Abstract
Apicomplexan protists such as Plasmodium and Toxoplasma contain a mitochondrion and a relic plastid (apicoplast) that are sites of protein translation. Although there is emerging interest in the partitioning and function of translation factors that participate in apicoplast and mitochondrial peptide synthesis, the composition of organellar ribosomes remains to be elucidated. We carried out an analysis of the complement of core ribosomal protein subunits that are encoded by either the parasite organellar or nuclear genomes, accompanied by a survey of ribosome assembly factors for the apicoplast and mitochondrion. A cross-species comparison with other apicomplexan, algal and diatom species revealed compositional differences in apicomplexan organelle ribosomes and identified considerable reduction and divergence with ribosomes of bacteria or characterized organelle ribosomes from other organisms. We assembled structural models of sections of Plasmodium falciparum organellar ribosomes and predicted interactions with translation inhibitory antibiotics. Differences in predicted drug–ribosome interactions with some of the modelled structures suggested specificity of inhibition between the apicoplast and mitochondrion. Our results indicate that Plasmodium and Toxoplasma organellar ribosomes have a unique composition, resulting from the loss of several large and small subunit proteins accompanied by significant sequence and size divergences in parasite orthologues of ribosomal proteins.
Highlights
Plasmodium parasites have three genomes [1]: a 23 Mb nuclear genome distributed on 14 linear chromosomes [2], a 35 kb circular genome found in the relic plastid [3] and a 6 kb linear genome in the mitochondrion [4,5]
We conducted a survey of available sequences of apicomplexan apicoplast genomes, comparing ribosomal proteins encoded by different species
We used several search strategies—genome projects were interrogated by text searches to find all annotated ribosomal pro- 2 teins, and these were manually examined, gene models and predicted proteins were subject to BLASTP searches, whereas genome nucleotide data were subjected to TBLASTN searches
Summary
Plasmodium parasites have three genomes [1]: a 23 Mb nuclear genome distributed on 14 linear chromosomes [2], a 35 kb circular genome found in the relic plastid (the apicoplast) [3] and a 6 kb linear genome in the mitochondrion [4,5]. Each of these genomes is transcribed by its own apparatus [6,7,8] and each compartment possesses a suite of unique ribosomes for its translation [9,10,11].
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