Browsing by Author "Morton, C.C."
Now showing 1 - 2 of 2
Results Per Page
Sort Options
- Genomic landscape of balanced cytogenetic abnormalities in subjects with multiple congenital anomaliesPublication . Redin, Claire; Brand, Harrison; Collins, Ryan; Hanscom, Carrie; Vamsee, Pillalamarri; Kammin, Tammy; Mitchell, E.; Hodge, J.C.; Schilit, S.; Curall, B.B.; Pereira, S.; Seabra, C.; Stone, M.; Lawless, W.; Lucente, D.; Antolik, C.; Hochstenbach, R.; Renkens, I.; Brilstra, E.; Vergult, S.; Menten, B.; Janssens, S.; Callewaert, B.; D’heedene, A.; D’hooghe, M; Roelens, F.; van de Kamp, J.; Nieuwint, A.; Poddighe, P.J; van Ravenswaaij-Arts, C.; Rump, P.; van Essen, T.; Freixo, J.; David, Dezső; Liao, E.C.; Leew, N. de; Brunner, H.G.; Kloosterman, W.; Thorland, E.C.; Morton, C.C.; Gusella, J.F.; Talkowski, M E.Balanced chromosomal abnormalities (BCAs) represent a unique class of genomic variation that involves large rearrangement of the chromosomes. To date their detection has been limited to cytogenetic resolution as most first-tier genetic screening methods are blind to their presence. We defined the genomic landscape of de novo BCAs associated with human congenial anomalies in 235 subjects using whole-genome sequencing. We observed that 22% of all BCAs harbored additional cryptic complexity, ranging from three breakpoints to chromothripsis events involving up to 57 breakpoints. Compared to random expectations, BCAs were more likely to occur between loci in close physical proximity in the nucleus, and their breakpoints were significantly enriched for evolutionarily constrained and embryonically expressed genes. From our convergent genomic interpretation using orthogonal datasets, we predict that the congenital anomaly phenotype was likely attributable to the BCA in at least 30% of subjects. An additional 4% of BCAs disrupted long-range regulatory regions such as topologically associating domains (TADs) resulting in position effects on genes associated with specific clinical manifestations that were compatible with the proband sequenced here. Remarkably, we observed a cluster of six independent translocations that disrupted a TAD and consequently altered MEF2C expression, mimicking the 5q14.3 microdeletion syndrome. These results suggest that de novo BCAs represent a highly penetrant class of genomic variation associated with congenital anomalies, and that nucleotide resolution offers insights into phenotypic prediction from direct gene disruption and alteration of long-range regulatory domains that are likely to be a significant source of causal variation in human disease.
- Nucleotide-level resolution of a complex chromosomal rearrangement associated with cognitive disabilities reveals chromothripsisPublication . Cardoso, M.; Oliva-Teles, N.; Tkachenko, N.; Talkowski, M.E.; Morton, C.C.; Fortuna, A.M.; David, D.Chromothripsis is an extreme form of complex chromosomal rearrangement (CCR), characterized by a localized shattering and random reassembly of genomic fragments. The aim of this study is the characterization at sequence-level resolution of a cytogenetically identified CCR 46,XY,t(7;14)(q21.13;q31),inv(15)(q21.2q26.1) associated with cognitive disabilities, and intrafamilial phenotype-genotype correlation analysis. Chromosomal alterations were mapped by large-insert whole genome sequencing (liWGS).