We consider a model of fixed size N = 2(l) in which there are 1 generations of daughter cells and a stem cell. In each generation i there are 2(i-1) daughter cells. At each integral time unit the cells split so that the stem cell splits into a stem cell and generation 1 daughter cell and the generation i daughter cells become two cells of generation i + 1. The last generation is removed from the population. A stem cell acquires first and second mutations at rates u(1) and u(2), and a daughter cell acquires first and second mutations at rates v(1) and v(2). We find the distribution for the time it takes to acquire two mutations as N goes to infinity and the mutation rates go to 0. The mutation rates may tend to 0 at different speeds. We also find the distribution for the locations of the mutations. In particular, we determine whether or not the mutations occur on a stem cell and if not, at what generation in the daughter cells they occur. Several outcomes are possible, depending on how fast the rates go to 0. The model considered has been proposed by Komarova (2007) as a model for colon cancer.

• 出版日期2012-12