Progress and Prospects on Next Generation Sequencing-Based Full Resolution STR Genotyping
10.13618/j.issn.1001-5728.2017.02.011
- VernacularTitle:基于下一代测序的全解析度STR分型研究进展与展望
- Author:
Le WANG
;
Anquan JI
;
Jian YE
- Keywords:
forensic genetics;
next generation sequencing;
short tandem repeat;
sequence polymorphism
- From:
Chinese Journal of Forensic Medicine
2017;32(2):159-163,167
- CountryChina
- Language:Chinese
-
Abstract:
Next generation sequencing (NGS),also known as massively parallel sequencing (MPS),with significant advantages such as high throughput,rapidness,integration and low cost,has been widely used in research and clinical diagnosis fields and promises bright future for forensic applications.Compared with traditional DNA sequencing methods,NGS technologies allow the simultaneous detection of various forensic genetic markers.The classical CE-based STR genotyping method only can differentiate alleles with length polymorphism.However,there are occasions like DNA base substitution and repeat sequence variations,which give different alleles with the same size of amplicons.These alleles are heritable from parents to off-springs,and could be of great importance for solving criminal cases.NGS-based STR genotyping can be compatible with current STR data output mode,and allows for the full resolution of STR loci by providing additional sequencing polymorphism information.In this article,the authors focused on the forensic STR genetic markers and next generation sequencing,and reviewed recent progresses on NGS-based STR genotyping.Perspectives of NGS-based full resolution STR genotyping were presented and possible challenges were discussed in the hope of providing a reference for related studies and applications.
