Ned S. Wingreen  Wingreen Lab Members  Wingreen Lab Publications

Welcome to the Wingreen Lab

Biological modeling; intracellular networks; molecular biophysics

Our group works on the following:

Intracellular networks in bacteria: Bacteria are constantly sensing their environments and adjusting their behavior accordingly. Signaling occurs through networks of proteins and nucleic acids, culminating in changes of gene expression and so changes in the proteome of the cell. We are focused on the architecture of these intracellular networks. What is the relation between network architecture and function? For example, can we understand the selection of architectures in terms of general information-processing concepts such as signal to noise, memory, and adaptation? Even in a single bacterium such as E. coli, there are hundreds of coexisting networks. Our belief is that a deep study of a small number of "model" networks will yield general tools to analyze information processing by cell. It is important to choose these model networks carefully. The network components should be well characterized and the physiological function of the network should be known and subject to quantitative measurement. Probes of the internal dynamics of the network such as fluorescence resonance energy transfer (FRET) or direct imaging of dynamic spatial structure, will be critical in developing and testing quantitative models. It will also be important to choose networks which complement each other well, spanning a broad range of architectures and functions. A preliminary list includes (i) quorum sensing, in which the cell slowly integrates signals from its neighbors to commit to a developmental decision such as invasion of a host, (ii) chemotaxis, which requires adaptation and rapid response to changing chemical concentrations, (iii) cell-division networks, where accuracy and checkpoints are essential, and (iv) metabolic networks which tie together diverse inputs to maintain homeostasis.

Read more: Wingreen Lab Research