Substitution mutational signatures in whole-genome–sequenced cancers in the UK population | Zendy

Andrea Degasperi | Zendy; Xueqing Zou | Zendy; Tauanne Dias Amarante | Zendy; Andrea Martinez-Martinez | Zendy; Ching Chiek Koh | Zendy; João M.L. Dias | Zendy; Laura Heskin | Zendy; Lucia Chmelova | Zendy; Giuseppe Rinaldi | Zendy; Valerie Ya Wen Wang | Zendy; Arjun S. Nanda | Zendy; Aaron Bernstein | Zendy; Sophie Momen | Zendy; Jamie Young | Zendy; D. Perez-Gil | Zendy; Yasin Memari | Zendy; Cherif Badja | Zendy; Scott Shooter | Zendy; Jan Czarnecki | Zendy; Matthew A. Brown | Zendy; Helen Davies | Zendy; SereikZainal | Zendy; John C. Ambrose | Zendy; P. Arumugam | Zendy; R. Bevers | Zendy; Marta Bleda | Zendy; F. Boardman-Pretty | Zendy; C. R. Boustred | Zendy; Helen Brittain | Zendy; M. J. Caulfield | Zendy; G. C. Chan | Zendy; Tom Fowler | Zendy; Adam Giess | Zendy; Angela Hamblin | Zendy; Stephen Henderson | Zendy; Tim Hubbard | Zendy; R. Jackson | Zendy; J. Louise Jones | Zendy; Dalia Kasperavičiūtė | Zendy; Melis Kayikci | Zendy; Athanasios Kousathanas | Zendy; L. Lahnstein | Zendy; S. E. A. Leigh | Zendy; Ivone Leong | Zendy; F. J. Lopez | Zendy; F. Maleady-Crowe | Zendy; Meriel McEntagart | Zendy; Federico Minneci | Zendy; Loukas Moutsianas | Zendy; Michael Mueller | Zendy; Nirupa Murugaesu | Zendy; Anna C. Need | Zendy; Peter O’Donovan | Zendy; Chris A. Odhams | Zendy; Christine Patch | Zendy; Mariana Buongermino Pereira | Zendy; J. Pullinger | Zendy; T. Rahim | Zendy; Augusto Rendon | Zendy; T. Rogers | Zendy; K. Savage | Zendy; K. Sawant | Zendy; Richard H. Scott | Zendy; Afshan Siddiq | Zendy; A. Sieghart | Zendy; Sean Smith | Zendy; Alona Sosinsky | Zendy; Alexander Stuckey | Zendy; M. Tanguy | Zendy; Ana Lisa Taylor Tavares | Zendy; Elaine Thomas | Zendy; Simon R. Thompson | Zendy; Arianna Tucci | Zendy; M. J. Welland | Zendy; Elena Williams | Zendy; Katarzyna Witkowska | Zendy; Scott Wood | Zendy

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Substitution mutational signatures in whole-genome–sequenced cancers in the UK population

Author(s) -

Andrea Degasperi,

Xueqing Zou,

Tauanne Dias Amarante,

Andrea Martinez-Martinez,

Ching Chiek Koh,

João M.L. Dias,

Laura Heskin,

Lucia Chmelova,

Giuseppe Rinaldi,

Valerie Ya Wen Wang,

Arjun S. Nanda,

Aaron Bernstein,

Sophie Momen,

Jamie Young,

D. Perez-Gil,

Yasin Memari,

Cherif Badja,

Scott Shooter,

Jan Czarnecki,

Matthew A. Brown,

Helen Davies,

SereikZainal,

John C. Ambrose,

P. Arumugam,

R. Bevers,

Marta Bleda,

F. Boardman-Pretty,

C. R. Boustred,

Helen Brittain,

M. J. Caulfield,

G. C. Chan,

Tom Fowler,

Adam Giess,

Angela Hamblin,

Stephen Henderson,

Tim Hubbard,

R. Jackson,

J. Louise Jones,

Dalia Kasperavičiūtė,

Melis Kayikci,

Athanasios Kousathanas,

L. Lahnstein,

S. E. A. Leigh,

Ivone Leong,

F. J. Lopez,

F. Maleady-Crowe,

Meriel McEntagart,

Federico Minneci,

Loukas Moutsianas,

Michael Mueller,

Nirupa Murugaesu,

Anna C. Need,

Peter O’Donovan,

Chris A. Odhams,

Christine Patch,

Mariana Buongermino Pereira,

J. Pullinger,

T. Rahim,

Augusto Rendon,

T. Rogers,

K. Savage,

K. Sawant,

Richard H. Scott,

Afshan Siddiq,

A. Sieghart,

Sean Smith,

Alona Sosinsky,

Alexander Stuckey,

M. Tanguy,

Ana Lisa Taylor Tavares,

Elaine Thomas,

Simon R. Thompson,

Arianna Tucci,

M. J. Welland,

Elena Williams,

Katarzyna Witkowska,

Scott Wood

Publication year - 2022

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abl9283

Subject(s) - genetics , genome , biology , substitution (logic) , population , computational biology , gene , medicine , computer science , environmental health , programming language

Whole-genome sequencing (WGS) permits comprehensive cancer genome analyses, revealing mutational signatures, imprints of DNA damage, and repair processes that have arisen in each patient’s cancer. We performed mutational signature analyses on 12,222 whole-genome–sequenced tumor-normal matched pairs from patients recruited via the UK National Health Service (NHS). We contrasted our results with two independent cancer WGS datasets—from the International Cancer Genome Consortium (ICGC) and the Hartwig Medical Foundation (HMF)—involving 18,640 whole-genome–sequenced cancers in total. Our analyses add 40 single and 18 double substitution signatures to the current mutational signature tally. We show for each organ that cancers have a limited number of common signatures and a long tail of rare signatures, and we provide a practical solution for applying this concept of common versus rare signatures to future analyses.

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