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How do internal and external environments control the transmission of cellular information? Our lab is investigating the mechanisms by which extracellular oxidation (by inflammation), and intracellular oxidation (such as initiated by receptor ligation) influence the ability of cells to signal | How do internal and external environments control the transmission of cellular information? Our lab is investigating the mechanisms by which extracellular oxidation (by inflammation), and intracellular oxidation (such as initiated by receptor ligation) influence the ability of cells to signal. We rely upon a strong synergy between computational and experimental methods to characterize proteomic dynamics of thiol oxidation. Because of the numerous biochemical reactions involved, we use computational modeling to investigate how signaling networks are regulated by redox-sensitive proteins, whose activities change in the presence of reactive oxygen species. Experimentally, we are developing novel high-throughput biochemical assays to detect and quantify the S-glutathionylation and oxidation of proteins. | ||
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We are located in the Wallace H. Coulter Department of Biomedical Engineering administered jointly between Georgia Tech and Emory University School of Medicine. The lab is physically located on the Georgia Tech campus in the Petit Institute for Bioengineering and Bioscience. | We are located in the Wallace H. Coulter Department of Biomedical Engineering administered jointly between Georgia Tech and Emory University School of Medicine. The lab is physically located on the Georgia Tech campus in the Petit Institute for Bioengineering and Bioscience. |
Revision as of 09:28, 19 May 2010
The Kemp Lab
Redox Systems Biology at Georgia Tech
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How do internal and external environments control the transmission of cellular information? Our lab is investigating the mechanisms by which extracellular oxidation (by inflammation), and intracellular oxidation (such as initiated by receptor ligation) influence the ability of cells to signal. We rely upon a strong synergy between computational and experimental methods to characterize proteomic dynamics of thiol oxidation. Because of the numerous biochemical reactions involved, we use computational modeling to investigate how signaling networks are regulated by redox-sensitive proteins, whose activities change in the presence of reactive oxygen species. Experimentally, we are developing novel high-throughput biochemical assays to detect and quantify the S-glutathionylation and oxidation of proteins.
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