Detection and Analysis of 12 Suspected <i>Amelogenin</i> Allelic Loss Cases.

Jie BI; Jing Jing Chang; Chun Ying YU

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Detection and Analysis of 12 Suspected Amelogenin Allelic Loss Cases.

Author: Jie BI ¹ ; Jing Jing CHANG ² ; Chun Ying YU ¹
Author Information

1. Beijing Mingzheng Forensic Identification Center, Beijing 100070, China.
2. Institute of Forensic Science, Ministry of Public Security, PRC, Beijing 110000, China.
Publication Type:Journal Article
Keywords: Amelogenin; allelic loss; case analysis; forensic genetics; paternity identification; sex determination; sex-determining region of Y
MeSH: Amelogenin/genetics*; DNA/genetics*; Female; Humans; Loss of Heterozygosity/genetics*; Male; Sex Determination Analysis
From: Journal of Forensic Medicine 2018;34(4):396-400
CountryChina
Language:English
Abstract: OBJECTIVES:To observe and analyse the Amelogenin allelic loss in parent-child identification cases, and to explore the type and mechanism of Amelogenin allelic loss as well as its influence on gender identification and solutions.
METHODS:After the detection by SiFaSTR™ 23plex DNA identification system, samples had the characteristics of the peak area of Amelogenin X was the same as the one of adjacent heterozygote or lower than one half of adjacent homozygote in females while Amelogenin X loss was observed in males were selected. X chromosome STR （X-STR） typing and Amelogenin X sequencing were performed. The samples with Amelogenin Y loss in males were confirmed by the detection of Y chromosome STR typing and sex-determining region of Y （SRY）. The type and rate of Amelogenin allelic loss were confirmed and calculated, and the mechanism and influence of this variation were also analysed.
RESULTS:Amelogenin X allelic loss was observed in one male sample, the mutation in primer-binding region was confirmed by sequencing. The suspected Amelogenin X allelic loss was observed in four female samples, but the mutation in primer-binding region was confirmed by sequencing in only one sample. Amelogenin Y allelic loss was observed in seven male samples, SRY positive cases was detected in five of them, and two were SRY negative. Y-STR type was detected in four cases of the five SRY positive cases, which was not detected in the two SRY negative cases. The rate of Amelogenin allelic loss was about 0.029%.
CONCLUSIONS:Amelogenin X allelic loss does not affect the gender identification, but Amelogenin Y allelic loss may cause wrong gender identification. Thus, Y-STR or SRY should be detected for gender confirmation. When Y-STR genotypes are not detected in a "male" whose SRY detection is also negative, then the chromosome karyotype analysis and sex differentiation related genes test should be taken to further confirm the gender.