Whole-genome sequencing identifies ADGRG6 enhancer mutations and FRS2 duplications as angiogenesis-related drivers in bladder cancer

Bladder cancer is one of the most common and highly vascularized cancers. To better understand its genomic structure and underlying etiology, we conducted whole-genome sequencing in 65 urothelial bladder carcinomas (the most common type of bladder cancer) and identified recurrent genetic alterations in a set of angiogenesis genes, facilitating the understanding of molecular mechanisms underlying pathological angiogenesis in this type of cancer.

Type: Other
Archiver: European Genome-Phenome Archive (EGA)

1 Dataset 2 Publications

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Dataset ID	Description	Technology	Samples
EGAD00001004545	65 paired tumor and normal whole-genome sequencing samples from urothelial bladder carcinomas (UBC, the most common type of bladder cancer) are used to uncover the whole-genome mutational landscape of UBC. Recurrent mutations in noncoding regions affecting gene regulatory elements and structural variations leading to gene disruptions are prevalent in this type of cancer.		65

Publications	Citations
Whole-genome sequencing identifies ADGRG6 enhancer mutations and FRS2 duplications as angiogenesis-related drivers in bladder cancer. Wu S, Ou T, Xing N, Xing N, Lu J, Wan S, Wang C, Zhang X, Yang F, Huang Y, Cai Z. Nat Commun 10: 2019 720	45
ERCC2 mutations alter the genomic distribution pattern of somatic mutations and are independently prognostic in bladder cancer. Barbour JA, Ou T, Yang H, Fang H, Yue NC, Zhu X, Wong-Brown MW, Wong YT, Bowden NA, Wu S, Wong JWH. Cell Genom 4: 2024 100627	1