Model
Digital Document
Member of
Risley, Monica G.
Person Preferred Name
(none provided)
Model
Digital Document
Description
Drosophila melanogaster is a promiscuous species that inhabits a large range of harsh environments
including flooded habitats and varying temperature changes. To survive these environments, fruit flies have
adapted mechanisms of tolerance that allow them to thrive. During exposure to anoxic stress, fruit flies and
other poikilotherms enter into a reversible, protective coma. This coma can be manipulated based on
controlled environmental conditions inside the laboratory. Here we utilize a common laboratory raised
strain of D. melanogaster to characterize adaptation abilities to better understand coma recovery and
survival limitations. Our goal is to mimic the fly’s natural environments (wet anoxia) and relate findings to a
typical gas induced environment (dry anoxia) that is commonly used in a laboratory. Despite the abundance
of research regarding acute and chronic anoxic exposure and cold stress, the literature is lacking evidence
linking anoxic stress with variable environmental conditions such as animal age and stress duration. We
present novel ways to assess coma recovery and survival using readily available laboratory tools. Our
findings suggest that younger age, exposure to colder temperatures and wet environments increase
resistance to anoxic stress.
including flooded habitats and varying temperature changes. To survive these environments, fruit flies have
adapted mechanisms of tolerance that allow them to thrive. During exposure to anoxic stress, fruit flies and
other poikilotherms enter into a reversible, protective coma. This coma can be manipulated based on
controlled environmental conditions inside the laboratory. Here we utilize a common laboratory raised
strain of D. melanogaster to characterize adaptation abilities to better understand coma recovery and
survival limitations. Our goal is to mimic the fly’s natural environments (wet anoxia) and relate findings to a
typical gas induced environment (dry anoxia) that is commonly used in a laboratory. Despite the abundance
of research regarding acute and chronic anoxic exposure and cold stress, the literature is lacking evidence
linking anoxic stress with variable environmental conditions such as animal age and stress duration. We
present novel ways to assess coma recovery and survival using readily available laboratory tools. Our
findings suggest that younger age, exposure to colder temperatures and wet environments increase
resistance to anoxic stress.
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