Evolution on distributive lattices |
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| Authors: | Beerenwinkel Niko Eriksson Nicholas Sturmfels Bernd |
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| Affiliation: | Department of Mathematics, University of California, Berkeley, CA 94720, USA. niko@math.berkeley.edu |
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| Abstract: | ![]()
We consider the directed evolution of a population after an intervention that has significantly altered the underlying fitness landscape. We model the space of genotypes as a distributive lattice; the fitness landscape is a real-valued function on that lattice. The risk of escape from intervention, i.e., the probability that the population develops an escape mutant before extinction, is encoded in the risk polynomial. Tools from algebraic combinatorics are applied to compute the risk polynomial in terms of the fitness landscape. In an application to the development of drug resistance in HIV, we study the risk of viral escape from treatment with the protease inhibitors ritonavir and indinavir. |
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| Keywords: | Fitness landscape Distributive lattice Directed evolution Risk polynomial Chain polynomial HIV drug resistance Bayesian network Mutagenetic tree |
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