Publication:
Genomic and Molecular Landscape of DNA Damage Repair Deficiency across The Cancer Genome Atlas.

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dc.contributor.authorKnijnenburg, Theo A
dc.contributor.authorWang, Linghua
dc.contributor.authorZimmermann, Michael T
dc.contributor.authorChambwe, Nyasha
dc.contributor.authorGao, Galen F
dc.contributor.authorCherniack, Andrew D
dc.contributor.authorFan, Huihui
dc.contributor.authorShen, Hui
dc.contributor.authorWay, Gregory P
dc.contributor.authorGreene, Casey S
dc.contributor.authorLiu, Yuexin
dc.contributor.authorAkbani, Rehan
dc.contributor.authorFeng, Bin
dc.contributor.authorDonehower, Lawrence A
dc.contributor.authorMiller, Chase
dc.contributor.authorShen, Yang
dc.contributor.authorKarimi, Mostafa
dc.contributor.authorChen, Haoran
dc.contributor.authorKim, Pora
dc.contributor.authorJia, Peilin
dc.contributor.authorShinbrot, Eve
dc.contributor.authorZhang, Shaojun
dc.contributor.authorLiu, Jianfang
dc.contributor.authorHu, Hai
dc.contributor.authorBailey, Matthew H
dc.contributor.authorYau, Christina
dc.contributor.authorWolf, Denise
dc.contributor.authorZhao, Zhongming
dc.contributor.authorWeinstein, John N
dc.contributor.authorLi, Lei
dc.contributor.authorDing, Li
dc.contributor.authorMills, Gordon B
dc.contributor.authorLaird, Peter W
dc.contributor.authorWheeler, David A
dc.contributor.authorShmulevich, Ilya
dc.contributor.authorMonnat, Raymond J
dc.contributor.authorXiao, Yonghong
dc.contributor.authorWang, Chen
dc.date.accessioned2024-10-08T15:22:36Z
dc.date.available2024-10-08T15:22:36Z
dc.date.issued2018-04-03
dc.description.abstractDNA damage repair (DDR) pathways modulate cancer risk, progression, and therapeutic response. We systematically analyzed somatic alterations to provide a comprehensive view of DDR deficiency across 33 cancer types. Mutations with accompanying loss of heterozygosity were observed in over 1/3 of DDR genes, including TP53 and BRCA1/2. Other prevalent alterations included epigenetic silencing of the direct repair genes EXO5, MGMT, and ALKBH3 in ∼20% of samples. Homologous recombination deficiency (HRD) was present at varying frequency in many cancer types, most notably ovarian cancer. However, in contrast to ovarian cancer, HRD was associated with worse outcomes in several other cancers. Protein structure-based analyses allowed us to predict functional consequences of rare, recurrent DDR mutations. A new machine-learning-based classifier developed from gene expression data allowed us to identify alterations that phenocopy deleterious TP53 mutations. These frequent DDR gene alterations in many human cancers have functional consequences that may determine cancer progression and guide therapy.
dc.description.noteMark Rubin (Direktor DBMR) ist Collaborator in dieser Publikation.
dc.description.numberOfPages16
dc.identifier.doi10.7892/boris.126384
dc.identifier.pmid29617664
dc.identifier.publisherDOI10.1016/j.celrep.2018.03.076
dc.identifier.urihttps://boris-portal.unibe.ch/handle/20.500.12422/64168
dc.language.isoen
dc.publisherCell Press
dc.relation.ispartofCell reports
dc.relation.issn2211-1247
dc.relation.organization4E745CF42DBF6EC0E053960C5C82F4E9
dc.subjectDNA damage footprints DNA damage repair The Cancer Genome Atlas PanCanAtlas project epigenetic silencing integrative statistical analysis mutational signatures protein structure analysis somatic copy-number alterations somatic mutations
dc.subject.ddc600 - Technology::610 - Medicine & health
dc.titleGenomic and Molecular Landscape of DNA Damage Repair Deficiency across The Cancer Genome Atlas.
dc.typearticle
dspace.entity.typePublication
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oaire.citation.endPage254.e6
oaire.citation.issue1
oaire.citation.startPage239
oaire.citation.volume23
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unibe.date.licenseChanged2019-10-22 15:26:06
unibe.description.ispublishedpub
unibe.eprints.legacyId126384
unibe.journal.abbrevTitleCell Reports
unibe.refereedtrue
unibe.subtype.articlejournal

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