Genome sequencing of normal cells reveals developmental lineages and mutational processes

Sam Behjati; Meritxell Huch; Ruben Van Boxtel; Wouter Karthaus; David C. Wedge; Asif U. Tamuri; Iñigo Martincorena; Mia Petljak; Ludmil B. Alexandrov; Gunes Gundem; Patrick S. Tarpey; Sophie Roerink; Joyce Blokker; Mark Maddison; Laura Mudie; Ben Robinson; Serena Nik-Zainal; Peter Campbell; Nick Goldman; Marc Van De Wetering; Edwin Cuppen; Hans Clevers; Michael R. Stratton

doi:10.1038/nature13448

Genome sequencing of normal cells reveals developmental lineages and mutational processes

Sam Behjati
, Meritxell Huch
, Ruben Van Boxtel
, Wouter Karthaus
, David C. Wedge
, Asif U. Tamuri
, Iñigo Martincorena
, Mia Petljak
, Ludmil B. Alexandrov
, Gunes Gundem
, Patrick S. Tarpey
, Sophie Roerink
, Joyce Blokker
, Mark Maddison
, Laura Mudie
, Ben Robinson
, Serena Nik-Zainal
, Peter Campbell
, Nick Goldman
, Marc Van De Wetering

Edwin Cuppen, Hans Clevers, Michael R. Stratton

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

287 Citations (Scopus)

Abstract

The somatic mutations present in the genome of a cell accumulate over the lifetime of a multicellular organism. These mutations can provide insights into the developmental lineage tree, the number of divisions that each cell has undergone and the mutational processes that have been operative. Here we describe whole genomes of clonal lines derived from multiple tissues of healthy mice. Using somatic base substitutions, we reconstructed the early cell divisions of each animal, demonstrating the contributions of embryonic cells to adult tissues. Differences were observed between tissues in the numbers and types of mutations accumulated by each cell, which likely reflect differences in the number of cell divisions they have undergone and varying contributions of different mutational processes. If somatic mutation rates are similar to those in mice, the results indicate that precise insights into development and mutagenesis of normal human cells will be possible.

Original language	English
Pages (from-to)	422-425
Number of pages	4
Journal	Nature
Volume	513
Issue number	7518
DOIs	https://doi.org/10.1038/nature13448
Publication status	Published - 18 Sept 2014
Externally published	Yes

Access to Document

10.1038/nature13448

Cite this

Behjati, S., Huch, M., Van Boxtel, R., Karthaus, W., Wedge, D. C., Tamuri, A. U., Martincorena, I., Petljak, M., Alexandrov, L. B., Gundem, G., Tarpey, P. S., Roerink, S., Blokker, J., Maddison, M., Mudie, L., Robinson, B., Nik-Zainal, S., Campbell, P., Goldman, N., ... Stratton, M. R. (2014). Genome sequencing of normal cells reveals developmental lineages and mutational processes. Nature, 513(7518), 422-425. https://doi.org/10.1038/nature13448

@article{55e3e5684f484240baa14848c83825ff,

title = "Genome sequencing of normal cells reveals developmental lineages and mutational processes",

abstract = "The somatic mutations present in the genome of a cell accumulate over the lifetime of a multicellular organism. These mutations can provide insights into the developmental lineage tree, the number of divisions that each cell has undergone and the mutational processes that have been operative. Here we describe whole genomes of clonal lines derived from multiple tissues of healthy mice. Using somatic base substitutions, we reconstructed the early cell divisions of each animal, demonstrating the contributions of embryonic cells to adult tissues. Differences were observed between tissues in the numbers and types of mutations accumulated by each cell, which likely reflect differences in the number of cell divisions they have undergone and varying contributions of different mutational processes. If somatic mutation rates are similar to those in mice, the results indicate that precise insights into development and mutagenesis of normal human cells will be possible.",

author = "Sam Behjati and Meritxell Huch and \{Van Boxtel\}, Ruben and Wouter Karthaus and Wedge, \{David C.\} and Tamuri, \{Asif U.\} and I{\~n}igo Martincorena and Mia Petljak and Alexandrov, \{Ludmil B.\} and Gunes Gundem and Tarpey, \{Patrick S.\} and Sophie Roerink and Joyce Blokker and Mark Maddison and Laura Mudie and Ben Robinson and Serena Nik-Zainal and Peter Campbell and Nick Goldman and \{Van De Wetering\}, Marc and Edwin Cuppen and Hans Clevers and Stratton, \{Michael R.\}",

year = "2014",

month = sep,

day = "18",

doi = "10.1038/nature13448",

language = "English",

volume = "513",

pages = "422--425",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7518",

}

Behjati, S, Huch, M, Van Boxtel, R, Karthaus, W, Wedge, DC, Tamuri, AU, Martincorena, I, Petljak, M, Alexandrov, LB, Gundem, G, Tarpey, PS, Roerink, S, Blokker, J, Maddison, M, Mudie, L, Robinson, B, Nik-Zainal, S, Campbell, P, Goldman, N, Van De Wetering, M, Cuppen, E, Clevers, H & Stratton, MR 2014, 'Genome sequencing of normal cells reveals developmental lineages and mutational processes', Nature, vol. 513, no. 7518, pp. 422-425. https://doi.org/10.1038/nature13448

TY - JOUR

T1 - Genome sequencing of normal cells reveals developmental lineages and mutational processes

AU - Behjati, Sam

AU - Huch, Meritxell

AU - Van Boxtel, Ruben

AU - Karthaus, Wouter

AU - Wedge, David C.

AU - Tamuri, Asif U.

AU - Martincorena, Iñigo

AU - Petljak, Mia

AU - Alexandrov, Ludmil B.

AU - Gundem, Gunes

AU - Tarpey, Patrick S.

AU - Roerink, Sophie

AU - Blokker, Joyce

AU - Maddison, Mark

AU - Mudie, Laura

AU - Robinson, Ben

AU - Nik-Zainal, Serena

AU - Campbell, Peter

AU - Goldman, Nick

AU - Van De Wetering, Marc

AU - Cuppen, Edwin

AU - Clevers, Hans

AU - Stratton, Michael R.

PY - 2014/9/18

Y1 - 2014/9/18

N2 - The somatic mutations present in the genome of a cell accumulate over the lifetime of a multicellular organism. These mutations can provide insights into the developmental lineage tree, the number of divisions that each cell has undergone and the mutational processes that have been operative. Here we describe whole genomes of clonal lines derived from multiple tissues of healthy mice. Using somatic base substitutions, we reconstructed the early cell divisions of each animal, demonstrating the contributions of embryonic cells to adult tissues. Differences were observed between tissues in the numbers and types of mutations accumulated by each cell, which likely reflect differences in the number of cell divisions they have undergone and varying contributions of different mutational processes. If somatic mutation rates are similar to those in mice, the results indicate that precise insights into development and mutagenesis of normal human cells will be possible.

AB - The somatic mutations present in the genome of a cell accumulate over the lifetime of a multicellular organism. These mutations can provide insights into the developmental lineage tree, the number of divisions that each cell has undergone and the mutational processes that have been operative. Here we describe whole genomes of clonal lines derived from multiple tissues of healthy mice. Using somatic base substitutions, we reconstructed the early cell divisions of each animal, demonstrating the contributions of embryonic cells to adult tissues. Differences were observed between tissues in the numbers and types of mutations accumulated by each cell, which likely reflect differences in the number of cell divisions they have undergone and varying contributions of different mutational processes. If somatic mutation rates are similar to those in mice, the results indicate that precise insights into development and mutagenesis of normal human cells will be possible.

UR - https://www.scopus.com/pages/publications/84907737648

U2 - 10.1038/nature13448

DO - 10.1038/nature13448

M3 - Article

C2 - 25043003

AN - SCOPUS:84907737648

SN - 0028-0836

VL - 513

SP - 422

EP - 425

JO - Nature

JF - Nature

IS - 7518

ER -

Genome sequencing of normal cells reveals developmental lineages and mutational processes

Abstract

Access to Document

Fingerprint

Cite this