BACKGROUND: De novo mutations and structural rearrangements are a common cause of intellectual disability (ID) and other disorders with reduced or null reproductive fitness. Insight into the genomic and environmental factors predisposing to the generation of these de novo events is therefore of significant clinical importance. METHODS: This study used information from single nucleotide polymorphism microarrays to determine the parent-of-origin of 118 rare de novo copy number variations (CNVs) detected in a cohort of 3443 patients with ID. RESULTS: The large majority of these CNVs (76%, p=1.14×10(-8)) originated on the paternal allele. This paternal bias was independent of CNV length and CNV type. Interestingly, the paternal bias was less pronounced for CNVs flanked by segmental duplications (64%), suggesting that molecular mechanisms involved in the formation of rare de novo CNVs may be dependent on the parent-of-origin. In addition, a significantly increased paternal age was only observed for those CNVs which were not flanked by segmental duplications (p=0.02). CONCLUSION: This indicates that rare de novo CNVs are increasingly being generated with advanced paternal age by replication based mechanisms during spermatogenesis.
BACKGROUND: De novo mutations and structural rearrangements are a common cause of intellectual disability (ID) and other disorders with reduced or null reproductive fitness. Insight into the genomic and environmental factors predisposing to the generation of these de novo events is therefore of significant clinical importance. METHODS: This study used information from single nucleotide polymorphism microarrays to determine the parent-of-origin of 118 rare de novo copy number variations (CNVs) detected in a cohort of 3443 patients with ID. RESULTS: The large majority of these CNVs (76%, p=1.14×10(-8)) originated on the paternal allele. This paternal bias was independent of CNV length and CNV type. Interestingly, the paternal bias was less pronounced for CNVs flanked by segmental duplications (64%), suggesting that molecular mechanisms involved in the formation of rare de novo CNVs may be dependent on the parent-of-origin. In addition, a significantly increased paternal age was only observed for those CNVs which were not flanked by segmental duplications (p=0.02). CONCLUSION: This indicates that rare de novo CNVs are increasingly being generated with advanced paternal age by replication based mechanisms during spermatogenesis.
Authors: Erwin Brosens; Florian Marsch; Elisabeth M de Jong; Hitisha P Zaveri; Alina C Hilger; Vera Gisela Choinitzki; Alice Hölscher; Per Hoffmann; Stefan Herms; Thomas M Boemers; Benno M Ure; Martin Lacher; Michael Ludwig; Bert H Eussen; Robert M van der Helm; Hannie Douben; Diane Van Opstal; Rene M H Wijnen; H Berna Beverloo; Yolande van Bever; Alice S Brooks; Hanneke IJsselstijn; Daryl A Scott; Johannes Schumacher; Dick Tibboel; Heiko Reutter; Annelies de Klein Journal: Eur J Hum Genet Date: 2016-07-20 Impact factor: 4.246
Authors: Lisa Neuhäusler; Anna Summerer; David N Cooper; Victor-F Mautner; Hildegard Kehrer-Sawatzki Journal: Hum Genet Date: 2018-05-05 Impact factor: 4.132
Authors: Jacobine E Buizer-Voskamp; Hylke M Blauw; Marco P M Boks; Kristel R van Eijk; Jan H Veldink; Eric A M Hennekam; Jacob A S Vorstman; Flip Mulder; Henning Tiemeier; André G Uitterlinden; Lambertus A Kiemeney; Leonard H van den Berg; René S Kahn; Chiara Sabatti; Roel A Ophoff Journal: Hum Genet Date: 2013-01-13 Impact factor: 4.132
Authors: Maria Delio; Tingwei Guo; Donna M McDonald-McGinn; Elaine Zackai; Sean Herman; Mark Kaminetzky; Anne Marie Higgins; Karlene Coleman; Carolyn Chow; Maria Jalbrzikowski; Maria Jarlbrzkowski; Carrie E Bearden; Alice Bailey; Anders Vangkilde; Line Olsen; Charlotte Olesen; Flemming Skovby; Thomas M Werge; Ludivine Templin; Tiffany Busa; Nicole Philip; Ann Swillen; Joris R Vermeesch; Koen Devriendt; Maude Schneider; Sophie Dahoun; Stephan Eliez; Kelly Schoch; Stephen R Hooper; Vandana Shashi; Joy Samanich; Robert Marion; Therese van Amelsvoort; Erik Boot; Petra Klaassen; Sasja N Duijff; Jacob Vorstman; Tracy Yuen; Candice Silversides; Eva Chow; Anne Bassett; Amos Frisch; Abraham Weizman; Doron Gothelf; Maria Niarchou; Marianne van den Bree; Michael J Owen; Damian Heine Suñer; Jordi Rosell Andreo; Marco Armando; Stefano Vicari; Maria Cristina Digilio; Adam Auton; Wendy R Kates; Tao Wang; Robert J Shprintzen; Beverly S Emanuel; Bernice E Morrow Journal: Am J Hum Genet Date: 2013-02-28 Impact factor: 11.025
Authors: Ian M Campbell; Jonathan R Stewart; Regis A James; James R Lupski; Paweł Stankiewicz; Peter Olofsson; Chad A Shaw Journal: Am J Hum Genet Date: 2014-09-18 Impact factor: 11.025