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Paper Details

Chromothripsis drives the evolution of gene amplification in cancer.
Nature
197
2021
Chromothripsis, DNA-PKcs, PARP, cancer, cancers, chromosome ends, chromothripsis, circular extrachromosomal DNA, clonal cell isolates, ecDNA, ecDNAs, genes, genomic DNA, human, oncogene, oncogenes1-3, poly(ADP-ribose), poly(ADP-ribose) polymerases
Author NameAffiliation
Rongxin FangUniversity of California at San Diego
Rongxin FangUniversity of California at San Diego
Rongxin FangUniversity of California at San Diego
Rongxin FangUniversity of California at San Diego
Miao YuUniversity of California at San Diego
Miao YuUniversity of California at San Diego
Ying SunUniversity of California at San Diego
Mark H EllismanNational Center for Microscopy and Imaging Research (NCMIR), University of California at San Diego
Mark H EllismanUniversity of California at San Diego
Mark H EllismanUniversity of California at San Diego
Mark H EllismanNational Center for Microscopy and Imaging Research (NCMIR), University of California at San Diego
Mark H EllismanUniversity of California at San Diego
Mark H EllismanUniversity of California at San Diego
Bing RenUniversity of California at San Diego
Bing RenUniversity of California at San Diego
Bing RenUniversity of California at San Diego
Bing RenUniversity of California at San Diego
Peter J CampbellWellcome Sanger Institute
Peter J CampbellUniversity of Cambridge
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