All life depends on energy expenditure and requires a continuous supply of energy and matter in the form of nutrients to function within the second law of thermodynamics. To understand the fundamental principles of how cells and organisms function, we need to determine how nutritional energy is transformed by cellular metabolism and partitioned among the complex array of cellular processes life uses to stay alive, grow, and proliferate. To achieve these ambitious aims, this proposal aims to address three overall objectives:
1: Develop approaches and methodologies to quantify the overall energetics of biological systems
2: Elucidate the role of energy expenditure on the accuracy and reproducibility of cellular signaling
3: Determine how energetics drive embryonic development and cell growth
This work will overcome the current lack of non-invasive techniques to quantitatively measure the physical quantities of metabolism, especially rates of energy conversion and expenditure in biological systems. The results will yield quantitative thermodynamic data needed to fundamentally understand biological systems and will be essential for kinetic growth studies of normal and diseased systems.