Metabolism and Metabolic Control

Baumgard, Lance: Nutritional Physiology Research focus will be on improving efficiency of animal production and to better understand how nutrient utilization is regulated. Of special interest is how homeostatic and homeorhetic systems control nutrient partitioning to support different physiological states. Areas of research will involve nutritional, biochemical, molecular, and endocrine aspects of metabolism. Lactation: Research will concentrate on mechanisms regulating milk synthesis and production of milk components. This will involve studying the process of how milk fat is synthesized and how environmental factors, including nutrition and ambient temperature, regulate both the yield and composition of milk fat. Goals are to discover techniques to manipulate milk fat production to improve animal performance and well-being and improve the healthfulness of dairy products. Continued efforts will be made to identify the biological mechanisms by which selection mediates increased milk yield and to understand the variation and improve the efficiency of milk production. Growth: Research will focus on understanding lipid metabolism during growth. This will involve studying the process of how nutrients are coordinated and partitioned between accretion of lean and adipose tissue. Efforts will be made to manipulate lipid metabolism to improve efficiency and healthfulness of animal products

• Departmental affiliations: Animal Sciences, Nutritional Sciences
• Program affiliations: Animal Sciences, Physiological Sciences, Nutritional Sciences

Cherrington, Nathan: Transporter Regulation and Molecular Toxicology

• Departmental affiliations: Pharmacology & Toxicology
• Program affiliations: Pharmacology & Toxicology

Dornhaus, Anna: Organization in groups, how collective behaviors emerge from the actions and interactions of individuals, is the main interest of Anna Dornhaus. As model systems she studies social insect colonies (bumble bees, honey bees and ants) in the laboratory and in the field, as well as using mathematical and individual-based modeling approaches. She investigates mechanisms of coordination in foraging, collective decision-making, task allocation and division of labor. Her recent work has included the role of communication in the allocation of foragers to food sources; the evolution of different recruitment systems in different species of bees, and how ecology shapes these recruitment systems; house hunting strategies in ants; speed-accuracy trade offs in decision-making; and whether different group sizes necessitate different organizational strategies. Please check my homepage for details on individual projects.

• Departmental affiliations: Ecology & Evolutionary Biology, Entomology, BIO5 Institute
• Program affiliations: Ecology & Evolutionary Biology, Insect Science, Cognitive Science GIDP, Entomology

Griffin, Kurt: Prevention and early treatment of Diabetes. The role of protein kinase A (PKA) signaling in tumorigenesis

• Departmental affiliations: Pediatrics, BIO5 Institute
• Program affiliations: