Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads

Mathieu Quinodoz; Karolina Kaminska; Francesca Cancellieri; Ji Hoon Han; Virginie G. Peter; Elifnaz Celik; Lucas Janeschitz-Kriegl; Nils Schärer; Daniela Hauenstein; Bence György; Giacomo Calzetti; Vincent Hahaut; Sónia Custódio; Ana Cristina Sousa; Yuko Wada; Yusuke Murakami; Almudena Avila Fernández; Cristina Rodilla Hernández; Pablo Minguez; Carmen Ayuso; Koji M. Nishiguchi; Cristina Santos; Luisa Coutinho Santos; Viet H. Tran; Veronika Vaclavik; Hendrik P.N. Scholl; Carlo Rivolta

doi:10.1016/j.ajhg.2024.03.001

Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads

Mathieu Quinodoz, Karolina Kaminska, Francesca Cancellieri, Ji Hoon Han, Virginie G. Peter, Elifnaz Celik, Lucas Janeschitz-Kriegl, Nils Schärer, Daniela Hauenstein, Bence György, Giacomo Calzetti, Vincent Hahaut, Sónia Custódio, Ana Cristina Sousa, Yuko Wada, Yusuke Murakami, Almudena Avila Fernández, Cristina Rodilla Hernández, Pablo Minguez, Carmen AyusoKoji M. Nishiguchi, Cristina Santos, Luisa Coutinho Santos, Viet H. Tran, Veronika Vaclavik, Hendrik P.N. Scholl, Carlo Rivolta

NOVA Medical School|Faculdade de Ciências Médicas (NMS|FCM)

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Abstract

Copy-number variants (CNVs) play a substantial role in the molecular pathogenesis of hereditary disease and cancer, as well as in normal human interindividual variation. However, they are still rather difficult to identify in mainstream sequencing projects, especially involving exome sequencing, because they often occur in DNA regions that are not targeted for analysis. To overcome this problem, we developed OFF-PEAK, a user-friendly CNV detection tool that builds on a denoising approach and the use of “off-target” DNA reads, which are usually discarded by sequencing pipelines. We benchmarked OFF-PEAK on data from targeted sequencing of 96 cancer samples, as well as 130 exomes of individuals with inherited retinal disease from three different populations. For both sets of data, OFF-PEAK demonstrated excellent performance (>95% sensitivity and >80% specificity vs. experimental validation) in detecting CNVs from in silico data alone, indicating its immediate applicability to molecular diagnosis and genetic research.

Original language	English
Pages (from-to)	701-713
Number of pages	13
Journal	American journal of human genetics
Volume	111
Issue number	4
DOIs	https://doi.org/10.1016/j.ajhg.2024.03.001
Publication status	Published - 4 Apr 2024

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10.1016/j.ajhg.2024.03.001

1-s2.0-S0002929724000740-mainFinal published version, 2.59 MBLicence: CC BY

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Quinodoz, M., Kaminska, K., Cancellieri, F., Han, J. H., Peter, V. G., Celik, E., Janeschitz-Kriegl, L., Schärer, N., Hauenstein, D., György, B., Calzetti, G., Hahaut, V., Custódio, S., Sousa, A. C., Wada, Y., Murakami, Y., Fernández, A. A., Hernández, C. R., Minguez, P., ... Rivolta, C. (2024). Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads. American journal of human genetics, 111(4), 701-713. https://doi.org/10.1016/j.ajhg.2024.03.001

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title = "Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads",

abstract = "Copy-number variants (CNVs) play a substantial role in the molecular pathogenesis of hereditary disease and cancer, as well as in normal human interindividual variation. However, they are still rather difficult to identify in mainstream sequencing projects, especially involving exome sequencing, because they often occur in DNA regions that are not targeted for analysis. To overcome this problem, we developed OFF-PEAK, a user-friendly CNV detection tool that builds on a denoising approach and the use of “off-target” DNA reads, which are usually discarded by sequencing pipelines. We benchmarked OFF-PEAK on data from targeted sequencing of 96 cancer samples, as well as 130 exomes of individuals with inherited retinal disease from three different populations. For both sets of data, OFF-PEAK demonstrated excellent performance (>95% sensitivity and >80% specificity vs. experimental validation) in detecting CNVs from in silico data alone, indicating its immediate applicability to molecular diagnosis and genetic research.",

author = "Mathieu Quinodoz and Karolina Kaminska and Francesca Cancellieri and Han, {Ji Hoon} and Peter, {Virginie G.} and Elifnaz Celik and Lucas Janeschitz-Kriegl and Nils Sch{\"a}rer and Daniela Hauenstein and Bence Gy{\"o}rgy and Giacomo Calzetti and Vincent Hahaut and S{\'o}nia Cust{\'o}dio and Sousa, {Ana Cristina} and Yuko Wada and Yusuke Murakami and Fern{\'a}ndez, {Almudena Avila} and Hern{\'a}ndez, {Cristina Rodilla} and Pablo Minguez and Carmen Ayuso and Nishiguchi, {Koji M.} and Cristina Santos and Santos, {Luisa Coutinho} and Tran, {Viet H.} and Veronika Vaclavik and Scholl, {Hendrik P.N.} and Carlo Rivolta",

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doi = "10.1016/j.ajhg.2024.03.001",

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Quinodoz, M, Kaminska, K, Cancellieri, F, Han, JH, Peter, VG, Celik, E, Janeschitz-Kriegl, L, Schärer, N, Hauenstein, D, György, B, Calzetti, G, Hahaut, V, Custódio, S, Sousa, AC, Wada, Y, Murakami, Y, Fernández, AA, Hernández, CR, Minguez, P, Ayuso, C, Nishiguchi, KM, Santos, C, Santos, LC, Tran, VH, Vaclavik, V, Scholl, HPN & Rivolta, C 2024, 'Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads', American journal of human genetics, vol. 111, no. 4, pp. 701-713. https://doi.org/10.1016/j.ajhg.2024.03.001

TY - JOUR

T1 - Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads

AU - Quinodoz, Mathieu

AU - Kaminska, Karolina

AU - Cancellieri, Francesca

AU - Han, Ji Hoon

AU - Peter, Virginie G.

AU - Celik, Elifnaz

AU - Janeschitz-Kriegl, Lucas

AU - Schärer, Nils

AU - Hauenstein, Daniela

AU - György, Bence

AU - Calzetti, Giacomo

AU - Hahaut, Vincent

AU - Custódio, Sónia

AU - Sousa, Ana Cristina

AU - Wada, Yuko

AU - Murakami, Yusuke

AU - Fernández, Almudena Avila

AU - Hernández, Cristina Rodilla

AU - Minguez, Pablo

AU - Ayuso, Carmen

AU - Nishiguchi, Koji M.

AU - Santos, Cristina

AU - Santos, Luisa Coutinho

AU - Tran, Viet H.

AU - Vaclavik, Veronika

AU - Scholl, Hendrik P.N.

AU - Rivolta, Carlo

PY - 2024/4/4

Y1 - 2024/4/4

N2 - Copy-number variants (CNVs) play a substantial role in the molecular pathogenesis of hereditary disease and cancer, as well as in normal human interindividual variation. However, they are still rather difficult to identify in mainstream sequencing projects, especially involving exome sequencing, because they often occur in DNA regions that are not targeted for analysis. To overcome this problem, we developed OFF-PEAK, a user-friendly CNV detection tool that builds on a denoising approach and the use of “off-target” DNA reads, which are usually discarded by sequencing pipelines. We benchmarked OFF-PEAK on data from targeted sequencing of 96 cancer samples, as well as 130 exomes of individuals with inherited retinal disease from three different populations. For both sets of data, OFF-PEAK demonstrated excellent performance (>95% sensitivity and >80% specificity vs. experimental validation) in detecting CNVs from in silico data alone, indicating its immediate applicability to molecular diagnosis and genetic research.

AB - Copy-number variants (CNVs) play a substantial role in the molecular pathogenesis of hereditary disease and cancer, as well as in normal human interindividual variation. However, they are still rather difficult to identify in mainstream sequencing projects, especially involving exome sequencing, because they often occur in DNA regions that are not targeted for analysis. To overcome this problem, we developed OFF-PEAK, a user-friendly CNV detection tool that builds on a denoising approach and the use of “off-target” DNA reads, which are usually discarded by sequencing pipelines. We benchmarked OFF-PEAK on data from targeted sequencing of 96 cancer samples, as well as 130 exomes of individuals with inherited retinal disease from three different populations. For both sets of data, OFF-PEAK demonstrated excellent performance (>95% sensitivity and >80% specificity vs. experimental validation) in detecting CNVs from in silico data alone, indicating its immediate applicability to molecular diagnosis and genetic research.

UR - http://www.scopus.com/inward/record.url?scp=85188905703&partnerID=8YFLogxK

U2 - 10.1016/j.ajhg.2024.03.001

DO - 10.1016/j.ajhg.2024.03.001

M3 - Article

AN - SCOPUS:85188905703

SN - 0002-9297

VL - 111

SP - 701

EP - 713

JO - American journal of human genetics

JF - American journal of human genetics

IS - 4

ER -

Detection of elusive DNA copy-number variations in hereditary disease and cancer through the use of noncoding and off-target sequencing reads

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