Climate change. In the era of exome and genome sequencing, it might be worthwhile revisiting the merit of family studies in epilepsy research. Seizure disorders are known to have a highly diverse genetic architecture. When singleton studies identify a single, unique gene finding, this discovery usually does not provide much information about the potential causal role of the variant given the high degree of genomic noise. In contrast, family studies are usually considered more robust, as segregation of variants can be traced. Here is the inconvenient truth: unless the family is very large, segregation of possibly monogenic variants adds little information given the vast amount of variants present in our genomes. Continue reading
Monthly Archives: November 2013
The mosaic brain – single neuron copy number variations in humans
Variability. It has been rumored for quite some time, but only now is solid evidence present to show this phenomenon: the high degree of genomic diversity of human neurons. In a recent paper in Science, the genomic diversity among frontal brain neurons is explored on a cell-by-cell basis. The results are breathtaking: up to 40% of frontal cortex neurons have altered genomic material affected by large deletions or duplications. This study provides the linchpin for a plethora of new investigations aiming to understand the impact of this phenomenon in health and disease. Continue reading
