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Nonrandom frequency patterns of synonymous substitutions in homologous mammalian genes

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Abstract

All 69 homologous coding sequences that are currently available in four mammalian orders were aligned and the synonymous positions of quartet and duet (fourfold and twofold degenerate) codons were divided into three classes (that will be called conserved, intermediate, and variable) according to whether they show no change, one change, or more than one change, respectively. We observed (1) that the frequencies of conserved, intermediate, and variable positions of quartet and duet codons are different in different genes; (2) that the frequencies of the three classes are significantly different from expectations based on a random substitution process in the majority of genes (especially for GC-rich genes) for quartet codons and in a minority of genes for doublet codons; and (3) that the frequencies of the three classes of positions of quartet codons are correlated with those of duet codons, the conserved positions of quartet and duet codons being, in addition, correlated with the degree of amino acid conservation. Our main conclusions are that synonymous substitution frequencies: (1) are gene-specific; (2) are not simply the result of a stochastic process in which nucleotide substitutions accumulate at random, over time; and (3) are correlated in quartet and duet codons.

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References

  • Bernardi G, Olofsson B, Filipski J, Zerial M, Salinas J, Cuny G, Meunier-Rotival M, Rodier F (1985) The mosaic genome of warm-blooded vertebrates. Science 228:953–958

    Google Scholar 

  • Bernardi G, Mouchiroud D, Gautier C, Bernardi G (1988) Compositional patterns in vertebrate genomes: conservation and change in evolution. J Mol Evol 28:7–18

    Google Scholar 

  • Bernardi G, Bernardi G (1990a) Compositional patterns in the nuclear genome of cold-blooded vertebrates. J Mol Evol 31:265–281

    Google Scholar 

  • Bernardi G, Bernardi G (1990b) Compositional transitions in the nuclear genomes of cold-blooded vertebrates. J Mol Evol 31:282–293

    Google Scholar 

  • Bernardi G, Bernardi G (1991) Compositional properties of nuclear genes from cold-blooded vertebrates. J Mol Evol 33:57–67

    Google Scholar 

  • Bernardi G, Mouchiroud D, Gautier C (1993) Silent substitutions in mammalian genomes and their evolutionary implications. J Mol Evol 37:583–589

    Google Scholar 

  • Duret L, Mouchiroud D, Gouy M (1994) HOVERGEN: a database of homologous vertebrate genes. Nucleic Acids Res 22:2360–2365

    Google Scholar 

  • Higgins DG, Sharp PM (1988) CLUSTAL: a package for performing multiple sequence alignments on a microcomputer. Gene 73:237–244

    Google Scholar 

  • Mouchiroud D, Fichant, Bernardi G (1987) Compositional compartmentalization and gene composition in the genome of vertebrates. J Mol Evol 26:198–204

    Google Scholar 

  • Mouchiroud D, Gautier C, Bernardi G (1988) The compositional distribution of coding sequences and DNA molecules in humans and murids. J Mol Evol 27:311–320

    Google Scholar 

  • Mouchiroud D, Gautier C (1990) Codon usage changes and sequence dissimilarity between human and rat. J Mol Evol 31:81–91

    Google Scholar 

  • Mouchiroud D, Bernardi G (1993) Compositional properties of coding sequences and mammalian phylogeny. J Mol Evol 37:441–456

    Google Scholar 

  • Mouchiroud D, Gautier C, Bernardi G (1995) Frequencies of synonymous substitutions in mammals are gene-specific and correlated with frequencies of non-synonymous substitutions. J Mol Evol 40:107–113

    Google Scholar 

  • Sabeur G, Macaya G, Kadi F, Bernardi G (1993) The isochore patterns of mammalian genomes and their phylogenetic implications. J Mol Evol 37:93–108

    Google Scholar 

  • Salinas J, Zerial M, Filipski J, Bernardi G (1986) Gene distribution and nucleotide sequence organization in the mouse genome. Eur J Biochem 16:469–478

    Google Scholar 

  • Zerial M, Salinas J, Filipski J, Bernardi G (1986) Gene distribution and nucleotide sequence organization in the human genome. Eur J Biochem 160:479–485

    Google Scholar 

  • Zoubak S, D'Onofrio G, Cacciò S, Bernardi G, Bernardi G (1995) Specific compositional patterns of synonymous positions in homologous mammalian genes. J Mol Evol 40:293–307

    Google Scholar 

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Author notes

  1. Serguei Zoubak

    Present address: Institute of Molecular Biology and Genetics, Zabolotnogo str. 150, 252627, Kiev, Ukraine

  2. Giuseppe D'Onofrio

    Present address: Stazione Zoologica, Villa Comunale 1, 80121, Naples, Italy

Authors and Affiliations

  1. Laboratuire de Génétique Moléculaire, Institut Jacaues Monod, 2 Place Jussieu, 75005, Paris, France

    Simone Cacciò, Serguei Zoubak, Giuseppe D'Onofrio & Giorgio Bernardi

Authors
  1. Simone Cacciò
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  2. Serguei Zoubak
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  3. Giuseppe D'Onofrio
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  4. Giorgio Bernardi
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Cacciò, S., Zoubak, S., D'Onofrio, G. et al. Nonrandom frequency patterns of synonymous substitutions in homologous mammalian genes. J Mol Evol 40, 280–292 (1995). https://doi.org/10.1007/BF00163233

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  • DOI: https://doi.org/10.1007/BF00163233

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