Remarks on the Luria–Delbrück distribution

Anthony G. Pakes

doi:10.2307/3214530

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'

References

Bailey, N. T. J. (1964) The Elements of Stochastic Processes. Wiley, New York.Google Scholar

Bartlett, M. S. (1978) An Introduction to Stochastic Processes, 3rd edn. Cambridge University Press.Google Scholar

Chover, J., Ney, P. and Wainger, S. (1973) Functions of probability measures. J. D'Analyse Math. XXVI, 255–302.CrossRef Google Scholar

Douglas, J. B. (1980) Analysis with Standard and Contagious Distributions. Intl. Co-operative Pub. House, Fairland, MD, USA.Google Scholar

Embrechts, P. and Hawkes, J. (1982) A limit theorem for tails of discrete infinitely divisible laws with applications to fluctuation theory. J. Austral. Math. Soc. Series A 32, 412–422.Google Scholar

Harn, K. Van (1978) Classifying Infinitely Divisible Distributions by Functional Equations. Math. Centrum Tract 103, Amsterdam.Google Scholar

Jolly, L. B. W. (1961) Summation of Series, 2nd revised edn. Dover, New York.Google Scholar

Ma, W. T., Sandri, G. Vh. and Sarkar, S. (1992) Analysis of the Luria-Delbrück distribution using convolution powers. J. Appl. Prob. 29, 255–267.Google Scholar

Mandelbrot, B. (1974) A population birth-mutation process, I: Explicit distributions for the number of mutants in an old culture of bacteria. J. Appl. Prob. 11, 437–444.CrossRef Google Scholar

Ord, J. K. (1972) Families of Frequency Functions. Griffin, London.Google Scholar

Sarkar, S., Ma, W. T. and Sandri, G. Vh. (1992) On fluctuation analysis: a new, simple and efficient method for computing the expected number of mutants. Genetica 85, 173–179.CrossRef Google Scholar PubMed

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Goldie, Charles M. 1995. Asymptotics of the Luria-Delbrück distribution. Journal of Applied Probability, Vol. 32, Issue. 03, p. 840.

Goldie, Charles M. 1995. Asymptotics of the Luria-Delbrück distribution. Journal of Applied Probability, Vol. 32, Issue. 3, p. 840.

Jaeger, Gregg and Sarkar, Sahotra 1995. On the distribution of bacterial mutants: The effects of differential fitness of mutants and non-mutants. Genetica, Vol. 96, Issue. 3, p. 217.

Nádas, Arthur Goncharova, Ekaterina I. and Rossman, Toby G. 1996. Mutations and infinity: Improved statistical methods for estimating spontaneous rates. Environmental and Molecular Mutagenesis, Vol. 28, Issue. 2, p. 90.

Prodinger, Helmut 1996. Asymptotics of the Luria-Delbrück distribution via singularity analysis. Journal of Applied Probability, Vol. 33, Issue. 01, p. 282.

Prodinger, Helmut 1996. Asymptotics of the Luria-Delbrück distribution via singularity analysis. Journal of Applied Probability, Vol. 33, Issue. 1, p. 282.

Zheng, Qi 1999. Progress of a half century in the study of the Luria–Delbrück distribution. Mathematical Biosciences, Vol. 162, Issue. 1-2, p. 1.

Hilberdink, Titus 1999. An Integral Formula for Taylor Coefficients of a Class of Analytic Functions. Journal of Mathematical Analysis and Applications, Vol. 233, Issue. 1, p. 266.

Angerer, Wolfgang P. 2001. A note on the evaluation of fluctuation experiments. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis, Vol. 479, Issue. 1-2, p. 207.

Zheng, Qi 2002. Statistical and algorithmic methods for fluctuation analysis with SALVADOR as an implementation. Mathematical Biosciences, Vol. 176, Issue. 2, p. 237.

Zheng, Qi 2003. Mathematical Issues Arising From the Directed Mutation Controversy. Genetics, Vol. 164, Issue. 1, p. 373.

Gusev, Y. and Armitage, Peter 2005. Encyclopedia of Biostatistics.

Möhle, M. 2005. Convergence results for compound Poisson distributions and applications to the standard Luria–Delbrück distribution. Journal of Applied Probability, Vol. 42, Issue. 03, p. 620.

Möhle, M. 2005. Convergence results for compound Poisson distributions and applications to the standard Luria–Delbrück distribution. Journal of Applied Probability, Vol. 42, Issue. 3, p. 620.

Zheng, Qi 2007. On Haldane’s formulation of Luria and Delbrück’s mutation model. Mathematical Biosciences, Vol. 209, Issue. 2, p. 500.

Zheng, Qi 2008. A note on plating efficiency in fluctuation experiments. Mathematical Biosciences, Vol. 216, Issue. 2, p. 150.

Zheng, Qi 2008. On Bartlett’s formulation of the Luria–Delbrück mutation model. Mathematical Biosciences, Vol. 215, Issue. 1, p. 48.

Zheng, Qi 2009. Letter to the Editor. Journal of Applied Probability, Vol. 46, Issue. 04, p. 1221.

Zheng, Qi 2009. Letter to the Editor. Journal of Applied Probability, Vol. 46, Issue. 4, p. 1221.

Zheng, Qi 2010. A new discrete distribution induced by the Luria–Delbrück mutation model. Statistics, Vol. 44, Issue. 5, p. 529.

Download full list

Article contents

Remarks on the Luria–Delbrück distribution

Abstract

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests