Loading…

A theoretical base for non-invasive prenatal paternity testing

There is an increasing demand for prenatal paternity testing in the forensic applications, which identify biological fathers before the birth of children. Currently, one of the most effective and safe Non-Invasive Prenatal Paternity Testing (NIPPT) methods is high-throughput Next-Generation Sequenci...

Full description

Saved in:
Bibliographic Details
Published in:Forensic science international 2023-05, Vol.346, p.111649-111649, Article 111649
Main Authors: Gao, Shengjie, Li, Bowen, Mao, Likai, Wang, Wenfeng, Zou, Dan, Zheng, Jianchao, Zhou, Mi, Yu, Simin, Zheng, Feixue, Yin, Ye, Liu, Shi Qiang, Yang, Huanming, Wang, Hongqi
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:There is an increasing demand for prenatal paternity testing in the forensic applications, which identify biological fathers before the birth of children. Currently, one of the most effective and safe Non-Invasive Prenatal Paternity Testing (NIPPT) methods is high-throughput Next-Generation Sequencing (NGS)-based SNP genotyping of cell-free DNA in maternal peripheral blood. To the best of our knowledge, nearly all methods being used in such applications are based on traditional postnatal paternity tests and/or statistical models of conventional polymorphism sites. These methods have shown unsatisfactory performance due to the uncertainty of fetal genotype. In this study, we propose a cutting-edge methodology called the Prenatal paternity Test Analysis System (PTAS) for cell-free fetal DNA-based NIPPT using NGS-based SNP genotyping. With the implementation of our proposed PTAS methodology, 63 out of 64 early-pregnancy (i.e., less than seven weeks) samples can be precisely identified to determine paternity, except for one sample that does not meet quality control requirements. Although the fetal fraction of the non-identified sample is extremely low (0.51%), its paternity can still be detected by our proposed PTAS methodology through unique molecular identifier tagging. Paternity of the total 313 samples for mid-to-late pregnancy (i.e., more than seven weeks) can be accurately identified. Extensive experiments indicate that our methodology makes a significant breakthrough in the NIPPT theory and will bring substantial benefits to forensic applications. •We propose a cutting-edge methodology called the Prenatal paternity Test Analysis System (PTAS).•The PTAS consists of several novel statistical models for NIPPT.•High performance is achieved to detect both early and late pregnancy.•This work can establish the standards for NIPPT in the forensic field.
ISSN:0379-0738
1872-6283
DOI:10.1016/j.forsciint.2023.111649