Accessible high-throughput single-cell whole-genome sequencing with paired chromatin accessibility

Konstantin Queitsch; Travis W. Moore; Brendan L. O'Connell; Ruth V. Nichols; John L. Muschler; Dove Keith; Charles Lopez; Rosalie C. Sears; Gordon B. Mills; Galip Gürkan Yardımcı; Andrew C. Adey

doi:10.1016/j.crmeth.2023.100625

Accessible high-throughput single-cell whole-genome sequencing with paired chromatin accessibility

Konstantin Queitsch, Travis W. Moore, Brendan L. O'Connell, Ruth V. Nichols, John L. Muschler, Dove Keith, Charles Lopez, Rosalie C. Sears, Gordon B. Mills, Galip Gürkan Yardımcı, Andrew C. Adey

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

Abstract

Single-cell whole-genome sequencing (scWGS) enables the assessment of genome-level molecular differences between individual cells with particular relevance to genetically diverse systems like solid tumors. The application of scWGS was limited due to a dearth of accessible platforms capable of producing high-throughput profiles. We present a technique that leverages nucleosome disruption methodologies with the widely adopted 10× Genomics ATAC-seq workflow to produce scWGS profiles for high-throughput copy-number analysis without new equipment or custom reagents. We further demonstrate the use of commercially available indexed transposase complexes from ScaleBio for sample multiplexing, reducing the per-sample preparation costs. Finally, we demonstrate that sequential indexed tagmentation with an intervening nucleosome disruption step allows for the generation of both ATAC and WGS data from the same cell, producing comparable data to the unimodal assays. By exclusively utilizing accessible commercial reagents, we anticipate that these scWGS and scWGS+ATAC methods can be broadly adopted by the research community.

Original language	English (US)
Article number	100625
Journal	Cell Reports Methods
Volume	3
Issue number	11
DOIs	https://doi.org/10.1016/j.crmeth.2023.100625
State	Published - Nov 20 2023

Keywords

CP: Biotechnology
CP: Genetics
cancer biology
chromatin accessibility
copy-number alterations
single-cell genomics

ASJC Scopus subject areas

Biotechnology
Biochemistry
Biochemistry, Genetics and Molecular Biology (miscellaneous)
Genetics
Radiology Nuclear Medicine and imaging
Computer Science Applications

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10.1016/j.crmeth.2023.100625

Cite this

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title = "Accessible high-throughput single-cell whole-genome sequencing with paired chromatin accessibility",

abstract = "Single-cell whole-genome sequencing (scWGS) enables the assessment of genome-level molecular differences between individual cells with particular relevance to genetically diverse systems like solid tumors. The application of scWGS was limited due to a dearth of accessible platforms capable of producing high-throughput profiles. We present a technique that leverages nucleosome disruption methodologies with the widely adopted 10× Genomics ATAC-seq workflow to produce scWGS profiles for high-throughput copy-number analysis without new equipment or custom reagents. We further demonstrate the use of commercially available indexed transposase complexes from ScaleBio for sample multiplexing, reducing the per-sample preparation costs. Finally, we demonstrate that sequential indexed tagmentation with an intervening nucleosome disruption step allows for the generation of both ATAC and WGS data from the same cell, producing comparable data to the unimodal assays. By exclusively utilizing accessible commercial reagents, we anticipate that these scWGS and scWGS+ATAC methods can be broadly adopted by the research community.",

keywords = "CP: Biotechnology, CP: Genetics, cancer biology, chromatin accessibility, copy-number alterations, single-cell genomics",

author = "Konstantin Queitsch and Moore, {Travis W.} and O'Connell, {Brendan L.} and Nichols, {Ruth V.} and Muschler, {John L.} and Dove Keith and Charles Lopez and Sears, {Rosalie C.} and Mills, {Gordon B.} and Yardımcı, {Galip G{\"u}rkan} and Adey, {Andrew C.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = nov,

day = "20",

doi = "10.1016/j.crmeth.2023.100625",

language = "English (US)",

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AU - Queitsch, Konstantin

AU - Moore, Travis W.

AU - O'Connell, Brendan L.

AU - Nichols, Ruth V.

AU - Muschler, John L.

AU - Keith, Dove

AU - Lopez, Charles

AU - Sears, Rosalie C.

AU - Mills, Gordon B.

AU - Yardımcı, Galip Gürkan

AU - Adey, Andrew C.

PY - 2023/11/20

Y1 - 2023/11/20

N2 - Single-cell whole-genome sequencing (scWGS) enables the assessment of genome-level molecular differences between individual cells with particular relevance to genetically diverse systems like solid tumors. The application of scWGS was limited due to a dearth of accessible platforms capable of producing high-throughput profiles. We present a technique that leverages nucleosome disruption methodologies with the widely adopted 10× Genomics ATAC-seq workflow to produce scWGS profiles for high-throughput copy-number analysis without new equipment or custom reagents. We further demonstrate the use of commercially available indexed transposase complexes from ScaleBio for sample multiplexing, reducing the per-sample preparation costs. Finally, we demonstrate that sequential indexed tagmentation with an intervening nucleosome disruption step allows for the generation of both ATAC and WGS data from the same cell, producing comparable data to the unimodal assays. By exclusively utilizing accessible commercial reagents, we anticipate that these scWGS and scWGS+ATAC methods can be broadly adopted by the research community.

AB - Single-cell whole-genome sequencing (scWGS) enables the assessment of genome-level molecular differences between individual cells with particular relevance to genetically diverse systems like solid tumors. The application of scWGS was limited due to a dearth of accessible platforms capable of producing high-throughput profiles. We present a technique that leverages nucleosome disruption methodologies with the widely adopted 10× Genomics ATAC-seq workflow to produce scWGS profiles for high-throughput copy-number analysis without new equipment or custom reagents. We further demonstrate the use of commercially available indexed transposase complexes from ScaleBio for sample multiplexing, reducing the per-sample preparation costs. Finally, we demonstrate that sequential indexed tagmentation with an intervening nucleosome disruption step allows for the generation of both ATAC and WGS data from the same cell, producing comparable data to the unimodal assays. By exclusively utilizing accessible commercial reagents, we anticipate that these scWGS and scWGS+ATAC methods can be broadly adopted by the research community.

KW - CP: Biotechnology

KW - CP: Genetics

KW - cancer biology

KW - chromatin accessibility

KW - copy-number alterations

KW - single-cell genomics

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ER -

Accessible high-throughput single-cell whole-genome sequencing with paired chromatin accessibility

Abstract

Keywords

ASJC Scopus subject areas

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