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1.
Dev Dyn ; 246(11): 848-857, 2017 11.
Artículo en Inglés | MEDLINE | ID: mdl-28850768

RESUMEN

BACKGROUND: Many organisms are able to survive in extreme environments by entering a state of dormancy. In dormancy, vital activities are reduced until environmental conditions are compatible with active life. Annual killifishes show a special developmental pattern characterized by a phase of dispersion-reaggregation of the blastomeres that separates epiboly from organogenesis, and the capability to enter dormancy in diapause. High tolerance to environmental stress confers annual killifish embryos the condition of extremophiles. At present, the questions of our research group are focused on the understanding of the mechanisms involved in diapause regulation through an interdisciplinary approach. As a first step, it is necessary to characterize diapauses at morphological and physiological levels and to evaluate induction cues under laboratory conditions. In this context, we characterized diapause I in two Austrolebias species. RESULTS: Our experimental approach to induce diapause I was successful and revealed the co-existence of two diapause I phenotypes named A and B instead of one. These phenotypes showed a tendency for lower total extractable RNA content compared with active developmental stages (80-100% epiboly and early reaggregate). CONCLUSIONS: These phenotypes are alternative diapause I stages and may have ecological relevance because both were found in embryos in natural ponds. Developmental Dynamics 246:848-857, 2017. © 2017 Wiley Periodicals, Inc.


Asunto(s)
Adaptación Fisiológica , Diapausa/fisiología , Desarrollo Embrionario/fisiología , Fundulidae/embriología , Animales , Ambiente , Fenotipo , ARN/análisis , Especificidad de la Especie
2.
PLoS One ; 16(6): e0251820, 2021.
Artículo en Inglés | MEDLINE | ID: mdl-34086690

RESUMEN

Diapause is a reversible developmental arrest faced by many organisms in harsh environments. Annual killifish present this mechanism in three possible stages of development. Killifish are freshwater teleosts from Africa and America that live in ephemeral ponds, which dry up in the dry season. The juvenile and adult populations die, and the embryos remain buried in the bottom mud until the next rainy season. Thus, species survival is entirely embryo-dependent, and they are perhaps the most remarkable extremophile organisms among vertebrates. The aim of the present study was to gather information about embryonic diapauses with the use of a "shotgun" proteomics approach in diapause III and prehatching Austrolebias charrua embryos. Our results provide insight into the molecular mechanisms of diapause III. Data are available via ProteomeXchange with identifier PXD025196. We detected a diapause-dependent change in a large group of proteins involved in different functions, such as metabolic pathways and stress tolerance, as well as proteins related to DNA repair and epigenetic modifications. Furthermore, we observed a diapause-associated switch in cytoskeletal proteins. This first glance into global protein expression differences between prehatching and diapause III could provide clues regarding the induction/maintenance of this developmental arrest in A. charrua embryos. There appears to be no single mechanism underlying diapause and the present data expand our knowledge of the molecular basis of diapause regulation. This information will be useful for future comparative approaches among different diapauses in annual killifish and/or other organisms that experience developmental arrest.


Asunto(s)
Ciprinodontiformes/metabolismo , Ciprinodontiformes/fisiología , Diapausa/fisiología , Embrión no Mamífero/metabolismo , Embrión no Mamífero/fisiología , Desarrollo Embrionario/fisiología , Adaptación Fisiológica/fisiología , África , Animales , Proteómica/métodos , Estaciones del Año
3.
Wiley Interdiscip Rev Dev Biol ; 1(4): 595-602, 2012.
Artículo en Inglés | MEDLINE | ID: mdl-23801535

RESUMEN

Annual fish are freshwater teleosts found in South America and Africa that are exposed to an extremely variable environment. They develop and reproduce in seasonal ponds that dry during the summer eliminating the entire adult population. Remarkably, desiccation-resistant embryos survive in these dry ponds that hatch during the next rainy season when the ponds are recreated. Among vertebrates, they represent one of the most remarkable extremophiles. They share several features with other fish models; however, they exhibit unique traits related to their peculiar life cycle. Epiboly is temporally and spatially uncoupled from organogenesis, and the embryos can undergo reversible developmental arrests (diapauses). These attributes make them a useful model to study diverse topics in developmental biology using a comparative and evolutionary approach. In this article, different aspects related to annual fish biology, taxonomy and phylogenetic considerations, reproductive strategy, and developmental characteristics with special focus on arrests, are summarized. The current challenge is to document and determine the factors that generate such high diversity and unique adaptations of annual fish. To understand this complexity, interdisciplinary approaches are being employed taking into consideration evolutionary biology, ethology, reproductive strategies, regulation of developmental mechanisms, and senescence.


Asunto(s)
Adaptación Fisiológica , Ciprinodontiformes/embriología , Ambiente , Reproducción/fisiología , Animales , Ciprinodontiformes/genética , Ciprinodontiformes/crecimiento & desarrollo , Ciprinodontiformes/fisiología , Embrión no Mamífero/embriología , Embrión no Mamífero/fisiología , Evolución Molecular , Filogenia
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