Parasite Induced Host Compensatory Feeding in the Drosophila-Macrocheles Mite System

Titus, Lauren

January 2017

No description available.

Biology

Ectoparasite

CAFE Assay

Tolerance

Compensatory Feeding

The Circadian Regulation of Feeding in Adult Drosophila melanogaster

Shekhar, Shreya

11 January 2011

In nature, all organisms face the daily challenges created by a fluctuating environment. Circadian clocks synchronize behaviour and physiology allowing an organism to adapt to and predict daily changes to environmental conditions. In the fruit fly, Drosophila melanogaster, circadian clocks reside in a set of ~150 neurons in the brain, collectively referred to as the central clock, and in the cells of many peripheral tissues. The central clock regulates daily behavioural rhythms, whereas peripheral clocks are thought to regulate the local metabolic activities of the cells in which they reside. In this thesis, I demonstrate that a peripheral clock resides in the abdominal fat body, a tissue analogous to the mammalian liver and adipocytes. Moreover, I show that flies display a temporal feeding pattern that is partly regulated by a peripheral clock. I propose that the central clock and peripheral clocks coordinate to regulate the timing of fly feeding behaviour.

Circadian clocks

Drosophila melanogaster

Fat body

Feeding behaviour

CAFE assay

Circadian rhythms

0379

The Circadian Regulation of Feeding in Adult Drosophila melanogaster

Shekhar, Shreya

11 January 2011

In nature, all organisms face the daily challenges created by a fluctuating environment. Circadian clocks synchronize behaviour and physiology allowing an organism to adapt to and predict daily changes to environmental conditions. In the fruit fly, Drosophila melanogaster, circadian clocks reside in a set of ~150 neurons in the brain, collectively referred to as the central clock, and in the cells of many peripheral tissues. The central clock regulates daily behavioural rhythms, whereas peripheral clocks are thought to regulate the local metabolic activities of the cells in which they reside. In this thesis, I demonstrate that a peripheral clock resides in the abdominal fat body, a tissue analogous to the mammalian liver and adipocytes. Moreover, I show that flies display a temporal feeding pattern that is partly regulated by a peripheral clock. I propose that the central clock and peripheral clocks coordinate to regulate the timing of fly feeding behaviour.

Circadian clocks

Drosophila melanogaster

Fat body

Feeding behaviour

CAFE assay

Circadian rhythms

0379