forensic autosomal STRs and amelogenin with small amplicons

The next-generation sequencing (NGS) method has been utilized to analyze short tandem repeat (STR) markers, which are routinely used for human identification purposes in the forensic field. Some researchers have demonstrated the successful application of the NGS system to STR typing, suggesting that NGS technology may be an alternative or additional method to overcome limitations of capillary electrophoresis (CE)-based STR profiling. However, there has been no available multiplex PCR system that is optimized for NGS analysis of forensic STR markers. Thus, we constructed a multiplex PCR system for the NGS analysis of 18 markers (13CODIS STRs, D2S1338, D19S433, Penta D, Penta E and amelogenin) by designing amplicons in the size range of 77–210 base pairs. Then, PCR products were generated from two single-sources, mixed samples and artificially degraded DNA samples using a multiplex PCR system, and were prepared for sequencing on the MiSeq system through construction of a subsequent barcoded library. By performing NGS and analyzing the data, we confirmed that the resultant STR genotypes were consistent with those of CE-based typing. Moreover, sequence variations were detected in targeted STR regions. Through the use of small-sized amplicons, the developed multiplex PCR system enables researchers to obtain successful STR profiles even from artificially degraded DNA as well as STR loci which are analyzed with large-sized amplicons in the CE-based commercial kits. In addition, successful profiles can be obtained from mixtures up to a 1:19 ratio. Consequently, the developed multiplex PCR system, which produces small size amplicons, can be successfully applied to STR NGS analysis of forensic casework samples such as mixtures and degraded DNA samples.     

Gabon black population data on the ten short tandem repeat loci D3S1358, VWA,D16S539, D2S1338, D8S1179, D21S11, D18S51, D19S433, TH01 and FGA

Allele frequencies for ten short tandem repeat (STR) loci D3S1358, VWA, D16S539, D2S1338, D8S1179, D21S11, D18S51, D19S433, TH01 and FGA were determined in a Black African sample population from Gabon. All loci were highly polymorphic and except for TH01, D21S11 and D16S539, all met Hardy-Weinberg expectations. There was little evidence of association of alleles between the loci in this database. The combined power of exclusion for the ten STR loci was 0.999981. While significant differences between the Gabon population and the Austrian Caucasian population were found at all loci, significant differences were found between the Gabon population and Zimbabweans only for D3S1358 and between the Gabon population and African Americans only for TH01 and D8S1179. Received: 14 March 2001 / Accepted: 15 May 2001     

Allele frequencies of six miniSTR loci in the population of Northern Portugal

A possible approach to try to recover information from degraded DNA is to reduce the size of the PCR products by designing primers that bind as close as possible to the STR repeat region, known as miniSTRs. Allele frequencies and forensic parameters for the six miniSTRs loci D1S1677, D2S441, D4S2364, D10S1248, D14S1434 and D22S1045 were investigated in a sample group consisting of 228 anonymous apparently healthy unrelated individuals living in North of Portugal. The results show that all loci were in Hardy–Weinberg equilibrium. The combined power of discrimination and power of exclusion for the six loci were 0.99999 and 0.9789, respectively. All but one (D4S2364) loci showed a moderate degree of polymorphism (observed heterozygosity >0.6). The allele sizes ranged between 66 and 118 bp in our population, which is beneficial for typing degraded samples than those of a commercial STR kit.