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Literature DB >> 30765865

ClinTAD: a tool for copy number variant interpretation in the context of topologically associated domains.

Abstract

Standard clinical interpretation of DNA copy number variants (CNVs) identified by cytogenomic microarray involves examining protein-coding genes within the region and comparison to other CNVs. Emerging basic research suggests that CNVs can also exert a pathogenic effect through disruption of DNA structural elements such as topologically associated domains (TADs). To begin to integrate these discoveries with current practice, we developed ClinTAD, a free browser-based tool to assist with interpretation of CNVs in the context of TADs ( www.clintad.com ). We used ClinTAD to examine 209 randomly selected single-nucleotide polymorphism microarray cases with a total of 236 CNVs. We compared 118 CNVs classified as variants of uncertain clinical significance (VUS), where additional insight into pathogenicity of these CNVs would be of greatest utility, to 118 CNVs classified as benign. We found that a higher proportion of VUS had at least two genes in a nearby TAD related to a phenotype seen in the patient based on Human Phenotype Ontology (HPO) annotation. We present example cases demonstrating scenarios where ClinTAD may either increase or decrease clinical suspicion of pathogenicity for VUS, depending on disruption of TAD boundaries and HPO phenotype match. ClinTAD is an easy-to-use tool, based on emerging research in chromatin architecture, that can help inform CNV interpretation.

Entities: Chemical Species

Mesh：

Year: 2019 PMID： 30765865 DOI： 10.1038/s10038-019-0573-9

Source DB: PubMed Journal: J Hum Genet ISSN： 1434-5161 Impact factor: 3.172

18 in total

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6. Deep Phenotyping on Electronic Health Records Facilitates Genetic Diagnosis by Clinical Exomes.

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7. Noncoding copy-number variations are associated with congenital limb malformation.

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8. Polymer physics predicts the effects of structural variants on chromatin architecture.

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9. A copy number variation morbidity map of developmental delay.

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10. Expansion of the Human Phenotype Ontology (HPO) knowledge base and resources.

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Journal: Nucleic Acids Res Date: 2019-01-08 Impact factor: 16.971

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2. Automated prediction of the clinical impact of structural copy number variations.

Authors: M Gažiová; T Sládeček; O Pös; M Števko; W Krampl; Z Pös; R Hekel; M Hlavačka; M Kucharík; J Radvánszky; J Budiš; T Szemes
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3. SVInterpreter: A Comprehensive Topologically Associated Domain-Based Clinical Outcome Prediction Tool for Balanced and Unbalanced Structural Variants.

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4. TADA-a machine learning tool for functional annotation-based prioritisation of pathogenic CNVs.

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5. A Reassessment of Copy Number Variations in Congenital Heart Defects: Picturing the Whole Genome.

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5 in total