Upside-Down but Headed in the Right Direction: Review of the Highly Versatile Cassiopea xamachana System

Aki Ohdera; Michael J. Abrams; Cheryl Lewis Ames; David M. Baker; Luis Parmenio Suescún Bolívar; Allen G. Collins; Christopher Freeman; Edgar Gamero‐Mora; Tamar L. Goulet; Dietrich K. Hofmann; Adrian Jaimes‐Becerra; Paul F. Long; António Carlos Marques; Laura Miller; Laura D. Mydlarz; André C. Morandini; Casandra R. Newkirk; Sastia Prama Putri; Julia E. Samson; Sérgio N. Stampar; Bailey Steinworth; Michelle A. Templeman; Patricia E. Thomé; Marli Vlok; Cheryl M. Woodley; Jane C. Y. Wong; Mark Q. Martindale; William K. Fitt; Mónica Medina

doi:10.3389/fevo.2018.00035

Upside-Down but Headed in the Right Direction: Review of the Highly Versatile Cassiopea xamachana System

Aki Ohdera(Pennsylvania State University), Michael J. Abrams(California Institute of Technology), Cheryl Lewis Ames(National Museum of Natural History), David M. Baker(Istituto di Scienze Marine del Consiglio Nazionale delle Ricerche), Luis Parmenio Suescún Bolívar(Universidad Nacional Autónoma de México), Allen G. Collins(National Museum of Natural History), Christopher Freeman(Smithsonian Marine Station), Edgar Gamero‐Mora(Universidade de São Paulo), Tamar L. Goulet(University of Mississippi), Dietrich K. Hofmann(Ruhr University Bochum), Adrian Jaimes‐Becerra(Universidade de São Paulo), Paul F. Long(King's College London), António Carlos Marques(Universidade de São Paulo), Laura Miller(University of North Carolina at Chapel Hill), Laura D. Mydlarz(The University of Texas at Arlington), André C. Morandini(Universidade de São Paulo), Casandra R. Newkirk(Whitney Museum of American Art), Sastia Prama Putri(The University of Osaka), Julia E. Samson(University of North Carolina at Chapel Hill), Sérgio N. Stampar(Universidade Estadual Paulista (Unesp)), Bailey Steinworth(University of Florida), Michelle A. Templeman(James Cook University), Patricia E. Thomé(Universidad Nacional Autónoma de México), Marli Vlok(University of British Columbia), Cheryl M. Woodley(NOAA National Ocean Service), Jane C. Y. Wong(Istituto di Scienze Marine del Consiglio Nazionale delle Ricerche), Mark Q. Martindale(Whitney Museum of American Art), William K. Fitt(University of Georgia), Mónica Medina(Smithsonian Institution)

Frontiers in Ecology and Evolution

April 9, 2018

10.3389/fevo.2018.00035

Cited by 135Open Access

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Abstract

The upside-down jellyfish Cassiopea xamachana (Scyphozoa: Rhizostomeae) has been predominantly studied to understand its interaction with the endosymbiotic dinoflagellate algae Symbiodinium. As an easily culturable and tractable cnidarian model, it is an attractive alternative to stony corals to understanding the mechanisms driving establishment and maintenance of symbiosis. Cassiopea is also unique in requiring the symbiont in order to complete its transition to the adult stage, thereby providing an excellent model to understand symbiosis-driven development and evolution. Recently, the Cassiopea research system has gained interest beyond symbiosis in fields related to embryology, climate ecology, behavior, and more. With these developments, resources including genomes, transcriptomes, and laboratory protocols are steadily increasing. This review provides an overview of the broad range of interdisciplinary research that has utilized the Cassiopea model and highlights the advantages of using the model for future research. We dedicate this manuscript to Robert Trench, who inspired many of us to begin working in Cassiopea

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