Genetic variation in genes regulating metabolism may be advantageous in some settings but not others. The non-failing adult heart relies heavily on fatty acids as a fuel substrate and source of ATP. In contrast, the failing heart favors glucose as a fuel source. A bootstrap analysis for genes with deviant...
The answer to the question “Why do we sleep?” lies in understanding the biological underpinnings of homeostatic drive to sleep. Wakefulness is correlated with numerous changes in brain activity, structure and gene/protein expression that re-normalize following sleep however which of these elements is sufficient to cause sleep drive and how...
Pattern formation of biological structures involves the arrangement of different types of cells in an ordered spatial configuration. Patterning is thought to involve the spatial organization of molecular pre-patterns that precede and drive subsequent cell differentiation and coinciding morphogenesis. These molecular prepatterns are often, although not exclusively, organized through Turing...
The insulin/Insulin-Like Growth Factor (IGF) pathway is essential for linking nutritional status to growth and metabolism. MicroRNAs (miRNAs) are short RNAs that are players in the regulation of this process. The miRNA miR-7 shows highly conserved expression in insulin-producing cells across the animal kingdom. However, its conserved functions in regulation...
Cells are often precisely organized into patterns within developing tissues. This precision must emerge from biochemical processes within, and between cells, that are inherently stochastic. I investigated the impact of stochastic gene expression on self-organized pattern formation, focusing on Senseless (Sens), a key target of Wnt and Notch signaling during...
Organismal development depends upon countless cell decisions to adopt particular fates at the appropriate time and place. These decisions are executed by systems of biochemical reactions called regulatory networks. Elucidating the general principles underlying the structure and function of these networks is vital to understanding all developmental processes, as well...
After nearly 100 years of research, the function of sleep is unknown, prompting the desire to examine its regulation in a simpler model organism. In 2000, <em>Drosophila</em> was described as a novel model system to investigate sleep. These early studies defined features of normal sleep in <em>Drosophila</em>, and presented evidence...