Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease

PURPOSE: Current diagnostic testing for genetic disorders involves serial use of specialized assays spanning multiple technologies. In principle, genome sequencing (GS) can detect all genomic pathogenic variant types on a single platform. Here we evaluate copy-number variant (CNV) calling as part of...

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Autores principales: Gross, Andrew M., Ajay, Subramanian S., Rajan, Vani, Brown, Carolyn, Bluske, Krista, Burns, Nicole J., Chawla, Aditi, Coffey, Alison J., Malhotra, Alka, Scocchia, Alicia, Thorpe, Erin, Dzidic, Natasa, Hovanes, Karine, Sahoo, Trilochan, Dolzhenko, Egor, Lajoie, Bryan, Khouzam, Amirah, Chowdhury, Shimul, Belmont, John, Roller, Eric, Ivakhno, Sergii, Tanner, Stephen, McEachern, Julia, Hambuch, Tina, Eberle, Michael, Hagelstrom, R. Tanner, Bentley, David R., Perry, Denise L., Taft, Ryan J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6752263/
https://www.ncbi.nlm.nih.gov/pubmed/30293986
http://dx.doi.org/10.1038/s41436-018-0295-y
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author Gross, Andrew M.
Ajay, Subramanian S.
Rajan, Vani
Brown, Carolyn
Bluske, Krista
Burns, Nicole J.
Chawla, Aditi
Coffey, Alison J.
Malhotra, Alka
Scocchia, Alicia
Thorpe, Erin
Dzidic, Natasa
Hovanes, Karine
Sahoo, Trilochan
Dolzhenko, Egor
Lajoie, Bryan
Khouzam, Amirah
Chowdhury, Shimul
Belmont, John
Roller, Eric
Ivakhno, Sergii
Tanner, Stephen
McEachern, Julia
Hambuch, Tina
Eberle, Michael
Hagelstrom, R. Tanner
Bentley, David R.
Perry, Denise L.
Taft, Ryan J.
author_facet Gross, Andrew M.
Ajay, Subramanian S.
Rajan, Vani
Brown, Carolyn
Bluske, Krista
Burns, Nicole J.
Chawla, Aditi
Coffey, Alison J.
Malhotra, Alka
Scocchia, Alicia
Thorpe, Erin
Dzidic, Natasa
Hovanes, Karine
Sahoo, Trilochan
Dolzhenko, Egor
Lajoie, Bryan
Khouzam, Amirah
Chowdhury, Shimul
Belmont, John
Roller, Eric
Ivakhno, Sergii
Tanner, Stephen
McEachern, Julia
Hambuch, Tina
Eberle, Michael
Hagelstrom, R. Tanner
Bentley, David R.
Perry, Denise L.
Taft, Ryan J.
author_sort Gross, Andrew M.
collection PubMed
description PURPOSE: Current diagnostic testing for genetic disorders involves serial use of specialized assays spanning multiple technologies. In principle, genome sequencing (GS) can detect all genomic pathogenic variant types on a single platform. Here we evaluate copy-number variant (CNV) calling as part of a clinically accredited GS test. METHODS: We performed analytical validation of CNV calling on 17 reference samples, compared the sensitivity of GS-based variants with those from a clinical microarray, and set a bound on precision using orthogonal technologies. We developed a protocol for family-based analysis of GS-based CNV calls, and deployed this across a clinical cohort of 79 rare and undiagnosed cases. RESULTS: We found that CNV calls from GS are at least as sensitive as those from microarrays, while only creating a modest increase in the number of variants interpreted (~10 CNVs per case). We identified clinically significant CNVs in 15% of the first 79 cases analyzed, all of which were confirmed by an orthogonal approach. The pipeline also enabled discovery of a uniparental disomy (UPD) and a 50% mosaic trisomy 14. Directed analysis of select CNVs enabled breakpoint level resolution of genomic rearrangements and phasing of de novo CNVs. CONCLUSION: Robust identification of CNVs by GS is possible within a clinical testing environment.
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spelling pubmed-67522632019-09-23 Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease Gross, Andrew M. Ajay, Subramanian S. Rajan, Vani Brown, Carolyn Bluske, Krista Burns, Nicole J. Chawla, Aditi Coffey, Alison J. Malhotra, Alka Scocchia, Alicia Thorpe, Erin Dzidic, Natasa Hovanes, Karine Sahoo, Trilochan Dolzhenko, Egor Lajoie, Bryan Khouzam, Amirah Chowdhury, Shimul Belmont, John Roller, Eric Ivakhno, Sergii Tanner, Stephen McEachern, Julia Hambuch, Tina Eberle, Michael Hagelstrom, R. Tanner Bentley, David R. Perry, Denise L. Taft, Ryan J. Genet Med Article PURPOSE: Current diagnostic testing for genetic disorders involves serial use of specialized assays spanning multiple technologies. In principle, genome sequencing (GS) can detect all genomic pathogenic variant types on a single platform. Here we evaluate copy-number variant (CNV) calling as part of a clinically accredited GS test. METHODS: We performed analytical validation of CNV calling on 17 reference samples, compared the sensitivity of GS-based variants with those from a clinical microarray, and set a bound on precision using orthogonal technologies. We developed a protocol for family-based analysis of GS-based CNV calls, and deployed this across a clinical cohort of 79 rare and undiagnosed cases. RESULTS: We found that CNV calls from GS are at least as sensitive as those from microarrays, while only creating a modest increase in the number of variants interpreted (~10 CNVs per case). We identified clinically significant CNVs in 15% of the first 79 cases analyzed, all of which were confirmed by an orthogonal approach. The pipeline also enabled discovery of a uniparental disomy (UPD) and a 50% mosaic trisomy 14. Directed analysis of select CNVs enabled breakpoint level resolution of genomic rearrangements and phasing of de novo CNVs. CONCLUSION: Robust identification of CNVs by GS is possible within a clinical testing environment. Nature Publishing Group US 2018-10-08 2019 /pmc/articles/PMC6752263/ /pubmed/30293986 http://dx.doi.org/10.1038/s41436-018-0295-y Text en © The Author(s) 2018 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Gross, Andrew M.
Ajay, Subramanian S.
Rajan, Vani
Brown, Carolyn
Bluske, Krista
Burns, Nicole J.
Chawla, Aditi
Coffey, Alison J.
Malhotra, Alka
Scocchia, Alicia
Thorpe, Erin
Dzidic, Natasa
Hovanes, Karine
Sahoo, Trilochan
Dolzhenko, Egor
Lajoie, Bryan
Khouzam, Amirah
Chowdhury, Shimul
Belmont, John
Roller, Eric
Ivakhno, Sergii
Tanner, Stephen
McEachern, Julia
Hambuch, Tina
Eberle, Michael
Hagelstrom, R. Tanner
Bentley, David R.
Perry, Denise L.
Taft, Ryan J.
Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
title Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
title_full Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
title_fullStr Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
title_full_unstemmed Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
title_short Copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
title_sort copy-number variants in clinical genome sequencing: deployment and interpretation for rare and undiagnosed disease
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6752263/
https://www.ncbi.nlm.nih.gov/pubmed/30293986
http://dx.doi.org/10.1038/s41436-018-0295-y
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