Oviparous animals support reproduction via the incorporation of yolk as a nutrient source into the eggs. In , however, yolk proteins seem dispensable for fecundity, despite constituting the vast majority of the embryonic protein pool and acting as carriers for nutrient-rich lipids. Here, we used yolk protein-deprived mutants to gain insight into the traits that may yet be influenced by yolk rationing. We show that massive yolk provisioning confers a temporal advantage during embryogenesis, while also increasing early juvenile body size and promoting competitive fitness. Opposite to species that reduce egg production under yolk deprivation, our results indicate that relies on yolk as a fail-safe to secure offspring survival, rather than to maintain offspring numbers.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10105328 | PMC |
| http://dx.doi.org/10.26508/lsa.202201675 | DOI Listing |
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Article Synopsis
- Maternal hormones, particularly androgens like testosterone, can significantly influence the physiological and behavioral traits of offspring, affecting them differently based on their sex.
- A study involving wild great tit eggs demonstrated that increasing yolk testosterone reduced begging behavior and altered fledging mass while also leading to sex-specific changes in DNA methylation at 763 specific sites linked to growth and reproduction.
- These findings imply that maternal testosterone influences offspring traits through changes in DNA methylation, highlighting the need for further research to determine if these effects persist beyond the early life stage and influence overall fitness.
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