CAREER: Defining kinase-driven cellular response networks using single-cell genomics — NSF Award to Columbia University (NY, $542,
How a cell responds to stress is critical to its performance in biomedical applications. Modifying the response can dramatically improve treatment outcomes. For example, altering the response to chemotherapy could inhibit or reverse tumor growth. Altering the immune system response could reduce the need for vaccine dev
| Award title | CAREER: Defining kinase-driven cellular response networks using single-cell genomics |
|---|---|
| Award ID | 2146007 |
| Awardee | Columbia University |
| City | NEW YORK |
| State | NY |
| Amount obligated | $542,418 |
| Principal investigator | Jose McFaline-Figueroa |
| Program | Cellular & Biochem Engineering |
| Start date | 02/15/2022 |
| Abstract | How a cell responds to stress is critical to its performance in biomedical applications. Modifying the response can dramatically improve treatment outcomes. For example, altering the response to chemotherapy could inhibit or reverse tumor growth. Altering the immune system response could reduce the need for vaccine development. Many of the key regulators of these responses are enzymes known as kinases. Several kinase inhibitors have proven successful in treating certain cancers. Utilizing genomi |
| Source | NSF Awards |
$799/mo
Try NSFGrants →