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      Primate evolution of an olfactory receptor cluster: diversification by gene conversion and recent emergence of pseudogenes.

      Genomics
      Animals, Base Sequence, Chromosomes, Human, Pair 17, DNA, Evolution, Molecular, Gene Conversion, Humans, In Situ Hybridization, Fluorescence, Molecular Sequence Data, Multigene Family, Primates, genetics, Pseudogenes, Receptors, Odorant

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          Abstract

          The olfactory receptor (OR) subgenome harbors the largest known gene family in mammals, disposed in clusters on numerous chromosomes. We have carried out a comparative evolutionary analysis of the best characterized genomic OR gene cluster, on human chromosome 17p13. Fifteen orthologs from chimpanzee (localized to chromosome 19p15), as well as key OR counterparts from other primates, have been identified and sequenced. Comparison among orthologs and paralogs revealed a multiplicity of gene conversion events, which occurred exclusively within OR subfamilies. These appear to lead to segment shuffling in the odorant binding site, an evolutionary process reminiscent of somatic combinatorial diversification in the immune system. We also demonstrate that the functional mammalian OR repertoire has undergone a rapid decline in the past 10 million years: while for the common ancestor of all great apes an intact OR cluster is inferred, in present-day humans and great apes the cluster includes nearly 40% pseudogenes. Copyright 1999 Academic Press.

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