Genetical as well as experimental embryology methods have permitted to uncover a very important feature of mammalian embryonic development: it has been shown that female and male genomic complements are differentially imprinted in such a way that contribution of both a maternally and a paternally derived genome are absolutely necessary for the embryo to complete its normal development. The paternal and maternal genomes are not equivalent and have a complementary role during development in mammals. The differences in activity of each parental genome result from an epigenetic modification of the genome during gametogenesis: the parental imprinting. The recent discovery of several mouse and human genes which are imprinted should permit to address new data of some disease
Genomic imprinting and human pathology. I. General Part
CIRILLO, Margherita
1995-01-01
Abstract
Genetical as well as experimental embryology methods have permitted to uncover a very important feature of mammalian embryonic development: it has been shown that female and male genomic complements are differentially imprinted in such a way that contribution of both a maternally and a paternally derived genome are absolutely necessary for the embryo to complete its normal development. The paternal and maternal genomes are not equivalent and have a complementary role during development in mammals. The differences in activity of each parental genome result from an epigenetic modification of the genome during gametogenesis: the parental imprinting. The recent discovery of several mouse and human genes which are imprinted should permit to address new data of some disease
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