Comparison of the chicken and turkey genomes reveals a higher rate of nucleotide divergence on microchromosomes than macrochromosomes

  1. Erik Axelsson1,
  2. Matthew T. Webster1,
  3. Nick G.C. Smith2,
  4. David W. Burt3, and
  5. Hans Ellegren1,4
  1. 1 Department of Evolutionary Biology, Evolutionary Biology Centre, Uppsala University, SE-752 36 Uppsala, Sweden
  2. 2 Department of Mathematics and Statistics, Fylde College, Lancaster University, Lancaster LA1 4YF, United Kingdom
  3. 3 Division of Genomics and Bioinformatics, Roslin Institute, Roslin (Edinburgh), Midlothian, EH25 9PS, United Kingdom

Abstract

A distinctive feature of the avian genome is the large heterogeneity in the size of chromosomes, which are usually classified into a small number of macrochromosomes and numerous microchromosomes. These chromosome classes show characteristic differences in a number of interrelated features that could potentially affect the rate of sequence evolution, such as GC content, gene density, and recombination rate. We studied the effects of these factors by analyzing patterns of nucleotide substitution in two sets of chicken-turkey sequence alignments. First, in a set of 67 orthologous introns, divergence was significantly higher in microchromosomes (chromosomes 11-38; 11.7% divergence) than in both macrochromosomes (chromosomes 1-5; 9.9% divergence; P = 0.016) and intermediate-sized chromosomes (chromosomes 6-10; 9.5% divergence; P = 0.026). At least part of this difference was due to the higher incidence of CpG sites on microchromosomes. Second, using 155 orthologous coding sequences we noted a similar pattern, in which synonymous substitution rates on microchromosomes (13.1%) were significantly higher than were rates on macrochromosomes (10.3%; P = 0.024). Broadly assuming neutrality of introns and synonymous sites, or constraints on such sequences do not differ between chromosomal classes, these observations imply that microchromosomal genes are exposed to more germ line mutations than those on other chromosomes. We also find that dN/dS ratios for genes located on microchromosomes (average, 0.094) are significantly lower than those of macrochromosomes (average, 0.185; P = 0.025), suggesting that the proteins of genes on microchromosomes are under greater evolutionary constraint.

Footnotes

  • [Supplemental material is available online at www.genome.org. The sequence data from this study have been submitted to GenBank under accession nos. AY685058-AY685062, AY685066-AY685094, and AY685097-AY685111.]

  • Article and publication are at http://www.genome.org/cgi/doi/10.1101/gr.3021305. Article published online before print in December 2004.

  • 4 Corresponding author. E-mail Hans.Ellegren{at}ebc.uu.se; fax 46-18-4716310.

    • Accepted September 16, 2004.
    • Received July 19, 2004.
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