Lea-Coulson Formulation
Cross-source consensus on Lea-Coulson Formulation from 1 sources and 6 claims.
1 sources · 6 claims
How it works
Benefits
Comparisons
Highlighted claims
- The expected number of mutants in Lea-Coulson matches the Luria-Delbruck expectation after setting gamma equal to alpha minus beta. — Cellular replication limits in the Luria-Delbrück mutation model
- The Lea-Coulson formulation combines deterministic wild-type dynamics with stochastic mutant birth-death dynamics. — Cellular replication limits in the Luria-Delbrück mutation model
- In Lea-Coulson, a mutant born at time s follows a birth-death process with birth rate alpha and death rate beta. — Cellular replication limits in the Luria-Delbrück mutation model
- Stochastic mutant extinction reduces Lea-Coulson escape probability relative to deterministic Luria-Delbruck dynamics when mutant death is present. — Cellular replication limits in the Luria-Delbrück mutation model
- Increasing mutant birth rate while keeping net growth fixed increases Lea-Coulson variance when mutant death is present. — Cellular replication limits in the Luria-Delbrück mutation model
- Numerical Lea-Coulson examples show that lower replication capacity reduces the mode and spread of the mutant distribution. — Cellular replication limits in the Luria-Delbrück mutation model