DNA methylation and Polycomb are key factors in the establishment of vertebrate cellular
identity and fate. Here we report de novo missense mutations in DNMT3A, which encodes …

Edinburgh Research Explorer Page 1 Edinburgh Research Explorer Gain of function DNMT3A
mutations cause microcephalic dwarfism and hypermethylation of polycomb-regulated regions …

"Gain-of-Function DNMT3A Mutations Cause Microcephalic Dwarfism and Hyp" by Patricia
Heyn, Clare V Logan et al. Home Search Browse Collections My Account About DC Network …

In brief: Gain-of-function mutations altering DNMT3A are identified as a new cause of
microcephalic dwarfism. Modelling of the disease in mice show that the mutations abrogate …

DNA methylation and Polycomb are key factors in the establishment of vertebrate cellular
identity and fate. Here we report de novo missense mutations in DNMT3A, encoding the …

DNA methylation and Polycomb are key factors in the establishment of vertebrate cellular
identity and fate. Here we report de novo missense mutations in DNMT3A, encoding the …

Gain-of-function DNMT3A mutations cause microcephalic dwarfism and hypermethylation of
Polycomb-regulated regions | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …

DNA methylation and Polycomb are key factors in the establishment of vertebrate cellular
identity and fate. Here we report de novo missense mutations in DNMT3A, which encodes …

Edinburgh Research Explorer Page 1 Edinburgh Research Explorer Gain of function DNMT3A
mutations cause microcephalic dwarfism and hypermethylation of polycomb-regulated regions …

DNA methylation and Polycomb are key factors in the establishment of vertebrate cellular
identity and fate. Here we report de novo missense mutations in DNMT3A, which encodes …