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利用二态性牙釉质肽分析对不同发育阶段牙齿的性别估计。

Sex estimation of teeth at different developmental stages using dimorphic enamel peptide analysis.

机构信息

Department of Archaeology, Durham University, Durham, UK.

School of Pharmacy and Biomolecular Sciences, University of Brighton, Brighton, UK.

出版信息

Am J Phys Anthropol. 2021 Apr;174(4):859-869. doi: 10.1002/ajpa.24231. Epub 2021 Jan 21.

DOI:10.1002/ajpa.24231
PMID:33475153
Abstract

OBJECTIVES

This study tests, for the first time, the applicability of a new method of sex estimation utilizing enamel peptides on a sample of deciduous and permanent teeth at different stages of mineralization, from nonadults of unknown sex, including perinates.

MATERIALS AND METHODS

A total of 43 teeth from 29 nonadult individuals aged from 40 gestational weeks to 19 years old were analyzed. The sample included pairs of fully mineralized and just developing teeth from the same individual. The individuals were from four archaeological sites in England: Piddington (1st-2nd centuries AD), Coach Lane, Victoria Gate, and Fewston (all 18th-19th centuries). A method that identifies sex chromosome-linked isoforms of the peptide amelogenin from human tooth enamel was applied. The method utilizes a minimally destructive acid etching procedure and subsequent nano liquid chromatography tandem mass spectrometry.

RESULTS

It was possible to determine the sex of 28 of the nonadult individuals sampled (males = 20, females = 8, undetermined = 1). Only one sample failed (CL9), due to insufficient mineralization of the sampled tooth enamel. Data are available via ProteomeXchange with identifier PXD021683.

DISCUSSION

Sufficient peptide material to determine sex can be recovered even from the crowns of developing perinatal teeth that are not fully mineralized. The minimally destructive and inexpensive (compared to ancient DNA) nature of this procedure has significant implications for bioarchaeological studies of infancy and childhood.

摘要

目的

本研究首次检验了一种利用牙釉质肽进行性别估计的新方法在不同矿化阶段的乳恒牙样本中的适用性,这些样本来自于未知性别的非成年人,包括围产期个体。

材料与方法

共分析了 29 名 40 孕周至 19 岁非成年人的 43 颗牙齿。样本包括来自英格兰四个考古地点的个体:Piddington(公元 1-2 世纪)、Coach Lane、Victoria Gate 和 Fewston(均为 18-19 世纪)的完全矿化和刚刚发育的成对牙齿。应用了一种从人牙釉质中鉴定性别染色体连锁同工型肽 amelogenin 的方法。该方法利用了一种微创的酸蚀处理程序和随后的纳流液相色谱串联质谱分析。

结果

成功确定了 28 名非成年个体的性别(男性 20 名,女性 8 名,未确定 1 名)。仅一个样本(CL9)失败,原因是所采样的牙釉质矿化不足。数据可通过 ProteomeXchange 以标识符 PXD021683 获得。

讨论

即使是尚未完全矿化的围产期发育中牙齿的牙冠,也能提取出足够的肽物质来确定性别。与古代 DNA 相比,这种微创且廉价的(相比之下)程序具有重要意义,可广泛应用于婴幼儿生物考古研究。

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