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Article Dans Une Revue Electronic Journal of Statistics Année : 2012

Statistics for the Luria―Delbrück distribution

Agnès Hamon
Bernard Ycart
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Résumé

The Luria-Delbrück distribution is a classical model of mutations in cell kinetics. It is obtained as a limit when the probability of mutation tends to zero and the number of divisions to infinity. It can be interpreted as a compound Poisson distribution (for the number of mutations) of exponential mixtures (for the developing time of mutant clones) of geometric distributions (for the number of cells produced by a mutant clone in a given time). The probabilistic interpretation, and a rigourous proof of convergence in the general case, are deduced from classical results on Bellman-Harris branching processes. The two parameters of the Luria-Delbrück distribution are the expected number of mutations, which is the parameter of interest, and the relative fitness of normal cells compared to mutants, which is the heavy tail exponent. Both can be simultaneously estimated by the maximum likehood method. However, the computation becomes numerically unstable when the maximal value of the sample is large, which occurs frequently due to the heavy tail property. Based on the empirical probability generating function, robust estimators are proposed and their asymptotic variance is given. They are comparable in precision to maximum likelihood estimators, with a much broader range of calculability, a better numerical stability, and a negligible computing time.

Dates et versions

hal-00851602 , version 1 (15-08-2013)

Identifiants

Citer

Agnès Hamon, Bernard Ycart. Statistics for the Luria―Delbrück distribution. Electronic Journal of Statistics , 2012, 6, pp.1251-1272. ⟨10.1214/12-EJS711⟩. ⟨hal-00851602⟩
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