Patterns of Intron Loss and Gain in Plants: Intron Loss-Dominated Evolution and Genome-Wide Comparison of O. sativa and A. thaliana

doi:10.1093/molbev/msl159

MBE Advance Access originally published online on October 25, 2006
Molecular Biology and Evolution 2007 24(1):171-181; doi:10.1093/molbev/msl159

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© The Author 2006. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Research Articles

Patterns of Intron Loss and Gain in Plants: Intron Loss–Dominated Evolution and Genome-Wide Comparison of O. sativa and A. thaliana

Scott William Roy and David Penny

Allan Wilson Centre for Molecular Ecology and Evolution, Massey University, Palmerston North, New Zealand

E-mail: scottwroy{at}gmail.com.

Accepted for publication October 2, 2006.

Numerous previous studies have elucidated 2 surprising patternsof spliceosomal intron evolution in diverse eukaryotes overthe past roughly 100 Myr. First, rates of recent intron gainin a wide variety of eukaryotic lineages have been surprisinglylow, far too low to explain modern intron densities. Second,intron losses have outnumbered intron gains over a variety oflineages. For several reasons, land plants might be expectedto have comparatively high rates of intron gain and thus torepresent a possible exception to this pattern. However, wereport several studies that indicate low rates of intron gainand an excess of intron losses over intron gains in a varietyof plant lineages. We estimate that intron losses have outnumberedintron gains in recent evolution in Arabidopsis thaliana (roughly12.6 times more losses than gains), Oryza sativa (9.8 times),the green alga Chlamydomonas reinhardtii (5.1 times), and theBigelowiella natans nucleomorph, an enslaved green algal nucleus(2.8 times). We estimate that during recent evolution, A. thalianaand O. sativa have experienced very low rates of intron gainof around one gain per gene per 2.6–8.0 billion years.In addition, we compared 8,258 pairs of putatively orthologousA. thaliana–O. sativa genes. We found that 5.3% of intronsin conserved coding regions are species-specific. Observed species-specificA. thaliana and O. sativa introns tend to be exact and to lieadjacent to each other along the gene, in a pattern suggestingmRNA-mediated intron loss. Our results underscore that low introngain rates and intron number reduction are common features ofrecent eukaryotic evolution. This pattern implies that ratesof intron creation were higher during earlier periods of evolutionand further focuses attention on the causes of initial intronproliferation.

Billie Swalla, Associate Editor

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