Nondisjunction in Trisomy 21: Origin and Mechanisms

A. Razdan, R. Arora, Gauri Agarwal, Shikha Koul, Vandana Sharma, J. Kandpal
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Abstract

Down’s Syndrome is a chromosomal abnormality with a gain of a third copy of chromosome 21, characterized by craniofacial abnormalities, intellectual developmental delay and growth retardation. In the present study, one-day-old neonate and a patient with an aborted fetus were presented to rule out genetic aberrations via CMA screening. DNA was extracted using from the case samples and evaluated by CMA Affymetrix platform. Chromosomal abnormalities in the fetus such as trisomy emerges due to several factors including maternal age, genetic mutational events, non-disjunction of chromosomes and epigenetic changes. Genetic Cause of trisomy 21 is chromosomal aneuploidy and gain of three copies of chromosome 21. The Trisomy 21 can occur due to Robertsonian translocation, Mosaicisms or duplication of critical region of chromosome 21. The trisomy 21 is the result of nondisjunction of homologous chromosomes 21 during gametogenesis at the time of embryo development. CMA is an effective molecular diagnostic tool for predicting and diagnosing chromosomal abnormalities which needs to be promoted in India for healthy pregnancy outcomes. We report two cases of confirmed post-natal Trisomy 21. The main aim of this study is to focus on genetic diagnosis and its awareness which is still lacking with 100% coverage, in developing countries to reduce the burden of genetic diseases and associated emotional and economic consequences.
21三体的不分离:起源和机制
唐氏综合症是一种染色体异常,21号染色体获得第三个拷贝,以颅面异常、智力发育迟缓和生长迟缓为特征。在本研究中,一天大的新生儿和流产胎儿的患者被提出,以排除遗传畸变通过CMA筛选。从病例样本中提取DNA,并通过CMA Affymetrix平台进行评估。胎儿染色体异常,如三体,是由母亲年龄、基因突变事件、染色体不分离和表观遗传改变等因素引起的。21三体的遗传原因是染色体非整倍体和获得3个21染色体拷贝。21三体可由21号染色体关键区域的罗伯逊易位、镶嵌现象或重复引起。21三体是在胚胎发育时配子体发生时同源染色体21不分离的结果。CMA是预测和诊断染色体异常的有效分子诊断工具,需要在印度推广,以获得健康的妊娠结果。我们报告两例确诊的产后21三体。这项研究的主要目的是将重点放在发展中国家仍然缺乏100%覆盖率的遗传诊断及其认识上,以减轻遗传疾病的负担以及相关的情感和经济后果。
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