Codon Bias Differentiates Between the Duplicated Amylase Loci Following Gene Duplication in Drosophila

Codon Bias Differentiates Between the Duplicated Amylase Loci Following Gene Duplication in Drosophila

Ze Zhang^a, Nobuyuki Inomata^a, Tomohiro Ohba^a, Marie-Louise Cariou^b, and Tsuneyuki Yamazaki^a
^a Laboratory of Molecular Population Genetics, Department of Biology, Graduate School of Sciences, Kyushu University, Fukuoka 812-8581, Japan
^b Populations, Genetique et Evolution, Centre National de la Recherche Scientifique, 91198 Gif sur Yvette cedex, France

Corresponding author: Nobuyuki Inomata, Department of Biology, Graduate School of Sciences, Kyushu University, Fukuoka 812-8581, Japan., ninomscb{at}mbox.nc.kyushu-u.ac.jp (E-mail)

Communicating editor: N. TAKAHATA

We examined the pattern of synonymous substitutions in the duplicatedAmylase (Amy) genes (called the Amy1- and Amy3-type genes, respectively)in the Drosophila montium species subgroup. The GC content atthe third synonymous codon sites of the Amy1-type genes washigher than that of the Amy3-type genes, while the GC contentin the 5'-flanking region was the same in both genes. This suggeststhat the difference in the GC content at third synonymous sitesbetween the duplicated genes is not due to the temporal or regionalchanges in mutation bias. We inferred the direction of synonymoussubstitutions along branches of a phylogeny. In most lineages,there were more synonymous substitutions from G/C (G or C) toA/T (A or T) than from A/T to G/C. However, in one lineage leadingto the Amy1-type genes, which is immediately after gene duplicationbut before speciation of the montium species, synonymous substitutionsfrom A/T to G/C were predominant. According to a simple modelof synonymous DNA evolution in which major codons are selectivelyadvantageous within each codon family, we estimated the selectionintensity for specific lineages in a phylogeny on the basisof inferred patterns of synonymous substitutions. Our resultsuggested that the difference in GC content at synonymous sitesbetween the two Amy-type genes was due to the change of selectionintensity immediately after gene duplication but before speciationof the montium species.

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