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G-proteins and directional sensing in neutrophil chemotaxis
Mathematical Biology| Speaker: | Sean Collins, Microbiology and Molecular Genetics, UC Davis |
| Related Webpage: | http://biosci3.ucdavis.edu/Faculty/Profile/View/14490 |
| Location: | 2112 MSB |
| Start time: | Mon, Nov 23 2015, 2:10PM |
Cells must process spatial information from surface receptors in many biological contexts including development, neural plasticity, and immune responses. Chemotaxis, directed cellular movement along a chemical gradient, is a particularly extreme example. Human neutrophils can use spatial sensing mechanisms to detect and respond to as little as a 1% difference in ligand concentration across the length of a cell. While abstract models have suggested some network features that may be important, there still is no molecularly grounded model for directional sensing. Our recent results suggest that the specialization of G-proteins immediately downstream of the receptor is central to the process. We are investigating how the G-protein signaling dynamics control the accuracy of directional sensing.
Please let Mariel (mariel@math.ucdavis.edu) know if you would like to meet with the speaker and/or join the dinner.