Crowder Laboratory
The Crowder lab is interested in the genetic determinants of cellular injury after environmental stress. We are focused on two cell stresses: hypoxia and general anesthetics.
- Cell death after hypoxia in the form of heart attacks and strokes is the number one cause of mortality in the United States. And, resistance to hypoxic cell death is a significant contributor to cancer cell metastasis and tumor growth.
- There is an increasing body of evidence that general anesthetics may be cytotoxic. Neurons, in particular, appear to be susceptible to anesthetic toxicity
We utilize the genetically tractable organism Caenorhabditis elegans, a soil nematode, as our primary model, identifying a variety of genes that control survival after hypoxic injury, such as growth factor receptors and general protein homeostasis factors. Hypoxia induces protein misfolding. Prevention and response to these misfolded proteins appears to be important for hypoxic survival.
Contact
Email: mmcslu@u.washington.edu
Phone: 206-221-0348
Address: Box 358057 850 Republican Street, Room N110 (SLU), Seattle, Washington 98109-8057
Lunch & Learn: Hypoxic Cell Death
Spend lunch with researchers from the Crowder lab and learn about hypoxia and how this condition causes cell stress and eventual death. Explore the effects of hypoxia and how the Crowder lab is leading research on this topic!
Investigate Genetic Responses to Cellular Stress
Join the Crowder lab to explore how genes influence survival after hypoxic injury and respond to protein misfolding, using Caenorhabditis elegans as a model organism.
Lab Members
