Performance of the SNPforID 52 SNP-plex assay in paternity testing.

The performance of a multiplex assay with 52 autosomal single nucleotide polymorphisms (SNPs) developed for human identification was tested on 124 mother-child-father trios. The typical paternity indices (PIs) were 10(5)-10(6) for the trios and 10(3)-10(4) for the child-father duos. Using the SNP profiles from the randomly selected trios and 700 previously typed individuals, a total of 83,096 comparisons between mother, child and an unrelated man were performed. On average, 9-10 mismatches per comparison were detected. Four mismatches were genetic inconsistencies and 5-6 mismatches were opposite homozygosities. In only two of the 83,096 comparisons did an unrelated man match perfectly to a mother-child duo, and in both cases the PI of the true father was much higher than the PI of the unrelated man. The trios were also typed for 15 short tandem repeats (STRs) and seven variable number of tandem repeats (VNTRs). The typical PIs based on 15 STRs or seven VNTRs were 5-50 times higher than the typical PIs based on 52 SNPs. Six mutations in tandem repeats were detected among the randomly selected trios. In contrast, there was not found any mutations in the SNP loci. The results showed that the 52 SNP-plex assay is a very useful alternative to currently used methods in relationship testing. The usefulness of SNP markers with low mutation rates in paternity and immigration casework is discussed.

[1]  B. Ludes,et al.  SNPs and MALDI-TOF MS: tools for DNA typing in forensic paternity testing and anthropology. , 2005, Journal of forensic sciences.

[2]  N. Morling,et al.  Paternity testing with VNTR DNA systems , 1993, International Journal of Legal Medicine.

[3]  Rapid microarray-based typing of forensic SNPs , 2006 .

[4]  M. Poetsch,et al.  The problem of single parent/child paternity analysis--practical results involving 336 children and 348 unrelated men. , 2006, Forensic science international.

[5]  Myung Jin Park,et al.  Selection of twenty-four highly informative SNP markers for human identification and paternity analysis in Koreans. , 2005, Forensic science international.

[6]  P. Gill,et al.  Validation of a 21-locus autosomal SNP multiplex for forensic identification purposes. , 2005, Forensic science international.

[7]  P M Schneider,et al.  Evaluation of the Genplex SNP typing system and a 49plex forensic marker panel. , 2007, Forensic science international. Genetics.

[8]  W Parson,et al.  Forensic typing of autosomal SNPs with a 29 SNP-multiplex--results of a collaborative EDNAP exercise. , 2008, Forensic science international. Genetics.

[9]  Thomas Liehr,et al.  Human male recombination maps for individual chromosomes. , 2004, American journal of human genetics.

[10]  Takaki Ishikawa,et al.  A new 39-plex analysis method for SNPs including 15 blood group loci. , 2004, Forensic science international.

[11]  K. Ayres The expected performance of single nucleotide polymorphism loci in paternity testing. , 2005, Forensic science international.

[12]  Á. Carracedo,et al.  A multiplex assay with 52 single nucleotide polymorphisms for human identification , 2006, Electrophoresis.

[13]  D. Gudbjartsson,et al.  A high-resolution recombination map of the human genome , 2002, Nature Genetics.

[14]  Rong-yu Li,et al.  SNP genotyping by multiplex amplification and microarrays assay for forensic application. , 2006, Forensic science international.

[15]  K. Kidd,et al.  Candidate SNPs for a universal individual identification panel , 2007, Human Genetics.

[16]  Peter Gill,et al.  An assessment of the utility of single nucleotide polymorphisms (SNPs) for forensic purposes , 2001, International Journal of Legal Medicine.

[17]  M. Krawczak Informativity assessment for biallelic single nucleotide polymorphisms , 1999, Electrophoresis.