Anemonefish, a model for Eco-Evo-Devo

Roux, Natacha; Salis, Pauline; Lee, Shu-Hua; Besseau, Laurence; Laudet, Vincent

doi:10.1186/s13227-020-00166-7

Cited by 34 publications

(49 citation statements)

References 78 publications

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“…Anemonefishes (subfamily Amphiprioninae) are a monophyletic group within the Pomacentridae (damselfish) family, comprising 30 species in two genera: Amphiprion (29 species) and Premnas (monospecific) [ 54 ]. They are well known for their ability to establish mutualistic symbiotic relationships with sea anemones and their brilliant color patterns have been proposed to be either a social display allowing species recognition [ 58 ] or an aposematic trait warning of harmful stings from their host [ 36 ].…”

Section: Color Pattern Formation In Anemonefishesmentioning

confidence: 99%

“…If these conservation issues are seriously taken, it must be emphasized that aquaculture trade anemonefish mutants offer a great entry point to better understand the genetics and development of complex and polymorphic pigmentation patterns. Anemonefish can be raised easily in laboratory husbandry systems and are open to developmental and genetic manipulation [ 38 , 54 ] as well as to genomic analyses [ 54 ]. Therefore, identifying the genes affected in various mutants, manipulating them in laboratory environments, testing the effect of these mutations in the complex social system of captive anemonefish colonies, and studying the polymorphism and evolutionary patterns of these genes in wild populations will certainly shed light on how and why brilliant pigmentation patterns emerged in coral reef fishes.…”

Section: Concluding Remarks On Conservation Issuesmentioning

confidence: 99%

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Variation on a theme: pigmentation variants and mutants of anemonefish

Klann

Mercader

Carlu

et al. 2021

EvoDevo

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Pigmentation patterning systems are of great interest to understand how changes in developmental mechanisms can lead to a wide variety of patterns. These patterns are often conspicuous, but their origins remain elusive for many marine fish species. Dismantling a biological system allows a better understanding of the required components and the deciphering of how such complex systems are established and function. Valuable information can be obtained from detailed analyses and comparisons of pigmentation patterns of mutants and/or variants from normal patterns. Anemonefishes have been popular marine fish in aquaculture for many years, which has led to the isolation of several mutant lines, and in particular color alterations, that have become very popular in the pet trade. Additionally, scattered information about naturally occurring aberrant anemonefish is available on various websites and image platforms. In this review, the available information on anemonefish color pattern alterations has been gathered and compiled in order to characterize and compare different mutations. With the global picture of anemonefish mutants and variants emerging from this, such as presence or absence of certain phenotypes, information on the patterning system itself can be gained.

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Section: Color Pattern Formation In Anemonefishesmentioning

confidence: 99%

Section: Concluding Remarks On Conservation Issuesmentioning

confidence: 99%

Variation on a theme: pigmentation variants and mutants of anemonefish

Klann

Mercader

Carlu

et al. 2021

EvoDevo

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“…Nevertheless, a group of marine fishes has received special attention over the past decade: The anemonefishes. The potentialities of anemonefishes as models for Eco‐Evo‐Devo have been recently reviewed (Roux et al, 2020). Their remarkable biological traits such as sex changes, symbiotic relationships with sea anemones, social organization, and sound production, have meant they have been the subject of many studies in recent years.…”

Section: Introductionmentioning

confidence: 99%

“…Such studies have addressed scientific questions spanning multiple disciplines such as ecology, developmental biology, and evolutionary sciences (Abdullah & Saad, 2015; Buston, 2003; Dixson et al, 2014; Litsios et al, 2012; Marcionetti et al, 2019; Mebs, 2009; Sahm et al, 2019). With the potential for use in behavioral experiments that can be performed in the lab or directly in the wild, or in functional genetics and genomic studies, these fishes undoubtedly provide an attractive marine model for Eco‐Evo‐Devo as well as for eco‐toxicological studies (reviewed in Roux et al, 2020). Toxicological studies are primarily concerned with investigating the effects of various chemicals and their compounds on organisms or conducting functional studies to enhance our understanding of a biological process.…”

Section: Introductionmentioning

confidence: 99%

A star is born again: Methods for larval rearing of an emerging model organism, the False clownfish Amphiprion ocellaris

et al. 2021

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As interest increases in ecological, evolutionary, and developmental biology (Eco-Evo-Devo), wild species are increasingly used as experimental models.However, we are still lacking a suitable model for marine fish species, as well as coral reef fishes that can be reared at laboratory scales. Extensive knowledge of the life cycle of anemonefishes, and the peculiarities of their biology, make them relevant marine fish models for developmental biology, ecology, and evolutionary sciences. Here, we present standard methods to maintain breeding pairs of the anemonefish Amphiprion ocellaris in captivity, obtain regular good quality spawning, and protocols to ensure larval survival throughout rearing. We provide a detailed description of the anemonefish husbandry system and life prey culturing protocols.Finally, a "low-volume" rearing protocol useful for the pharmacological treatment of larvae is presented. Such methods are important as strict requirements for large volumes in rearing tanks often inhibit continuous treatments with expensive or rare compounds.

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“…[17][18][19] In our lab, we are working to develop the false clownfish Amphiprion ocellaris as a marine teleost fishes model system. 20 Living in symbiotic association with giant sea anemones, this species is native to the Indo-West Pacific region from the Ryukyu Islands in Japan to northwestern Australia. Like most coral reef fishes, A ocellaris have a biphasic life cycle with a dispersive oceanic phase and a more sedentary reef phase (Figure 1).…”

mentioning

confidence: 99%

The real Nemo movie: Description of embryonic development inAmphiprion ocellarisfrom first division to hatching

Salis

Lee

Roux

et al. 2021

Developmental Dynamics

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Background: Amphiprion ocellaris is one of the rare reef fish species that can be reared in aquaria. It is increasingly used as a model species for Eco-Evo-Devo. Therefore, it is important to have an embryonic development table based on high quality images that will allow for standardized sampling by the scientific community. Results: Here we provide high-resolution time-lapse videos to accompany a detailed description of embryonic development in A ocellaris. We describe a series of developmental stages and we define six broad periods of embryogenesis: zygote, cleavage, blastula, gastrula, segmentation, and organogenesis that we further subdivide into 32 stages. These periods highlight the changing spectrum of major developmental processes that occur during embryonic development.Conclusions: We provide an easy system for the determination of embryonic stages, enabling the development of A ocellaris as a coral reef fish model species. This work will facilitate evolutionary development studies, in particular studies of the relationship between climate change and developmental trajectories in the context of coral reefs. Thanks to its lifestyle, complex behavior, and ecology, A ocellaris will undoubtedly become a very attractive model in a wide range of biological fields. K E Y W O R D Scoral reef fish, developmental stages, embryogenesis, pigmentation, Pomacentridae, timelapse video | INTRODUCTIONDevelopmental biology is built around model organisms such as the mouse Mus musculus, the chicken Gallus gallus, the frog Xenopus laevis, the zebrafish Danio rerio, the Pauline Salis and Shu-hua Lee these authors contributed equally.

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Anemonefish, a model for Eco-Evo-Devo

Cited by 34 publications

References 78 publications

Variation on a theme: pigmentation variants and mutants of anemonefish

Variation on a theme: pigmentation variants and mutants of anemonefish

A star is born again: Methods for larval rearing of an emerging model organism, the False clownfish Amphiprion ocellaris

The real Nemo movie: Description of embryonic development inAmphiprion ocellarisfrom first division to hatching

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