Add to ORKGClassically, quantitative geneticists have envisioned DNA sequence variants as the only source of heritable phenotypes. This view should be revised in light of accumulating evidence for widespread epigenetic variation in natural and experimental populations. Here we argue that it is timely to consider novel experimental strategies and analysis models to capture the potentially dynamic interplay between chromatin and DNA sequence factors in complex traits.
According to classical evolutionary theory, phenotypic variation originates from random mutations th...
The regulation of gene expression plays a pivotal role in complex phenotypes, and epigenetic mechani...
The field of epigenetics looks at changes in the chromosomal structure that affect gene expression w...
Classically, quantitative geneticists have envisioned DNA sequence variants as the only source of he...
Classically, quantitative geneticists have envisioned DNA sequence variants as the only source of he...
The field of epigenomics has rapidly progressed from the study of individual reference epigenomes to...
The field of epigenomics has rapidly progressed from the study of individual reference epigenomes to...
Epigenetics has progressed rapidly from an obscure quirk of heredity into a data-heavy ‘omic’ scienc...
To explore the potential evolutionary relevance of heritable epigenetic variation, the National Evol...
Epigenetics has progressed rapidly from an obscure quirk of heredity into a data-heavy ‘omic ’ scien...
The epigenome has been heralded as a key 'missing piece' of the aetiological puzzle for complex phen...
Epigenetic mechanisms such as DNA methylation, histone modifications and non-coding RNAs are increas...
Epigenetic effects are important in evolutionary biology. Yet, except in evolutionary developmental ...
Much of the recent advances in functional genomics owe to developments in next-generation sequencing...
Despite our detailed characterization of the human genome at the level of the primary DNA sequence, ...
According to classical evolutionary theory, phenotypic variation originates from random mutations th...
The regulation of gene expression plays a pivotal role in complex phenotypes, and epigenetic mechani...
The field of epigenetics looks at changes in the chromosomal structure that affect gene expression w...
Classically, quantitative geneticists have envisioned DNA sequence variants as the only source of he...
Classically, quantitative geneticists have envisioned DNA sequence variants as the only source of he...
The field of epigenomics has rapidly progressed from the study of individual reference epigenomes to...
The field of epigenomics has rapidly progressed from the study of individual reference epigenomes to...
Epigenetics has progressed rapidly from an obscure quirk of heredity into a data-heavy ‘omic’ scienc...
To explore the potential evolutionary relevance of heritable epigenetic variation, the National Evol...
Epigenetics has progressed rapidly from an obscure quirk of heredity into a data-heavy ‘omic ’ scien...
The epigenome has been heralded as a key 'missing piece' of the aetiological puzzle for complex phen...
Epigenetic mechanisms such as DNA methylation, histone modifications and non-coding RNAs are increas...
Epigenetic effects are important in evolutionary biology. Yet, except in evolutionary developmental ...
Much of the recent advances in functional genomics owe to developments in next-generation sequencing...
Despite our detailed characterization of the human genome at the level of the primary DNA sequence, ...
According to classical evolutionary theory, phenotypic variation originates from random mutations th...
The regulation of gene expression plays a pivotal role in complex phenotypes, and epigenetic mechani...
The field of epigenetics looks at changes in the chromosomal structure that affect gene expression w...