Negative Covariance Suggests Mutation Bias in a Two-Locus Microsatellite System in the Fish Sparus aurata

Negative Covariance Suggests Mutation Bias in a Two-Locus Microsatellite System in the Fish Sparus aurata

Emmanouil T. Dermitzakis^a,b, Andrew G. Clark^b, Costas Batargias^a,c, Antonios Magoulas^c, and Eleftherios Zouros^a,c
^a Department of Biology, University of Crete, 711 10 Iraklion, Crete, Greece,
^b Institute of Molecular Evolutionary Genetics, Department of Biology, Pennsylvania State University, University Park, Pennsylvania 16802
^c Genetics Department, Institute of Marine Biology of Crete, 710 03, Iraklion, Greece

Corresponding author: Emmanouil T. Dermitzakis, 208 Mueller Lab, Department of Biology, Pennsylvania State University, University Park, PA 16802., exd158{at}psu.edu (E-mail).

Communicating editor: M. W. FELDMAN

Constraints on microsatellite length appear to vary in a species-specificmanner. We know very little about the nature of these constraintsand why they should vary among species. While surveying microsatellitevariation in the Mediterranean gilthead sea bream, Sparus aurata,we discovered an unusual pattern of covariation between twoclosely linked microsatellite loci. One- and two-locus haplotypeswere scored from PCR amplification products of each locus separatelyand both loci together. In a sample of 211 fish, there was astrong negative covariance in repeat number between the twoloci, which suggests a mechanism that maintains the combinedlength below a constrained size. In addition, there were twoclusters of the same combined haplotype length, one consistingof a long repeat array at one locus and a short array at theother and vice versa. We demonstrate that several models ofbiased mutation or natural selection, in theory, could generatethis pattern of covariance. The common feature of all the modelsis the idea that tightly linked microsatellites do not evolvein complete independence, and that whatever size dependencethere is to the process, it appears to "read" the combined sizeof the two loci.

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