一名肥胖症患者的 22 号染色体基因突变和边缘认知能力。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Federica Baldan , Eliana Demori , Chiara Gnan , Nadia Passon , Giuseppe Damante , Catia Mio , Lorenzo Allegri , Anna Morgan , Giorgia Girotto , Federica De Paoli , Ivan Limongelli , Susanna Zucca , Flavio Faletra
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引用次数: 0

摘要

染色体发生事件包括在一条或几条染色体上出现多个断点的复杂染色体重排。染色体发生的机制主要分为三类:染色体分裂(chromothripsis)、染色体合成(chromoanasynthesis)和染色体缺失(chromoplexy)。本研究的目的是在一个以肥胖和边缘认知表现为主要障碍的个体中,确定 22 号染色体水平上的染色体成因事件。对该患者及其父母进行了常规核型、CGH 阵列和全基因组测序(WGS)。通过传统核型分析,确定了 22 号染色体的 "从头 "同心反转。CGH 阵列确定了 22 号染色体长臂上的几个不平衡(缺失或重复);最大的是 22q12.1-22q1.3 处的 4.5 Mb 重复。大面积重复的发现表明发生了染色体合成事件。除了通过核型分析和 CGH 阵列发现的结构改变外,WGS 还发现了从 22 号染色体到 6 号和 21 号染色体的两个易位,以及 ALMS1 基因的杂合致病变异;后者可能是导致患者肥胖的原因之一。同心反转导致 TCF20 基因的初始部分缺失,包括 5' 调控区和第一个非编码外显子。在自闭症谱系障碍或智力障碍患者中发现了 TCF20 基因的杂合子功能缺失突变,其中一些患者出现了肥胖症。因此,TCF20 基因结构的破坏有可能导致部分患者的表型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chromoanagenesis of chromosome 22 in a subject with obesity and borderline cognitive performance
Chromoanagenesis events consist of complex chromosome rearrangements with multiple breakpoints in one or few chromosomes. Mechanisms of chromoanagenesis are split into three major groups: chromothripsis, chromoanasynthesis and chromoplexy. This study aims to delineate a chromoanagenesis event at the level of chromosome 22 in an individual showing obesity and borderline cognitive performance as major disturbances. The proband and his parents were subjected to conventional karyotyping, CGH array and whole genomic sequencing (WGS). By conventional karyotyping a “de novo” pericentric inversion of chromosome 22 was identified. CGH array identified several imbalances (either deletions or duplications) in the long arm of chromosome 22; the largest is a 4.5 Mb duplication at 22q12.1-22q1.3. The detection of extensive duplications would suggest the occurrence of a chromoanasynthesis event. WGS, in addition to the structural alterations identified by karyotyping and CGH array, revealed two translocations from chromosome 22 to chromosomes 6 and 21 as well as a heterozygous pathogenetic variant of ALMS1 gene; the latter could have contributed to the obesity of our patient. The pericentric inversion induces loss of initial part of TCF20 gene including the 5’ regulatory region and the first, noncoding, exon. Heterozygous loss-of-function mutations of TCF20 gene have been found in patients with autism spectrum disorder or intellectual disability, some of them presenting obesity. It is, therefore, possible that disruption of TCF20 gene structure would contribute to a fraction of the patient’s phenotype.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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