Add to ORKGEmbryonic development is complex, dynamic, and dependent on environmental factors. Mechanisms of sensing and integrating environmental stimuli are diverse, and understanding these mechanisms in extant species can elucidate how complex phenotypes emerge from genomic information expressed in an environmental context. In Austrofundulus limnaeus, an annual killifish with alternative developmental trajectories, light and temperature are vital factors that determine if an embryo will enter a state of diapause. We hypothesize that embryos of A. limnaeus use the vitamin D3 signaling pathway as a vehicle to incorporate these ecological signals into their developmental programing. Here we provide evidence of this pathway\u27s importance in regulating...
Annual killifish adapted to life in seasonally ephemeral water-bodies exhibit desiccation resistant ...
International audienceBackground: Diapause is a developmental arrest present in annual killifish, wh...
© 2016 the American Physiological Society. Life cycle delays are beneficial for opportunistic specie...
The Annual Killifish, Austrofundulus limnaeus, survives the seasonal drying of their pond habitat in...
The mechanisms that integrate environmental signals into developmental programs remain largely uncha...
Background: Many organisms are able to survive in extreme environments by entering a state of dorman...
Austrofundulus limnaeus is a species of annual killifish which inhabits ephemeral ponds in South Ame...
Annual killifishes exhibit a number of unique life history characters including the occurrence of em...
Diapause is a reversible developmental arrest faced by many organisms in harsh environments. Annual ...
Background: Annual killifishes are adapted to surviving and reproducing over alternating dry and wet...
Diapause is a programmed state of developmental arrest that typically occurs as part of the natural ...
Studies emphasizing the crucial dynamic between multicellular organisms and microbes continue to bro...
Background: Austrofundulus limnaeus is an annual killifish from the Maracaibo basin of Venezuela. An...
© 2015. Published by The Company of Biologists Ltd. Diapause is a programmed state of developmental ...
The annual killifish, Austrofundulus limnaeus, is capable of entering into a state of metabolic and ...
Annual killifish adapted to life in seasonally ephemeral water-bodies exhibit desiccation resistant ...
International audienceBackground: Diapause is a developmental arrest present in annual killifish, wh...
© 2016 the American Physiological Society. Life cycle delays are beneficial for opportunistic specie...
The Annual Killifish, Austrofundulus limnaeus, survives the seasonal drying of their pond habitat in...
The mechanisms that integrate environmental signals into developmental programs remain largely uncha...
Background: Many organisms are able to survive in extreme environments by entering a state of dorman...
Austrofundulus limnaeus is a species of annual killifish which inhabits ephemeral ponds in South Ame...
Annual killifishes exhibit a number of unique life history characters including the occurrence of em...
Diapause is a reversible developmental arrest faced by many organisms in harsh environments. Annual ...
Background: Annual killifishes are adapted to surviving and reproducing over alternating dry and wet...
Diapause is a programmed state of developmental arrest that typically occurs as part of the natural ...
Studies emphasizing the crucial dynamic between multicellular organisms and microbes continue to bro...
Background: Austrofundulus limnaeus is an annual killifish from the Maracaibo basin of Venezuela. An...
© 2015. Published by The Company of Biologists Ltd. Diapause is a programmed state of developmental ...
The annual killifish, Austrofundulus limnaeus, is capable of entering into a state of metabolic and ...
Annual killifish adapted to life in seasonally ephemeral water-bodies exhibit desiccation resistant ...
International audienceBackground: Diapause is a developmental arrest present in annual killifish, wh...
© 2016 the American Physiological Society. Life cycle delays are beneficial for opportunistic specie...