The non-photosynthetic plastid in malarial parasites and other apicomplexans is derived from outside the green plastid lineage.

The discovery of a non-photosynthetic plastid genome in Plasmodium falciparum and other apicomplexans has provided a new drug target, but the evolutionary origin of the plastid has been muddled by the lack of characters, that typically define major plastid lineages. To clarify the ancestry of the plastid, we undertook a comprehensive analysis of all genomic characters shared by completely sequenced plastid genomes. Cladistic analysis of the pattern of plastid gene loss and gene rearrangements suggests that the apicomplexan plastid is derived from an ancestor outside of the green plastid lineage. Phylogenetic analysis of primary sequence data (DNA and amino acid characters) produces results that are generally independent of the analytical method, but similar genes (i.e., rpoB and rpoC) give similar topologies. The conflicting phylogenies in primary sequence data sets make it difficult to determine the the exact origin of the apicomplexan plastid and the apparent artifactual association of apicomplexan and euglenoid sequences suggests that DNA sequence data may be an inappropriate set of characters to address this phylogenetic question. At present we cannot reject our null hypothesis that the apicomplexan plastid is derived from a shared common ancestor between apicomplexans and dinoflagellates. During the analysis, we noticed that the Plasmodium tRNA-Met is probably tRNA-fMet and the tRNA-fMet is probably tRNA-Ile. We suggest that P. falciparum has lost the elongator type tRNA-Met and that similar to metazoan mitochondria there is only one species of methionine tRNA. In P. falciparum, this has been accomplished by recruiting the fMet-type tRNA to dually function in initiation and elongation. The tRNA-Ile has an unusual stem-loop in the variable region. The insertion in this region appears to have occurred after the primary origin of the plastid and further supports the monophyletic ancestory of plastids.