期刊
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
卷 103, 期 8, 页码 2730-2735出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.0507782103
关键词
amino acid substitution; Arabidopsis; Oryza; protein functional domain; single-nucleotide polymorphism
Genome duplication followed by massive gene loss has permanently shaped the genomes of many higher eukaryotes, particularly angiosperms. It has long been believed that a primary advantage of genome duplication is the opportunity for the evolution of genes with new functions by modification of duplicated genes. If so, then patterns of genetic diversity among strains within taxa might reveal footprints of selection that are consistent with this advantage. Contrary to classical predictions that duplicated genes may be relatively free to acquire unique functionality, we find among both Arabidopsis ecotypes and Oryza subspecies that SNIPS encode less radical amino acid changes in genes for which there exists a duplicated copy at a paleologous locus than in singleton genes. Preferential retention of duplicated genes encoding long complex proteins and their unexpectedly slow divergence (perhaps because of homogenization) suggest that a primary advantage of retaining duplicated paleologs may be the buffering of crucial functions. Functional buffering and functional divergence may represent extremes in the spectrum of duplicated gene fates. Functional buffering may be especially important during genomic turmoil immediately after genome duplication but continues to act approximate to 60 million years later, and its gradual deterioration may contribute cyclicality to genome duplication in some lineages.
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