Probability of Fixation of an Advantageous Mutant in a Viral Quasispecies

Probability of Fixation of an Advantageous Mutant in a Viral Quasispecies

Claus O. Wilke^a
^a Digital Life Laboratory, Caltech, Pasadena, California 91125

Corresponding author: Claus O. Wilke, Caltech, Pasadena, CA 91125., wilke{at}caltech.edu (E-mail)

Communicating editor: M. W. FELDMAN

The probability that an advantageous mutant rises to fixationin a viral quasispecies is investigated in the framework ofmultitype branching processes. Whether fixation is possibledepends on the overall growth rate of the quasispecies thatwill form if invasion is successful rather than on the individualfitness of the invading mutant. The exact fixation probabilitycan be calculated only if the fitnesses of all potential membersof the invading quasispecies are known. Quasispecies fixationhas two important characteristics: First, a sequence with negativeselection coefficient has a positive fixation probability aslong as it has the potential to grow into a quasispecies withan overall growth rate that exceeds that of the establishedquasispecies. Second, the fixation probabilities of sequenceswith identical fitnesses can nevertheless vary over many ordersof magnitudes. Two approximations for the probability of fixationare introduced. Both approximations require only partial knowledgeabout the potential members of the invading quasispecies. Theperformance of these two approximations is compared to the exactfixation probability on a network of RNA sequences with identicalsecondary structure.

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