Genomic Balancing Act: deciphering DNA rearrangements in the complex chromosomal aberration involving 5p15.2, 2q31.1, and 18q21.32

IF 3.7 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY European Journal of Human Genetics Pub Date : 2024-09-10 DOI:10.1038/s41431-024-01680-1
Zain Dardas, Dana Marafi, Ruizhi Duan, Jawid M. Fatih, Omnia F. El-Rashidy, Christopher M. Grochowski, Claudia M. B. Carvalho, Shalini N. Jhangiani, Weimin Bi, Haowei Du, Richard A. Gibbs, Jennifer E. Posey, Daniel G. Calame, Maha S. Zaki, James R. Lupski
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Abstract

Despite extensive research into the genetic underpinnings of neurodevelopmental disorders (NDD), many clinical cases remain unresolved. We studied a female proband with a NDD, mildly dysmorphic facial features, and brain stem hypoplasia on neuroimaging. Comprehensive genomic analyses revealed a terminal 5p loss and a terminal 18q gain in the proband while a diploid copy number for chromosomes 5 and 18 in both parents. Genomic investigations in the proband identified an unbalanced translocation t(5;18) with additional genetic material from chromosome 2 (2q31.3) inserted at the breakpoint, pointing to a complex chromosomal rearrangement (CCR) involving 5p15.2, 2q31.3, and 18q21.32. Breakpoint junction analyses enabled by long-read genome sequencing unveiled the presence of four distinct junctions in the father, who is a carrier of a balanced CCR. The proband inherited from the father both the abnormal chromosome 5 resulting in segmental aneusomies of chr5 (loss) and chr18 (gain) and a der(2) homologue. Evidences suggest a chromoplexy mechanism for this CCR derivation, involving double-strand breaks (DSBs) repaired by non-homologous end joining (NHEJ) or alternative end joining (alt-EJ). The complexity of the CCR and the segregation of homologues elucidate the genetic model for this family. This study demonstrates the importance of combining multiple genomic technologies to uncover genetic causes of complex neurodevelopmental syndromes and to better understand genetic disease mechanisms.

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基因组平衡法:解密涉及 5p15.2、2q31.1 和 18q21.32 的复杂染色体畸变中的 DNA 重排
尽管对神经发育障碍(NDD)的遗传基础进行了广泛研究,但许多临床病例仍未得到解决。我们研究了一名患有神经发育障碍、轻度面部畸形和脑干发育不全的女性患者。综合基因组分析表明,该疑似患者的 5p 末端缺失和 18q 末端增殖,而其父母的 5 号和 18 号染色体均为二倍体拷贝数。对该患者进行的基因组调查发现了一个非平衡易位t(5;18),在断点处插入了来自2号染色体(2q31.3)的额外遗传物质,这表明存在一个涉及5p15.2、2q31.3和18q21.32的复杂染色体重排(CCR)。通过长线程基因组测序进行断点连接分析,发现父亲体内存在四个不同的连接点,而父亲是平衡型 CCR 的携带者。原型从父亲那里遗传了异常的 5 号染色体,导致 chr5(缺失)和 chr18(增益)节段性无畸变,以及一个 der(2) 同源体。有证据表明,这种 CCR 衍变的机制是染色体瘫痪,涉及通过非同源末端连接(NHEJ)或替代末端连接(alt-EJ)修复的双链断裂(DSB)。CCR 的复杂性和同源物的分离阐明了该家族的遗传模式。这项研究表明,结合多种基因组技术揭示复杂神经发育综合征的遗传原因和更好地理解遗传疾病机制非常重要。
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来源期刊
European Journal of Human Genetics
European Journal of Human Genetics 生物-生化与分子生物学
CiteScore
9.90
自引率
5.80%
发文量
216
审稿时长
2 months
期刊介绍: The European Journal of Human Genetics is the official journal of the European Society of Human Genetics, publishing high-quality, original research papers, short reports and reviews in the rapidly expanding field of human genetics and genomics. It covers molecular, clinical and cytogenetics, interfacing between advanced biomedical research and the clinician, and bridging the great diversity of facilities, resources and viewpoints in the genetics community. Key areas include: -Monogenic and multifactorial disorders -Development and malformation -Hereditary cancer -Medical Genomics -Gene mapping and functional studies -Genotype-phenotype correlations -Genetic variation and genome diversity -Statistical and computational genetics -Bioinformatics -Advances in diagnostics -Therapy and prevention -Animal models -Genetic services -Community genetics
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