Breakage-fusion-bridge Cycles Leading to Inv Dup Del Occur in Human Cleavage Stage Embryos

Overview

Journal Hum Mutat

Specialty Genetics

Date 2011 Mar 18

PMID 21412953

Citations 28

Authors

Thierry Voet

Evelyne Vanneste

Niels VAN DER Aa

Cindy Melotte

Sigrun Jackmaert

Tamara Vandendael

Matthias Declercq

Sophie Debrock

Jean-Pierre Fryns

Yves Moreau

Thomas DHooghe

Joris R Vermeesch

Affiliations

Soon will be listed here.

Abstract

Recently, a high incidence of chromosome instability (CIN) was reported in human cleavage stage embryos. Based on the copy number changes that were observed in the blastomeres it was hypothesized that chromosome breakages and fusions occur frequently in cleavage stage human embryos and instigate subsequent breakage-fusion-bridge cycles. In addition, it was hypothesized that the DNA breaks present in spermatozoa could trigger this CIN. To test these hypotheses, we genotyped both parents as well as 93 blastomeres from 24 IVF embryos and developed a novel single nucleotide polymorphism (SNP) array-based algorithm to determine the parental origin of (aberrant) loci in single cells. Paternal as well as maternal alleles were commonly rearranged in the blastomeres indicating that sperm-specific DNA breaks do not explain the majority of these structural variants. The parent-of-origin analyses together with microarray-guided FISH analyses demonstrate the presence of inv dup del chromosomes as well as more complex rearrangements. These data provide unequivocal evidence for breakage-fusion-bridge cycles in those embryos and suggest that the human cleavage stage embryo is a major source of chromosomal disorders.

Citing Articles

Identification of small-sized intrachromosomal segments at the ends of INV-DUP-DEL patterns.

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