Widespread intron loss suggests retrotransposon activity in ancient apicomplexans.

Several facets of spliceosomal intron in apicomplexans remain mysterious. First, intron numbers vary across species by 2 orders of magnitude, indicating massive intron loss and/or gain. Second, previous studies have shown very different evolutionary patterns over different timescales, with 100-fold higher rates of intron loss/gain between genera than within genera. Third, the timing and dynamics of nearly complete intron loss in Cryptosporidium species, as well as reasons for retention of the few remaining introns, remain unknown. We compared intron positions in 785 orthologous genes between 3 moderate to intron-rich apicomplexan species. We estimate that the Theileria-Plasmodium ancestor had 4.5 times as many introns as modern Plasmodium species and 38% more than modern Theileria species, and that subsequent intron losses have outnumbered intron gains by 5.8 to 1 in Theileria and by some 56 to 1 in Plasmodium. Several patterns suggest that these intron losses occurred by recombination with reverse-transcribed mRNAs. Intriguingly, this finding suggests significant retrotransposon activity in the lineages leading to both Theileria and Plasmodium, in contrast to the dearth of known retrotransposons and intron loss within modern species from both genera. We also compared genomes from Cryptosporidium parvum and C. hominis and found no evidence of ongoing intron loss, nor of intron gain. By contrast, Cryptosporidium introns are less evolutionary conserved with Toxoplasma than are introns from other apicomplexans; thus the few remaining introns are not simply indispensable ancestral introns.