在遗传疾病中利用端粒到端粒参比提高光学基因组作图的分辨率。

IF 3.7 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

European Journal of Human Genetics Pub Date : 2024-12-09 DOI:10.1038/s41431-024-01763-z

Sofia Banu, Kanakavalli Mk, Joel Kiran George, Elizabeth Siby, Rakeshpal Bhagat, Sreelekshmi Ms, Siddaramappa J Patil, Shubha R Phadke, Divya Tej Sowpati, Karthik Bharadwaj Tallapaka

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引用次数: 0

摘要

参考基因组可作为比较个人基因组以推断临床变异的基线标准。广泛使用的参考基因组GRCh38包含大量的缺口和未解决的碱基，特别是在复杂的区域，这可能会掩盖变异的发现。相比之下，端粒到端粒的无间隙CHM13 （T2T-CHM13）参考基因组可用于评估基因组的困难区域。光学基因组定位（OGM）是一种用于结构变异鉴定的成像技术，与传统的细胞遗传学方法相比，它提高了分辨率。我们的研究展示了T2T-CHM13参考基因组在复杂区域增强结构变异（SV）检测中的实用性。我们通过两个临床病例说明了这一点，其中T2T-CHM13的改进对齐导致关键SVs的置信度得分显着提高。我们证明更新T2T-CHM13参考可改善临床诊断结果，并提倡采用该参考。

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Enhanced resolution of optical genome mapping utilizing telomere-to-telomere reference in genetic disorders.

Reference genomes serve as a baseline criterion for comparison of personal genomes to deduce clinical variants. The widely used reference genome, GRCh38, contains stretches of gaps and unresolved bases particularly in complex regions which could obscure variant discovery. In contrast, the gapless telomere-to-telomere CHM13 (T2T-CHM13) reference genome can be used to assess difficult regions of the genome. Optical genome mapping (OGM), an imaging technique for structural variation identification has improved resolution compared to traditional cytogenetic methods. Our study showcases the utility of the T2T-CHM13 reference genome for enhanced structural variant (SV) detection in complex regions. We illustrate this through two clinical cases, where improved alignment with T2T-CHM13 led to significantly higher confidence scores for critical SVs. We demonstrate improved clinical diagnostic outcomes with the updated T2T-CHM13 reference and advocate its adoption.

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来源期刊

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