References of "Talvik, Tiina"
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See detailApplication of rare variant transmission disequilibrium tests to epileptic encephalopathy trio sequence data
Allen, Andrew S.; Berkovic, Samuel F.; Bridgers, Joshua et al

in European Journal of Human Genetics (2017)

The classic epileptic encephalopathies, including infantile spasms (IS) and Lennox–Gastaut syndrome (LGS), are severe seizure disorders that usually arise sporadically. De novo variants in genes mainly ... [more ▼]

The classic epileptic encephalopathies, including infantile spasms (IS) and Lennox–Gastaut syndrome (LGS), are severe seizure disorders that usually arise sporadically. De novo variants in genes mainly encoding ion channel and synaptic proteins have been found to account for over 15% of patients with IS or LGS. The contribution of autosomal recessive genetic variation, however, is less well understood. We implemented a rare variant transmission disequilibrium test (TDT) to search for autosomal recessive epileptic encephalopathy genes in a cohort of 320 outbred patient–parent trios that were generally prescreened for rare metabolic disorders. In the current sample, our rare variant transmission disequilibrium test did not identify individual genes with significantly distorted transmission over expectation after correcting for the multiple tests. While the rare variant transmission disequilibrium test did not find evidence of a role for individual autosomal recessive genes, our current sample is insufficiently powered to assess the overall role of autosomal recessive genotypes in an outbred epileptic encephalopathy population. [less ▲]

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See detailDe Novo Mutations in Synaptic Transmission Genes Including DNM1 Cause Epileptic Encephalopathies.
Appenzeller, Silke; Balling, Rudi UL; Barisic, Nina et al

in American Journal of Human Genetics (2017), 100(1), 179-

In the list of consortium members for the Epilepsy Phenome/Genome Project, member Dina Amrom’s name was misspelled as Amron. The authors regret the error.

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See detailDe Novo Mutations in Synaptic Transmission Genes Including DNM1 Cause Epileptic Encephalopathies
Appenzeller, Silke; Balling, Rudi UL; Barisic, Nina et al

in American Journal of Human Genetics (2014), 4

Emerging evidence indicates that epileptic encephalopathies are genetically highly heterogeneous, underscoring the need for large cohorts of well-characterized individuals to further define the genetic ... [more ▼]

Emerging evidence indicates that epileptic encephalopathies are genetically highly heterogeneous, underscoring the need for large cohorts of well-characterized individuals to further define the genetic landscape. Through a collaboration between two consortia (EuroEPINOMICS and Epi4K/EPGP), we analyzed exome-sequencing data of 356 trios with the “classical” epileptic encephalopathies, infantile spasms and Lennox Gastaut syndrome, including 264 trios previously analyzed by the Epi4K/EPGP consortium. In this expanded cohort, we find 429 de novo mutations, including de novo mutations in DNM1 in five individuals and de novo mutations in GABBR2, FASN, and RYR3 in two individuals each. Unlike previous studies, this cohort is sufficiently large to show a significant excess of de novo mutations in epileptic encephalopathy probands compared to the general population using a likelihood analysis (p = 8.2 × 10−4), supporting a prominent role for de novo mutations in epileptic encephalopathies. We bring statistical evidence that mutations in DNM1 cause epileptic encephalopathy, find suggestive evidence for a role of three additional genes, and show that at least 12% of analyzed individuals have an identifiable causal de novo mutation. Strikingly, 75% of mutations in these probands are predicted to disrupt a protein involved in regulating synaptic transmission, and there is a significant enrichment of de novo mutations in genes in this pathway in the entire cohort as well. These findings emphasize an important role for synaptic dysregulation in epileptic encephalopathies, above and beyond that caused by ion channel dysfunction. [less ▲]

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See detailDe novo mutations in HCN1 cause early infantile epileptic encephalopathy
Nava, Caroline; Dalle, Carine; Rastetter, Agnès et al

in Nature Genetics (2014)

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