Abstract
BackgroundThe use of noninvasive techniques to determine paternity prenatally is increasing because it reduces the risks associated with invasive procedures. Current methods, based on SNPs, use the analysis of at least 148 markers, on average.MethodsTo reduce the number of regions, we used microhaplotypes, which are chromosomal segments smaller than 200 bp containing two or more SNPs. Our method employs massively parallel sequencing and analysis of microhaplotypes as genetic markers. We tested 20 microhaplotypes and ascertained that 19 obey Hardy–Weinberg equilibrium and are independent, and data from the 1000 Genomes Project were used for population frequency and simulations.ResultsWe performed simulations of true and false paternity, using the 1000 Genomes Project data, to confirm if the microhaplotypes could be used as genetic markers. We observed that at least 13 microhaplotypes should be used to decrease the chances of false positives. Then, we applied the method in 31 trios, and it was able to correctly assign the fatherhood in cases where the alleged father was the real father, excluding the inconclusive results. We also cross evaluated the mother-plasma duos with the alleged fathers for false inclusions within our data, and we observed that the use of at least 15 microhaplotypes in real data also decreases the false inclusions.ConclusionsIn this work, we demonstrated that microhaplotypes can be used to determine prenatal paternity by using only 15 regions and with admixtures of DNA.
Highlights
The use of noninvasive techniques to determine paternity prenatally is increasing because it reduces the risks associated with invasive procedures
Because of the inherent difficulties in analyzing short tandem repeat (STR) in maternal plasma, we evaluated the applicability of using the microhaplotype loci pioneered by Kidd et al [12, 13] for this purpose
Microhaplotypes Using the report of Debeljak et al [17], we selected 20 informative regions to be studied as genetic markers for prenatal paternity testing; primer sequences for each microhaplotype and their genomic intervals (GRCh37/hg19) are described in Additional file 1: Table S1
Summary
The use of noninvasive techniques to determine paternity prenatally is increasing because it reduces the risks associated with invasive procedures. Current methods, based on SNPs, use the analysis of at least 148 markers, on average. Short tandem repeat (STR) loci are the genetic markers used for paternity tests. The use of MPS to access STR loci presents two major problems: a considerable amount of stutter [6] and reduced size of maternal and foetal DNA fragments in maternal plasma [7]. Inc. developed a commercial noninvasive prenatal paternity test [2], which used approximately 317,000 genome-wide SNPs to enable the statistical inferences [8]. SNPs can be an alternative genetic marker, a large number of loci are still necessary to perform the test
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