Bird Nancy, King Turi, Hellenthal Garrett
UCL Genetics Institute, Department of Genetics Evolution and Environment, University College London, London, UK.
Milner Centre for Evolution, Department of Life Sciences, University of Bath, Bath, UK.
Ann Hum Genet. 2025 Sep;89(5):264-273. doi: 10.1111/ahg.70007. Epub 2025 Jul 15.
The recent emergence of technologies that capture and analyse genetic variation patterns obtained from a person's DNA sample has led to numerous academic and commercial endeavours to infer individuals' ancestries. In theory, a person's genome contains a wealth of readily accessible information regarding their ancestors, despite only some of our ancestors contributing to the DNA we carry. This makes genetic tests an attractive alternative to the painstaking reconstruction of family trees or directly contacting long-lost relations, particularly when, unless there are notable individuals in the tree, historical and genealogical records tend to diminish in frequency with each generation. However, while powerful, there are limits to what genetic data can unearth, as well as important assumptions underlying these analyses.
This review describes some of the early history and latest advances in techniques and data used to infer ancestry using genetics, highlighting both the power and limitations of current studies.
While genetics is a powerful means of exploring aspects of people's ancestry, a stronger focus on conveying uncertainty will allow both academics and non-academics to avoid the ever-present risks of over-interpretation.
近期出现的能够捕获和分析从个人DNA样本中获得的基因变异模式的技术,引发了众多学术和商业领域推断个体祖先的努力。理论上,一个人的基因组包含了大量关于其祖先的易于获取的信息,尽管只有部分祖先为我们携带的DNA做出了贡献。这使得基因检测成为艰苦的家族树重建或直接联系失散已久的亲属的一种有吸引力的替代方法,特别是当家族树中没有显著人物时,历史和家谱记录往往会随着每一代人而减少。然而,尽管基因数据很强大,但它能挖掘的内容有限,且这些分析存在重要假设。
本综述描述了一些利用遗传学推断祖先的技术和数据的早期历史及最新进展,突出了当前研究的优势和局限性。
虽然遗传学是探索人们祖先情况的有力手段,但更加强调传达不确定性将使学者和非学者都能避免过度解读这一常见风险。
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