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Full-Text Articles in Life Sciences
Chronic Consumption Of A Western Diet Induces Robust Glial Activation In Aging Mice And In A Mouse Model Of Alzheimer’S Disease, Leah C. Graham, Jeffrey M. Harder, Ileana Soto Reyes, Wilhelmine N. De Vries, Simon W. M. John, Gareth R. Howell
Chronic Consumption Of A Western Diet Induces Robust Glial Activation In Aging Mice And In A Mouse Model Of Alzheimer’S Disease, Leah C. Graham, Jeffrey M. Harder, Ileana Soto Reyes, Wilhelmine N. De Vries, Simon W. M. John, Gareth R. Howell
Ileana Soto Reyes
Studies have assessed individual components of a western diet, but no study has assessed the long-term, cumulative effects of a western diet on aging and Alzheimer’s disease (AD). Therefore, we have formulated the first western-style diet that mimics the fat, carbohydrate, protein, vitamin and mineral levels of western diets. This diet was fed to aging C57BL/6J (B6) mice to identify phenotypes that may increase susceptibility to AD, and to APP/PS1 mice, a mouse model of AD, to determine the effects of the diet in AD. Astrocytosis and microglia/monocyte activation were dramatically increased in response to diet and was further increased …
A Magnetic Compass Aids Monarch Butterfly Migration, Robert Gegear, Patrick Guerra, Steven Reppert
A Magnetic Compass Aids Monarch Butterfly Migration, Robert Gegear, Patrick Guerra, Steven Reppert
Robert J. Gegear
Convincing evidence that migrant monarch butterflies (Danaus plexippus) use a magnetic compass to aid their fall migration has been lacking from the spectacular navigational capabilities of this species. Here we use flight simulator studies to show that migrants indeed possess an inclination magnetic compass to help direct their flight equatorward in the fall. The use of this inclination compass is light-dependent utilizing ultraviolet-A/blue light between 380 and 420 nm. Notably, the significance of light <420 nm for inclination compass function was not considered in previous monarch studies. The antennae are important for the inclination compass because they appear to contain light-sensitive magnetosensors. For migratory monarchs, the inclination compass may serve as an important orientation mechanism when directional daylight cues are unavailable and may also augment time-compensated sun compass orientation for appropriate directionality throughout the migration.