Open AccessChromosome instability is common in human cleavage-stage embryos
Author(s) -
Evelyne Vanneste,
Thierry Voet,
Cédric Le Caignec,
Michèle Ampe,
Peter Könings,
Cindy Melotte,
Sophie Debrock,
Mustapha Amyere,
Miikka Vikkula,
Frans Schuit,
JeanPierre Fryns,
Geert Verbeke,
Thomas D’Hooghe,
Yves Moreau,
Joris Vermeesch
Publication year - 2009
Publication title -
nature medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 19.536
H-Index - 547
eISSN - 1546-170X
pISSN - 1078-8956
DOI - 10.1038/nm.1924
Subject(s) - chromosome instability , biology , genome instability , genetics , blastomere , loss of heterozygosity , chromosome , zygote , aneuploidy , chromosomal translocation , embryo , embryogenesis , gene , allele , dna , dna damage
Chromosome instability is a hallmark of tumorigenesis. This study establishes that chromosome instability is also common during early human embryogenesis. A new array-based method allowed screening of genome-wide copy number and loss of heterozygosity in single cells. This revealed not only mosaicism for whole-chromosome aneuploidies and uniparental disomies in most cleavage-stage embryos but also frequent segmental deletions, duplications and amplifications that were reciprocal in sister blastomeres, implying the occurrence of breakage-fusion-bridge cycles. This explains the low human fecundity and identifies post-zygotic chromosome instability as a leading cause of constitutional chromosomal disorders.
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