嗅觉受体基因和 11 号染色体结构畸变:参与者还是旁观者?

IF 3.3 Q2 GENETICS & HEREDITY
HGG Advances Pub Date : 2024-04-11 Epub Date: 2023-12-30 DOI:10.1016/j.xhgg.2023.100261
Serena Redaelli, Francesca Romana Grati, Viviana Tritto, Giuliana Giannuzzi, Maria Paola Recalcati, Elena Sala, Nicoletta Villa, Francesca Crosti, Gaia Roversi, Francesca Malvestiti, Valentina Zanatta, Elena Repetti, Ornella Rodeschini, Chiara Valtorta, Ilaria Catusi, Lorenza Romitti, Emanuela Martinoli, Donatella Conconi, Leda Dalprà, Marialuisa Lavitrano, Paola Riva, Angela Bentivegna
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引用次数: 0

摘要

后生动物中最大的多基因家族是嗅觉受体(OR)基因家族。人类的嗅觉受体基因在大多数染色体上成群分布,似乎占人类基因组的 0.1%以上。由于 856 个 OR 基因中有 369 个被映射到 11 号染色体(HSA11)上,我们试图了解它们是否介导了涉及该染色体的结构重排。为此,我们分析了在涉及 11 号染色体结构重排的诊断过程中收集的 220 份标本。共纳入 222 例染色体异常,包括倒位、缺失、易位、重复和一个插入,均通过常规染色体分析和/或 FISH 和阵列-CGH 检测到。我们通过生物信息学和统计学方法验证了有或没有 OR 基因的细胞带中断裂点的发生情况。我们发现,OR 基因不参与 11 号染色体的相互易位,这表明基于同源或非同源重组的不同 DNA 主题和机制可导致 11 号染色体结构的改变。我们还利用保存的有关可能发生染色体相互作用的 Hi-C 数据,考虑了 11 号染色体的染色体区域与易位所涉及的伙伴染色体之间的邻近性。有趣的是,大多数断裂点都位于染色体相互作用高度涉及的区域。应开展进一步的研究,以确认染色体区域的邻近性在促进易位中的潜在作用,从而帮助理解可能与遗传疾病有关的基因组结构变异的内在机制,同时也是促进基因组进化的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Olfactory receptor genes and chromosome 11 structural aberrations: Players or spectators?

The largest multi-gene family in metazoans is the family of olfactory receptor (OR) genes. Human ORs are organized in clusters over most chromosomes and seem to include >0.1% the human genome. Because 369 out of 856 OR genes are mapped on chromosome 11 (HSA11), we sought to determine whether they mediate structural rearrangements involving this chromosome. To this aim, we analyzed 220 specimens collected during diagnostic procedures involving structural rearrangements of chromosome 11. A total of 222 chromosomal abnormalities were included, consisting of inversions, deletions, translocations, duplications, and one insertion, detected by conventional chromosome analysis and/or fluorescence in situ hybridization (FISH) and array comparative genomic hybridization (array-CGH). We verified by bioinformatics and statistical approaches the occurrence of breakpoints in cytobands with or without OR genes. We found that OR genes are not involved in chromosome 11 reciprocal translocations, suggesting that different DNA motifs and mechanisms based on homology or non-homology recombination can cause chromosome 11 structural alterations. We also considered the proximity between the chromosomal territories of chromosome 11 and its partner chromosomes involved in the translocations by using the deposited Hi-C data concerning the possible occurrence of chromosome interactions. Interestingly, most of the breakpoints are located in regions highly involved in chromosome interactions. Further studies should be carried out to confirm the potential role of chromosome territories' proximity in promoting genome structural variation, so fundamental in our understanding of the molecular basis of medical genetics and evolutionary genetics.

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来源期刊
HGG Advances
HGG Advances Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
4.30
自引率
4.50%
发文量
69
审稿时长
14 weeks
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