Biochemical reaction systems: Multistationarity, identifiability, and absolute concentrati — NSF Award to Texas A&M University (TX
This research will use mathematics to understand how living cells make decisions, such as when to divide or when to die. In living cells, many chemical reactions take place all the time. Scientists think of these reactions as forming a network, like a wiring diagram, with connecting wires describing the movement of nut
| Award title | Biochemical reaction systems: Multistationarity, identifiability, and absolute concentrati |
|---|---|
| Award ID | 2533213 |
| Awardee | Texas A&M University |
| City | COLLEGE STATION |
| State | TX |
| Amount obligated | $260,047 |
| Principal investigator | Anne Shiu |
| Program | MATHEMATICAL BIOLOGY |
| Start date | 08/01/2026 |
| Abstract | This research will use mathematics to understand how living cells make decisions, such as when to divide or when to die. In living cells, many chemical reactions take place all the time. Scientists think of these reactions as forming a network, like a wiring diagram, with connecting wires describing the movement of nutrients and metabolites through a cell's chemical reactions. Knowing the entire wiring diagram is not necessary for understanding the fate of individual nutrients, but the many inte |
| Source | NSF Awards |
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