Filipino DNA variation at 12 X-chromosome short tandem repeat markers.

Demands for solving complex kinship scenarios where only distant relatives are available for testing have risen in the past years. In these instances, other genetic markers such as X-chromosome short tandem repeat (X-STR) markers are employed to supplement autosomal and Y-chromosomal STR DNA typing. However, prior to use, the degree of STR polymorphism in the population requires evaluation through generation of an allele or haplotype frequency population database. This population database is also used for statistical evaluation of DNA typing results. Here, we report X-STR data from 143 unrelated Filipino male individuals who were genotyped via conventional polymerase chain reaction-capillary electrophoresis (PCR-CE) using the 12 X-STR loci included in the Investigator® Argus X-12 kit (Qiagen) and via massively parallel sequencing (MPS) of seven X-STR loci included in the ForenSeq™ DNA Signature Prep kit of the MiSeq® FGx™ Forensic Genomics System (Illumina). Allele calls between PCR-CE and MPS systems were consistent (100% concordance) across seven overlapping X-STRs. Allele and haplotype frequencies and other parameters of forensic interest were calculated based on length (PCR-CE, 12 X-STRs) and sequence (MPS, seven X-STRs) variations observed in the population. Results of our study indicate that the 12 X-STRs in the PCR-CE system are highly informative for the Filipino population. MPS of seven X-STR loci identified 73 X-STR alleles compared with 55 X-STR alleles that were identified solely by length via PCR-CE. Of the 73 sequence-based alleles observed, six alleles have not been reported in the literature. The population data presented here may serve as a reference Philippine frequency database of X-STRs for forensic casework applications.

[1]  R. Szibor X-chromosomal markers: past, present and future. , 2007, Forensic science international. Genetics.

[2]  Allele frequencies of 23 autosomal short tandem repeat loci in the Philippine population. , 2015, Legal medicine.

[3]  Bruce Budowle,et al.  Characterization of genetic sequence variation of 58 STR loci in four major population groups. , 2016, Forensic science international. Genetics.

[4]  T. Egeland,et al.  DNA Commission of the International Society for Forensic Genetics (ISFG): Guidelines on the use of X-STRs in kinship analysis. , 2017, Forensic science international. Genetics.

[5]  Kornkiat Vongpaisarnsin,et al.  Genetic variation study of 12 X chromosomal STR in central Thailand population , 2016, International Journal of Legal Medicine.

[6]  M. Hurles,et al.  The Y-chromosome landscape of the Philippines: extensive heterogeneity and varying genetic affinities of Negrito and non-Negrito groups , 2011, European Journal of Human Genetics.

[7]  C. Robino,et al.  Linkage and linkage disequilibrium analysis of X-STRs in Italian families. , 2011, Forensic science international. Genetics.

[8]  K. Bentayebi,et al.  Genetic diversity of 12 X-chromosomal short tandem repeats in the Moroccan population. , 2012, Forensic science international. Genetics.

[9]  Bruce Budowle,et al.  Massively parallel sequencing of forensic STRs: Considerations of the DNA commission of the International Society for Forensic Genetics (ISFG) on minimal nomenclature requirements. , 2016, Forensic science international. Genetics.

[10]  Toni M. Diegoli Forensic typing of short tandem repeat markers on the X and Y chromosomes. , 2015, Forensic science international. Genetics.

[11]  John M. Butler,et al.  Advanced Topics in Forensic DNA Typing: Methodology , 2011 .

[12]  Peter M Vallone,et al.  Sequence variation of 22 autosomal STR loci detected by next generation sequencing. , 2016, Forensic science international. Genetics.

[13]  P. Schneider,et al.  Development of a pentaplex X-chromosomal short tandem repeat typing system and population genetic studies. , 2005, Forensic science international.

[14]  N. Morling,et al.  Results for five sets of forensic genetic markers studied in a Greek population sample. , 2015, Forensic science international. Genetics.

[15]  A. K. Mazumder,et al.  Genetic diversity study on 12 X-STR loci of investigator® Argus X STR kit in Bangladeshi population , 2017, International Journal of Legal Medicine.

[16]  Francesc Calafell,et al.  Length and repeat-sequence variation in 58 STRs and 94 SNPs in two Spanish populations. , 2017, Forensic science international. Genetics.

[17]  Bruce Budowle,et al.  Genetic analysis of the Yavapai Native Americans from West-Central Arizona using the Illumina MiSeq FGx™ forensic genomics system. , 2016, Forensic science international. Genetics.

[18]  Bruce Budowle,et al.  Flanking region variation of ForenSeq™ DNA Signature Prep Kit STR and SNP loci in Yavapai Native Americans. , 2017, Forensic science international. Genetics.

[19]  Daniel Kling,et al.  FamLinkX - implementation of a general model for likelihood computations for X-chromosomal marker data. , 2015, Forensic science international. Genetics.

[20]  Jocelyne Bruand,et al.  Developmental validation of the MiSeq FGx Forensic Genomics System for Targeted Next Generation Sequencing in Forensic DNA Casework and Database Laboratories. , 2017, Forensic science international. Genetics.

[21]  Daisuke Takahashi,et al.  Genetic analysis of twelve X-chromosomal STRs in Japanese and Chinese populations , 2012, Molecular Biology Reports.

[22]  M. Stoneking,et al.  Complete mtDNA genomes of Filipino ethnolinguistic groups: a melting pot of recent and ancient lineages in the Asia-Pacific region , 2013, European Journal of Human Genetics.

[23]  Bruce Budowle,et al.  STRait Razor v2s: Advancing sequence-based STR allele reporting and beyond to other marker systems. , 2017, Forensic science international. Genetics.

[24]  A. Carracedo,et al.  DNA recommendations , 1997, International Journal of Legal Medicine.

[25]  Jin Ok Yang,et al.  Mapping Human Genetic Diversity in Asia , 2009, Science.

[26]  P. Shrivastava,et al.  Genetic polymorphism study on 12 X STR loci of investigator Argus X STR kit in Bhil tribal population of Madhya Pradesh, India. , 2015, Legal medicine.

[27]  M. Mirazón-Lahr,et al.  Philippine mitochondrial DNA diversity: a populated viaduct between Taiwan and Indonesia? , 2010, Molecular biology and evolution.

[28]  Fei Guo Population genetic data for 12 X-STR loci in the Northern Han Chinese and StatsX package as tools for population statistics on X-STR. , 2017, Forensic science international. Genetics.

[29]  Chengtao Li,et al.  Genetic polymorphisms of 12 X-STR for forensic purposes in Shanghai Han population from China , 2011, Molecular Biology Reports.

[30]  Paolo Fattorini,et al.  Performance of the ForenSeqTM DNA Signature Prep kit on highly degraded samples , 2017, Electrophoresis.

[31]  C. Pu,et al.  Genetic polymorphisms of 12 X‐chromosomal STR loci in Taiwanese individuals and likelihood ratio calculations applied to case studies of blood relationships , 2014, Electrophoresis.

[32]  Bruce Budowle,et al.  Evaluation of the Illumina(®) Beta Version ForenSeq™ DNA Signature Prep Kit for use in genetic profiling. , 2016, Forensic science international. Genetics.

[33]  C. Robino,et al.  Allele and haplotype diversity of X-chromosomal STRs in Ivory Coast , 2011, International Journal of Legal Medicine.

[34]  A. Zidkova,et al.  Investigator® Argus X‐12 study on the population of Czech Republic: Comparison of linked and unlinked X‐STRs for kinship analysis , 2014, Electrophoresis.

[35]  P. Lincoln DNA recommendations--further report of the DNA Commission of the ISFH regarding the use of short tandem repeat systems. , 1997, Forensic science international.

[36]  Hoi Yan Chow,et al.  Systematic assessment of the performance of Illumina's MiSeq FGx™ forensic genomics system , 2017, Electrophoresis.

[37]  T. Egeland,et al.  A general model for likelihood computations of genetic marker data accounting for linkage, linkage disequilibrium, and mutations , 2015, International Journal of Legal Medicine.

[38]  L. Excoffier,et al.  Arlequin suite ver 3.5: a new series of programs to perform population genetics analyses under Linux and Windows , 2010, Molecular ecology resources.

[39]  A. Tillmar Population genetic analysis of 12 X-STRs in Swedish population. , 2012, Forensic science international. Genetics.

[40]  M. Krawczak,et al.  Use of X-linked markers for forensic purposes , 2003, International Journal of Legal Medicine.