Methods for Estimating Gene Frequencies and Detecting Selection in Bacterial Populations

Methods for Estimating Gene Frequencies and Detecting Selection in Bacterial Populations

Bruce Rannala^a, Wei-Gang Qiu^a, and Daniel E. Dykhuizen^a
^a Department of Ecology and Evolution, State University of New York, Stony Brook, New York 11754-5245

Corresponding author: Bruce Rannala, Department of Ecology and Evolution, State University of New York, Stony Brook, NY 11794-5245., rannala{at}life.bio.sunysb.edu (E-mail)

Communicating editor: A. G. CLARK

Recent breakthroughs in molecular technology, most significantlythe polymerase chain reaction (PCR) and in situ hybridization,have allowed the detection of genetic variation in bacterialcommunities without prior cultivation. These methods often producedata in the form of the presence or absence of alleles or genotypes,however, rather than counts of alleles. Using relative allelefrequencies from presence-absence data as estimates of populationallele frequencies tends to underestimate the frequencies ofcommon alleles and overestimate those of rare ones, potentiallybiasing the results of a test of neutrality in favor of balancingselection. In this study, a maximum-likelihood estimator (MLE)of bacterial allele frequencies designed for use with presence-absencedata is derived using an explicit stochastic model of the hostinfection (or bacterial sampling) process. The performance ofthe MLE is evaluated using computer simulation and a methodis presented for evaluating the fit of estimated allele frequenciesto the neutral infinite alleles model (IAM). The methods areapplied to estimate allele frequencies at two outer surfaceprotein loci (ospA and ospC) of the Lyme disease spirochete,Borrelia burgdorferi, infecting local populations of deer ticks(Ixodes scapularis) and to test the fit to a neutral IAM.

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