18号染色体长臂末端缺失通过新端粒得以稳定。

Terminal 18q deletions are stabilized by neotelomeres.

作者信息

Guilherme Roberta Santos, Hermetz Karen E, Varela Patrícia Teixeira, Perez Ana Beatriz Alvarez, Meloni Vera Ayres, Rudd M Katharine, Kulikowski Leslie Domenici, Melaragno Maria Isabel

机构信息

Department of Morphology and Genetics, Universidade Federal de São Paulo, Rua Botucatu 740, CEP 04023-900, São Paulo, Brazil.

Department of Human Genetics, Emory University School of Medicine, 615 Michael Street Northeast, GA 30322, Atlanta, USA.

出版信息

Mol Cytogenet. 2015 May 13;8:32. doi: 10.1186/s13039-015-0135-6. eCollection 2015.

DOI:10.1186/s13039-015-0135-6

PMID:25969696

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4427916/

Abstract

BACKGROUND

All human chromosomes are capped by tandem repeat (TTAGGG)n sequences that protect them against end-to-end fusion and are essential to chromosomal replication and integrity. Therefore, after a chromosomal breakage, the deleted chromosomes must be stabilized by retaining the telomere or acquiring a new cap, by telomere healing or telomere capture. There are few reports with molecular approaches on the mechanisms involved in stabilization of 18q terminal deletions.

RESULTS

In this study we analyzed nine patients with 18q terminal deletion identified by G-banding and genomic array. FISH using PNA probe revealed telomeric signals in all deleted chromosomes tested. We fine-mapped breakpoints with customized arrays and sequenced six terminal deletion junctions. In all six deleted chromosomes sequenced, telomeric sequences were found directly attached to the breakpoints. Little or no microhomology was found at the breakpoints and none of the breaks sequenced were located in low copy repeat (LCR) regions, though repetitive elements were found around the breakpoints in five patients. One patient presented a more complex rearrangement with two deleted segments and an addition of 17 base pairs (bp).

CONCLUSIONS

We found that all six deleted chromosomes sequenced were probably stabilized by the healing mechanism leading to a neotelomere formation.

摘要

背景

所有人类染色体均由串联重复序列（TTAGGG）n封端，这些序列可保护染色体避免端对端融合，对染色体复制和完整性至关重要。因此，染色体断裂后，缺失的染色体必须通过保留端粒或通过端粒愈合或端粒捕获获得新的封端来实现稳定。关于18q末端缺失稳定机制的分子研究报道较少。

结果

在本研究中，我们分析了9例经G显带和基因组阵列鉴定为18q末端缺失的患者。使用肽核酸（PNA）探针的荧光原位杂交（FISH）在所有检测的缺失染色体中均显示出端粒信号。我们使用定制阵列对断点进行了精细定位，并对6个末端缺失连接点进行了测序。在所有测序的6条缺失染色体中，均发现端粒序列直接连接到断点处。在断点处几乎未发现或未发现微同源性，且测序的断点均不在低拷贝重复（LCR）区域，不过在5例患者的断点周围发现了重复元件。1例患者出现了更复杂的重排，有两个缺失片段并额外增加了17个碱基对（bp）。

结论

我们发现，所有测序的6条缺失染色体可能通过导致新端粒形成的愈合机制实现了稳定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f936/4427916/726abd420290/13039_2015_135_Fig1_HTML.jpg

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18号染色体长臂末端缺失通过新端粒得以稳定。

Terminal 18q deletions are stabilized by neotelomeres.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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