Add to ORKGThe discovery of a family of higly conserved DNA cystosine methylases in honey bees and other insects suggests that, like mammals, invertebrates possess a mechanism for storing epigenetic information that controls heritable states of gene expression. Recent data also show that silencing DNA methylation in young larvae mimics the effects of nutrition on early developmental processes that determine the reproductive fate of honey bee females. We evaluate the impact of these findings on future studies of environmentally-driven phenotypic plasticity in social insects, and discuss how they may help in understanding the nutritional basis of epigenetic reprogramming in humans
DNA methylation plays an important role in the epigenetic control of developmental and behavioral pl...
Context-dependent gene expression in eukaryotes is controlled by several mechanisms including cytosi...
DNA methylation systems are well characterized in vertebrates, but methylation in Drosophila melanog...
Fertile queens and sterile workers are alternative forms of the adult female honeybee that develop f...
A remarkable capacity of animals is to respond in a highly plastic manner to the world around them. ...
In honey bees (Apis mellifera) the behaviorally and reproductively distinct queen and worker female ...
Social environments are notoriously multifactorial, yet studies in rodents have suggested that singl...
A 2010 Nature editorial entitled ". Time for the Epigenome" trumpets the appearance of the Internati...
In honey bees (Apis mellifera) the behaviorally and reproductively distinct queen and worker female ...
In honey bees (Apis mellifera), the development of a larva into either a queen or worker depends on ...
DNA can undergo epigenetic modification at cytosine nucleotides by the addition of a methyl group (C...
Background: Epigenetic modification of DNA via methylation is one of the key inventions in eukaryoti...
Abstract Stingless bees of the genus Melipona, have long been considered an enigmatic case among soc...
Honey bee behavioral maturation exemplifies phenotypic plasticity, the ability of a single genotype ...
Phenotypic plasticity is the production of multiple phenotypes from a single genome and is notably o...
DNA methylation plays an important role in the epigenetic control of developmental and behavioral pl...
Context-dependent gene expression in eukaryotes is controlled by several mechanisms including cytosi...
DNA methylation systems are well characterized in vertebrates, but methylation in Drosophila melanog...
Fertile queens and sterile workers are alternative forms of the adult female honeybee that develop f...
A remarkable capacity of animals is to respond in a highly plastic manner to the world around them. ...
In honey bees (Apis mellifera) the behaviorally and reproductively distinct queen and worker female ...
Social environments are notoriously multifactorial, yet studies in rodents have suggested that singl...
A 2010 Nature editorial entitled ". Time for the Epigenome" trumpets the appearance of the Internati...
In honey bees (Apis mellifera) the behaviorally and reproductively distinct queen and worker female ...
In honey bees (Apis mellifera), the development of a larva into either a queen or worker depends on ...
DNA can undergo epigenetic modification at cytosine nucleotides by the addition of a methyl group (C...
Background: Epigenetic modification of DNA via methylation is one of the key inventions in eukaryoti...
Abstract Stingless bees of the genus Melipona, have long been considered an enigmatic case among soc...
Honey bee behavioral maturation exemplifies phenotypic plasticity, the ability of a single genotype ...
Phenotypic plasticity is the production of multiple phenotypes from a single genome and is notably o...
DNA methylation plays an important role in the epigenetic control of developmental and behavioral pl...
Context-dependent gene expression in eukaryotes is controlled by several mechanisms including cytosi...
DNA methylation systems are well characterized in vertebrates, but methylation in Drosophila melanog...