Abstract
SNPs, abundant in human genome with lower mutation rate, are attractive to genetic application like forensic, anthropological and evolutionary studies. Universal SNPs showing little allelic frequency variation among populations while remaining highly informative for human identification were obtained from previous studies. However, genotyping tools target only dozens of markers simultaneously, limiting their applications. Here, 124 SNPs were simultaneous tested using Ampliseq technology with Ion Torrent PGM platform. Concordance study was performed with 2 reference samples of 9947A and 9948 between NGS and Sanger sequencing. Full concordance were obtained except genotype of rs576261 with 9947A. Parameter of FMAR (%) was introduced for NGS data analysis for the first time, evaluating allelic performance, sensitivity testing and mixture testing. FMAR values for accurate heterozygotes should be range from 50% to 60%, for homozygotes or Y-SNP should be above 90%. SNPs of rs7520386, rs4530059, rs214955, rs1523537, rs2342747, rs576261 and rs12997453 were recognized as poorly performing loci, either with allelic imbalance or with lower coverage. Sensitivity testing demonstrated that with DNA range from 10 ng-0.5 ng, all correct genotypes were obtained. For mixture testing, a clear linear correlation (R2 = 0.9429) between the excepted FMAR and observed FMAR values of mixtures was observed.
Highlights
Single nucleotide polymorphisms (SNPs), essentially zero rate of recurrent mutation[1], are likely in the near future to have a fundamental role in human identification and description
124 SNPs of these samples were sequenced by Next generation sequencing (NGS) and Sanger technologies
NGS technology has the property of ultra-high throughput but the read length is remarkably short compared to conventional Sanger sequencing
Summary
Single nucleotide polymorphisms (SNPs), essentially zero rate of recurrent mutation[1], are likely in the near future to have a fundamental role in human identification and description. MiSeq (Illumina) and Ion Torrent Personal Genome Machine (Ion Torrent PGM) (Life Technologies), offer modest set-up and running costs for marker detection, are the most commonly applied for forensic and clinic application[4,5,8,9]. HID_SNP_ v2.2 (containing 136 autosomal SNPs and 33 Y-chromosome markers), the second beta panel for human identification, was first tested by Morling group[15] and inter-evaluated by six laboratories[10]. Based on these testing data, 34 upper Y-clade SNPs13 and 90 autosomal SNPs11,12 that have high heterozygosity. Since no data of this panel has been published yet, we evaluated the panel and explored the application in Chinese HAN population this time
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