RT Journal Article
SR Electronic
T1 Frequency of mosaicism points towards mutation-prone early cleavage cell divisions
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 079863
DO 10.1101/079863
A1 Chad Harland
A1 Carole Charlier
A1 Latifa Karim
A1 Nadine Cambisano
A1 Manon Deckers
A1 Erik Mullaart
A1 Wouter Coppieters
A1 Michel Georges
YR 2016
UL http://biorxiv.org/content/early/2016/10/09/079863.abstract
AB It has recently become possible to directly estimate the germ-line de novo mutation (DNM) rate by sequencing the whole genome of father-mother-offspring trios, and this has been conducted in human1–5, chimpanzee6, birds7 and fish8. In these studies DNMs are defined as variants that are heterozygous in the offspring while being absent in both parents. They are assumed to have occurred in the germ-line of a parent and to have been transmitted to the offspring via the sperm or oocyte. This definition assumes that detectable mosaïcism in the individual in which the mutation occurred is negligible. However, instances of mosaïcism are well-documented in humans and other organisms, including ruminants9,10. We herein take advantage of the unique pedigree structure of cattle to show that mosaïcism associated with DNMs is a common occurrence, and that this should be taken into account to accurately estimate the mutation rate in this and possibly other species. It suggests that early cleavage cell divisions are particularly mutation-prone, and that the recurrence risk of DNM-dependent disorders in sibs may be higher than generally assumed.