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Are Synonymous Sites in Primates and Rodents Functionally Constrained?

Nicholas Price1, Dan Graur2

  • 1Department of Bioagricultural Sciences and Pest Management, Colorado State University, Fort Collins, CO, 80523, USA. price4890@gmail.com.

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Summary
This summary is machine-generated.

Synonymous sites in primates and rodents do not appear to be under selective constraint. Previous studies showing otherwise likely resulted from mutation biases, particularly GC content shifts in pseudogenes.

Keywords:
Effective population sizeSelective constraintSynonymous sites

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Area of Science:

  • Evolutionary biology
  • Molecular evolution
  • Genomics

Background:

  • Synonymous sites in mammals were previously thought to be under selective constraint.
  • Studies suggested primates had more stringent selective constraint than rodents.
  • This contradicts theoretical expectations given differing effective population sizes.

Purpose of the Study:

  • To resolve the contradiction between theoretical expectations and observed selective constraint at synonymous sites.
  • To re-evaluate selective constraint using processed pseudogenes as a model for neutral evolution.

Main Methods:

  • Utilized processed pseudogenes to model neutral evolution.
  • Estimated selective constraint by comparing substitution rates at pseudosynonymous and pseudononsynonymous sites.
  • Controlled for GC content effects using a maximum parsimony approach on fourfold degenerate sites.

Main Results:

  • Initial analyses controlling for GC content replicated previous findings: primates showed higher selective constraint than rodents.
  • However, a maximum parsimony approach controlling for GC content shifts revealed neutral evolution at synonymous sites in both primates and rodents.
  • Apparent deviations from neutrality were attributed to mutation rate biases (C → A and C → T) in pseudogenes, likely due to GC content shifts.

Conclusions:

  • Previous estimates of significant selective constraint at synonymous sites in primates are likely artifacts of mutation biases.
  • Synonymous sites in both primates and rodents appear to evolve neutrally.
  • GC content shifts in pseudogenes can create misleading patterns of apparent selective constraint.