Mapping the deletion endpoints in individuals with 22q11.2 Deletion Syndrome by droplet digital PCR.

[22q11.2 deletion syndrome]

Chromosome 22 q 11 .2 deletion syndrome (22 q 11 DS ) is the most common human microdeletion syndrome and is associated with many cognitive , neurological and psychiatric disorders . The majority of individuals have a 3 Mb deletion while others have a nested 1 .5 Mb deletion , but rare atypical deletions have also been described . To date , a study using droplet digital PCR (ddPCR ) has not been conducted to systematically map the chromosomal breakpoints in individuals with 22 q 11 DS , which would provide important genotypic insight into the various phenotypes observed in this syndrome .This study uses ddPCR to assess copy number (CN ) changes within the chromosome 22 q 11 deletion region and allows the mapping of the deletion endpoints . We used eight TaqMan assays interspersed throughout the deleted region of 22 q 11 .2 to characterize the deleted region of chromosome 22 in 80 individuals known to have 22 q 11 DS by FISH . Ten EvaGreen assays were used for finer mapping of the six identified individuals with 22 q 11 DS atypical deletions and covering different regions of chromosome 22 .ddPCR provided non-ambiguous CN measurements across the region , confirmed the presence of the deletion in the individuals screened , and led to the identification of five differently sized and located deletions . The majority of the participants (n = 74 ) had the large 3 Mb deletions , whereas three had the smaller 1 .5 Mb deletions , and the remaining three had an interstitial deletion of different size .The lower cost , rapid execution and high reliability and specificity provided by ddPCR for CN measurements in the 22 q 11 region constitutes a significant improvement over the variable CN values generated by other technologies . The ability of the ddPCR approach , to provide a high resolution mapping of deletion endpoints may result in the identification of genes that are haplo-insufficient and play a role in the pathogenesis of 22 q 11 DS . Finally , this methodology can be applied to the characterization of other microdeletions throughout the genome .