Asymmetrical barcode adapterassisted recovery of duplicate reads and error correction strategy to detect rare mutations in circulating tumor DNA

Jinwoo Ahn; Hwang Byungjin; Ha Young Kim; Jang Hoon; Hwang Phill Kim; Sae Won Han; Tae You Kim; Ji Hyun Lee; Duhee Bang

doi:10.1038/srep46678

Asymmetrical barcode adapterassisted recovery of duplicate reads and error correction strategy to detect rare mutations in circulating tumor DNA

Jinwoo Ahn, Hwang Byungjin, Ha Young Kim, Jang Hoon, Hwang Phill Kim, Sae Won Han, Tae You Kim, Ji Hyun Lee, Duhee Bang

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Deep sequencing is required for the highly sensitive detection of rare variants in circulating tumor DNA (ctDNA). However, there remains a challenge for improved sensitivity and specificity. Maximum-depth sequencing is crucial to detect minority mutations that contribute to cancer progression. The associated costs become prohibitive as the numbers of targets and samples increase. We describe the targeted sequencing of KRAS in plasma samples using an efficient barcoding approach to recover discarded reads marked as duplicates. Combined with an error-removal strategy, we anticipate that our method could improve the accuracy of genotype calling, especially to detect rare mutations in the monitoring of ctDNA.

Original language	English
Article number	46678
Journal	Scientific reports
Volume	7
DOIs	https://doi.org/10.1038/srep46678
Publication status	Published - 2017 May 2

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© The Author(s) 2017.

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title = "Asymmetrical barcode adapterassisted recovery of duplicate reads and error correction strategy to detect rare mutations in circulating tumor DNA",

abstract = "Deep sequencing is required for the highly sensitive detection of rare variants in circulating tumor DNA (ctDNA). However, there remains a challenge for improved sensitivity and specificity. Maximum-depth sequencing is crucial to detect minority mutations that contribute to cancer progression. The associated costs become prohibitive as the numbers of targets and samples increase. We describe the targeted sequencing of KRAS in plasma samples using an efficient barcoding approach to recover discarded reads marked as duplicates. Combined with an error-removal strategy, we anticipate that our method could improve the accuracy of genotype calling, especially to detect rare mutations in the monitoring of ctDNA.",

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doi = "10.1038/srep46678",

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T1 - Asymmetrical barcode adapterassisted recovery of duplicate reads and error correction strategy to detect rare mutations in circulating tumor DNA

AU - Ahn, Jinwoo

AU - Byungjin, Hwang

AU - Kim, Ha Young

AU - Hoon, Jang

AU - Kim, Hwang Phill

AU - Han, Sae Won

AU - Kim, Tae You

AU - Lee, Ji Hyun

AU - Bang, Duhee

PY - 2017/5/2

Y1 - 2017/5/2

N2 - Deep sequencing is required for the highly sensitive detection of rare variants in circulating tumor DNA (ctDNA). However, there remains a challenge for improved sensitivity and specificity. Maximum-depth sequencing is crucial to detect minority mutations that contribute to cancer progression. The associated costs become prohibitive as the numbers of targets and samples increase. We describe the targeted sequencing of KRAS in plasma samples using an efficient barcoding approach to recover discarded reads marked as duplicates. Combined with an error-removal strategy, we anticipate that our method could improve the accuracy of genotype calling, especially to detect rare mutations in the monitoring of ctDNA.

AB - Deep sequencing is required for the highly sensitive detection of rare variants in circulating tumor DNA (ctDNA). However, there remains a challenge for improved sensitivity and specificity. Maximum-depth sequencing is crucial to detect minority mutations that contribute to cancer progression. The associated costs become prohibitive as the numbers of targets and samples increase. We describe the targeted sequencing of KRAS in plasma samples using an efficient barcoding approach to recover discarded reads marked as duplicates. Combined with an error-removal strategy, we anticipate that our method could improve the accuracy of genotype calling, especially to detect rare mutations in the monitoring of ctDNA.

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Asymmetrical barcode adapterassisted recovery of duplicate reads and error correction strategy to detect rare mutations in circulating tumor DNA

Abstract

Bibliographical note

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UN SDGs

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