Transgenerational epigenetic effects on animal behaviour

Jensen, Per

doi:10.1016/j.pbiomolbio.2013.01.001

Cited by 54 publications

(32 citation statements)

References 62 publications

(81 reference statements)

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“…Personality traits typically show long-term consistency within individuals, still there is adaptive significance in a considerable degree of plasticity in response to early developmental conditions (Groothuis & Trillmich 2011). A popular idea is that through environmental effects on DNA methylation, behavioural phenotypes can be controlled in concert with environmental demands (Kappeler & Meaney 2010;Jensen 2013), and may be effectuated via maternal effects, via for example maternal hormones, during embryonic development. The case of DRD4 in great tits, whose methylation may be partly under trans-genetic control, may offer an opportunity to investigate whether and how genetic and environmental control of DRD4 methylation may be balanced to jointly determine the behavioural phenotype.…”

Section: Discussionmentioning

confidence: 99%

Evidence from pyrosequencing indicates that natural variation in animal personality is associated with DRD4 DNA methylation

et al. 2016

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Personality traits are heritable and respond to natural selection, but are at the same time influenced by the ontogenetic environment. Epigenetic effects, such as DNA methylation, have been proposed as a key mechanism to control personality variation. However, to date little is known about the contribution of epigenetic effects to natural variation in behaviour. Here, we show that great tit (Parus major) lines artificially selected for divergent exploratory behaviour for four generations differ in their DNA methylation levels at the dopamine receptor D4 (DRD4) gene. This D4 receptor is statistically associated with personality traits in both humans and nonhuman animals, including the great tit. Previous work in this songbird failed to detect functional genetic polymorphisms within DRD4 that could account for the gene-trait association. However, our observation supports the idea that DRD4 is functionally involved in exploratory behaviour but that its effects are mediated by DNA methylation. While the exact mechanism underlying the transgenerational consistency of DRD4 methylation remains to be elucidated, this study shows that epigenetic mechanisms are involved in shaping natural variation in personality traits. We outline how this first finding provides a basis for investigating the epigenetic contribution to personality traits in natural systems and its subsequent role for understanding the ecology and evolution of behavioural consistency.

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Section: Discussionmentioning

confidence: 99%

Evidence from pyrosequencing indicates that natural variation in animal personality is associated with DRD4 DNA methylation

et al. 2016

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“…I have elaborated in detail on these aspects in previous reviews (Jensen, 2013;Jensen, 2014), and will expand on some of the aspects in the rest of this paper as well, but, mostly, it appears that all these processes do in fact occur: epigenomes respond in a nonrandom, often adaptive way to environmental signals, they cause behavioural changes and they are often inherited. This means that the interaction between the genome and the environment is far more dynamic and complex than previously thought and our view on domestication and evolution may have to be rather drastically revised.…”

Section: Epigenetic Mechanisms: What Causes Differences In Gene Exprementioning

confidence: 99%

Adding ‘epi-’ to behaviour genetics: implications for animal domestication

Jensen

2015

Journal of Experimental Biology

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In this review, it is argued that greatly improved understanding of domestication may be gained from extending the field of behaviour genetics to also include epigenetics. Domestication offers an interesting framework of rapid evolutionary changes caused by welldefined selection pressures. Behaviour is an important phenotype in this context, as it represents the primary means of response to environmental challenges. An overview is provided of the evidence for genetic involvement in behavioural control and the presently used methods for finding so-called behaviour genes. This shows that evolutionary changes in behaviour are to a large extent correlated to changes in patterns of gene expression, which brings epigenetics into the focus. This area is concerned with the mechanisms controlling the timing and extent of gene expression, and a lot of focus has been placed on methylation of cytosine in promoter regions, usually associated with genetic downregulation. The review considers the available evidence that environmental input, for example stress, can modify methylation and other epigenetic marks and subsequently affect behaviour. Furthermore, several studies are reviewed, demonstrating that acquired epigenetic modifications can be inherited and cause trans-generational behaviour changes. In conclusion, epigenetics may signify a new paradigm in this respect, as it shows that genomic modifications can be caused by environmental signals, and random mutations in DNA sequence are therefore not the only sources of heritable genetic variation.

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“…The information available can now be used to design more efficient studies to determine the environmental hazards of these exposures. A number of other laboratories have now shown transgenerational inheritance of disease induced by a variety of environmental factors including nutrition, 34 stress, 35 and other toxicants. 36 Combined observations suggest that epigenetic biomarkers for ancestral exposures and adult-onset disease exist and require future investigation.…”

Section: Germline Epimutationsmentioning

confidence: 99%