Pan-cancer analysis of whole genomes

GPTKB entity

Predicate	Object
gptkbp:instanceOf	scientific research
gptkbp:analyzes	2,658 cancer whole genomes 38 tumor types
gptkbp:author	gptkb:Steven_L._Salzberg gptkb:Serena_Nik-Zainal gptkb:Gad_Getz David W. Y. Tsui Iñigo Martincorena Jan O. Korbel Lincoln D. Stein Michael R. Stratton Moritz Gerstung PCAWG Consortium Peter J. Campbell Peter J. Park
gptkbp:doi	10.1038/s41586-020-1969-6
gptkbp:foundIn	genomic instability tumor microenvironment driver mutations mutational signatures non-coding mutations germline variants structural variation copy number alterations tumor evolution genomic rearrangements cancer cell-of-origin cancer driver genes cancer heterogeneity chromothripsis clonal evolution epigenetic alterations immune infiltration mobile element insertions mutational burden mutational clonality mutational landscape mutational processes mutational timing non-coding regulatory elements telomere maintenance mechanisms transcriptional consequences tumor purity viral integrations
https://www.w3.org/2000/01/rdf-schema#label	Pan-cancer analysis of whole genomes
gptkbp:partOf	PCAWG (Pan-Cancer Analysis of Whole Genomes)
gptkbp:publicationDate	2020-02-05
gptkbp:publishedIn	gptkb:Nature
gptkbp:topic	tumor biology cancer genomics whole genome sequencing
gptkbp:bfsParent	gptkb:Nature_2020_Pan-Cancer_Analysis_papers
gptkbp:bfsLayer	7