Litcius/Paper detail

Thyroid hormones regulate the formation and environmental plasticity of white bars in clownfishes

Pauline Salis, Natacha Roux, Delai Huang, Anna Marcionetti, Pierick Mouginot, Mathieu Reynaud, Océane C. Salles, Nicolas Salamin, Benoît Pujol, David M. Parichy, Serge Planes, Vincent Laudet

2021Proceedings of the National Academy of Sciences83 citationsDOIOpen Access PDF

Abstract

Significance Developmental plasticity is defined as the ability of an organism to adjust its development depending on environmental signals, thus producing alternative phenotypes precisely adjusted to the environment. Yet, the mechanisms underlying developmental plasticity are not fully understood. We found that juvenile clownfish delay the development of their white bars during metamorphosis depending on the sea anemone species in which they are recruited. To understand this developmental plasticity, we investigated roles for thyroid hormones, the main hormones triggering metamorphosis in vertebrates. We found that thyroid hormones regulate white bar formation and that a shift in hormone levels, associated with ecological differences, results in divergent color patterns in different sea anemone species in which the young fish is recruited.

Topics & Concepts

MetamorphosisHormoneBiologyPhenotypic plasticityDevelopmental plasticityPlasticitySea anemoneAnemoneThyroidJuvenileThyroid hormonesEcologyZoologyEndocrinologyLarvaPhysicsThermodynamicsPhysiological and biochemical adaptationsAquaculture Nutrition and GrowthReproductive biology and impacts on aquatic species