长读长和短读长基因组学相结合揭示了21号染色体内复杂基因组重排中频繁出现的p臂断点。

A combination of long- and short-read genomics reveals frequent p-arm breakpoints within chromosome 21 complex genomic rearrangements.

作者信息

Schuy Jakob, Sæther Kristine Bilgrav, Lisfeld Jasmin, Ek Marlene, Grochowski Christopher M, Lun Ming Yin, Hastie Alex, Rudolph Susanne, Fuchs Sigrid, Neveling Kornelia, Hempel Maja, Hoischen Alexander, Pettersson Maria, Carvalho Claudia M B, Eisfeldt Jesper, Lindstrand Anna

机构信息

Department of Molecular Medicine and Surgery and Center for Molecular Medicine, Karolinska Institutet, Stockholm, Sweden.

Science for Life Laboratory, Karolinska Institutet Science Park, Solna, Sweden.

出版信息

Genet Med Open. 2024 Jun 28;2:101863. doi: 10.1016/j.gimo.2024.101863. eCollection 2024.

DOI:10.1016/j.gimo.2024.101863

PMID:39669604

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11613786/

Abstract

PURPOSE

Although chromosome 21 is the smallest human chromosome, it is highly relevant in the pathogenicity of both cancer and congenital diseases, including Alzheimer disease and trisomy 21 (Down syndrome). In addition, cases with rare structural variants (SVs) of chromosome 21 have been reported. These events vary in size and include large chromosomal events, such as ring chromosomes and small partial aneuploidies. The p-arm of the acrocentric chromosome 21 was devoid of reference genomic sequence in GRCh37 and GRCh38, which hampered our ability to solve genomic rearrangements and find the mechanism of formation of disease-causing SVs. We hypothesize that conserved satellite structures and segmental duplications located on the p-arm play an important role in the formation of complex SVs involving chromosome 21.

METHODS

Three cases with complex chromosome 21 rearrangements were studied with a combination of short-read and long-read genome sequencing, as well as optical genome mapping. The data were aligned to the T2T-CHM13 assembly.

RESULTS

We were able to resolve all 3 complex chromosome 21 rearrangements in which 15, 8, and 26 breakpoints were identified, respectively. By comparing the identified SV breakpoints, we were able to pinpoint a region between 21p13 and 21p12 that appears to be frequently involved in chromosome 21 rearrangements. Importantly, we observed acrocentric satellite DNA at several breakpoint junctions suggesting an important role for those elements in the formation of complex SVs.

CONCLUSION

Taken together, our results provide further insights into the architecture and underlying mechanisms of complex rearrangements on acrocentric chromosomes.

摘要

目的

尽管21号染色体是人类最小的染色体，但它在癌症和先天性疾病（包括阿尔茨海默病和21三体综合征，即唐氏综合征）的发病机制中高度相关。此外，已有关于21号染色体罕见结构变异（SVs）病例的报道。这些事件大小各异，包括大型染色体事件，如环状染色体和小的部分非整倍体。在GRCh37和GRCh38中，近端着丝粒21号染色体的短臂缺乏参考基因组序列，这阻碍了我们解决基因组重排以及发现致病SVs形成机制的能力。我们推测位于短臂上的保守卫星结构和节段性重复在涉及21号染色体的复杂SVs形成中起重要作用。

方法

结合短读长和长读长基因组测序以及光学基因组图谱技术，对3例复杂的21号染色体重排病例进行了研究。数据与T2T-CHM13组装序列进行比对。

结果

我们成功解析了所有3例复杂的21号染色体重排，分别确定了15个、8个和26个断点。通过比较确定的SV断点，我们能够精确定位到21p13和21p12之间的一个区域，该区域似乎经常参与21号染色体的重排。重要的是，我们在几个断点连接处观察到近端着丝粒卫星DNA，表明这些元件在复杂SVs形成中起重要作用。

结论

综上所述，我们的研究结果为近端着丝粒染色体复杂重排的结构和潜在机制提供了进一步的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8873/11613786/4cab5fa2aba5/gr1.jpg

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长读长和短读长基因组学相结合揭示了21号染色体内复杂基因组重排中频繁出现的p臂断点。

A combination of long- and short-read genomics reveals frequent p-arm breakpoints within chromosome 21 complex genomic rearrangements.

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