Genomic and Functional Overlap between Somatic and Germline Chromosomal Rearrangements | Zendy

Sebastiaan van Heesch | Zendy; Marieke Simonis | Zendy; Markus J. van Roosmalen | Zendy; Vamsee Pillalamarri | Zendy; Harrison Brand | Zendy; Ewart Kuijk | Zendy; Kim L. de Luca | Zendy; Nico Lansu | Zendy; A. Koen Braat | Zendy; Androniki Menelaou | Zendy; Wensi Hao | Zendy; Jeroen Korving | Zendy; Simone Snijder | Zendy; Lars T. van der Veken | Zendy; Ron Hochstenbach | Zendy; Alida C. Knegt | Zendy; Karen Duran | Zendy; Ivo Renkens | Zendy; Najla Alekozai | Zendy; Myrthe Jager | Zendy; Sarah Vergult | Zendy; Björn Menten | Zendy; Ewart de Bruijn | Zendy; Sander Boymans | Zendy; Elly F. Ippel | Zendy; Ellen van Binsbergen | Zendy; Michael E. Talkowski | Zendy; Klaske D. Lichtenbelt | Zendy; Edwin Cuppen | Zendy; Wigard P. Kloosterman | Zendy

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Genomic and Functional Overlap between Somatic and Germline Chromosomal Rearrangements

Author(s) -

Sebastiaan van Heesch,

Marieke Simonis,

Markus J. van Roosmalen,

Vamsee Pillalamarri,

Harrison Brand,

Ewart Kuijk,

Kim L. de Luca,

Nico Lansu,

A. Koen Braat,

Androniki Menelaou,

Wensi Hao,

Jeroen Korving,

Simone Snijder,

Lars T. van der Veken,

Ron Hochstenbach,

Alida C. Knegt,

Karen Duran,

Ivo Renkens,

Najla Alekozai,

Myrthe Jager,

Sarah Vergult,

Björn Menten,

Ewart de Bruijn,

Sander Boymans,

Elly F. Ippel,

Ellen van Binsbergen,

Michael E. Talkowski,

Klaske D. Lichtenbelt,

Edwin Cuppen,

Wigard P. Kloosterman

Publication year - 2014

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2014.11.022

Subject(s) - germline , biology , genetics , context (archaeology) , breakpoint , somatic cell , cancer , germline mutation , gene duplication , genome , gene , chromosome , mutation , paleontology

Genomic rearrangements are a common cause of human congenital abnormalities. However, their origin and consequences are poorly understood. We performed molecular analysis of two patients with congenital disease who carried de novo genomic rearrangements. We found that the rearrangements in both patients hit genes that are recurrently rearranged in cancer (ETV1, FOXP1, and microRNA cluster C19MC) and drive formation of fusion genes similar to those described in cancer. Subsequent analysis of a large set of 552 de novo germline genomic rearrangements underlying congenital disorders revealed enrichment for genes rearranged in cancer and overlap with somatic cancer breakpoints. Breakpoints of common (inherited) germline structural variations also overlap with cancer breakpoints but are depleted for cancer genes. We propose that the same genomic positions are prone to genomic rearrangements in germline and soma but that timing and context of breakage determines whether developmental defects or cancer are promoted.

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