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Circadian Rhythms Mediate Infection Risk In Daphnia Dentifera, Alaina C. Pfenning-Butterworth, David T. Nguyen, Jessica L. Hite, Clayton E. Cressler
Circadian Rhythms Mediate Infection Risk In Daphnia Dentifera, Alaina C. Pfenning-Butterworth, David T. Nguyen, Jessica L. Hite, Clayton E. Cressler
School of Biological Sciences: Faculty Publications
Biological rhythms mediate important within-host processes such as metabolism, immunity, and behavior which are often linked to combating disease exposure. For many hosts, exposure to pathogens occurs while feeding. However, the link between feeding rhythms and infection risk is unclear because feeding behavior is tightly coupled with immune and metabolic processes which may decrease susceptibility to infection. Here, we use the Daphnia dentifera–Metschnikowia bicuspidata host–pathogen system to determine how rhythms in feeding rate and immune function mediate infection risk. The host is known to have a nocturnal circadian rhythm in feeding rate, yet we found that they do not exhibit …
Circadian Rhythms Mediate Infection Risk In Daphnia Dentifera, Alaina C. Pfenning-Butterworth, David T. Nguyen, Jessica L. Hite, Clayton E. Cressler
Circadian Rhythms Mediate Infection Risk In Daphnia Dentifera, Alaina C. Pfenning-Butterworth, David T. Nguyen, Jessica L. Hite, Clayton E. Cressler
School of Biological Sciences: Faculty Publications
Biological rhythms mediate important within-host processes such as metabolism, immunity, and behavior which are often linked to combating disease exposure. For many hosts, exposure to pathogens occurs while feeding. However, the link between feeding rhythms and infection risk is unclear because feeding behavior is tightly coupled with immune and metabolic processes which may decrease susceptibility to infection. Here, we use the Daphnia dentifera–Metschnikowia bicuspidata host–pathogen system to determine how rhythms in feeding rate and immune function mediate infection risk. The host is known to have a nocturnal circadian rhythm in feeding rate, yet we found that they do not exhibit …
Circadian Rhythms Mediate Infection Risk In Daphnia Dentifera, Alaina C. Pfenning-Butterworth, David T. Nguyen, Jessica L. Hite, Clayton E. Cressler
Circadian Rhythms Mediate Infection Risk In Daphnia Dentifera, Alaina C. Pfenning-Butterworth, David T. Nguyen, Jessica L. Hite, Clayton E. Cressler
School of Biological Sciences: Faculty Publications
Biological rhythms mediate important within-host processes such as metabolism, immunity, and behavior which are often linked to combating disease exposure. For many hosts, exposure to pathogens occurs while feeding. However, the link between feeding rhythms and infection risk is unclear because feeding behavior is tightly coupled with immune and metabolic processes which may decrease susceptibility to infection. Here, we use the Daphnia dentifera–Metschnikowia bicuspidata host–pathogen system to determine how rhythms in feeding rate and immune function mediate infection risk. The host is known to have a nocturnal circadian rhythm in feeding rate, yet we found that they do not exhibit …