Partial regions of the mRNA encoding a major part of translation elongation factor 1 alpha (EF-1 alpha) from a mitochondrion-lacking protozoan, Glugea plecoglossi, that belongs to microsporidians, were amplified by polymerase chain reaction (PCR) and their primary structures were analyzed. The deduced amino acid sequence was highly divergent from typical EF-1 alpha's of eukaryotes, although it clearly showed a eukaryotic feature when aligned with homologs of the three primary kingdoms. Maximum likelihood (ML) analyses on the basis of six different stochastic models of amino acid substitutions and a maximum parsimony (MP) analysis consistently suggest that among eukaryotic species being analyzed, G. plecoglossi is likely to represent the earliest offshoot of eukaryotes. Microsporidians might be the extremely ancient eukaryotes which have diverged before an occurrence of mitochondrial symbiosis.
Blastocystis hominis, a parasite of the human intestine, has recently been positioned within stramenopiles by the small subunit rRNA phylogeny. To further confirm its phylogenetic position using multiple molecular sequence data, we determined the nucleotide sequences putatively encoding small subunit ribosomal RNA, cytosolic-type 70-kDa heat shock protein, translation elongation factor 2, and the non-catalytic 'B' subunit of vacuolar ATPase of B. hominis (HE87-1 strain). Moreover, we determined the translation elongation factor 2 sequence of an apicomplexan parasite, Plasmodium falciparum, that belongs to alveolates. The maximum likelihood analyses of small subunit rRNA and cytosolic-type 70-kDa heat shock protein clearly demonstrated that B. hominis (HE87-1 strain) is positioned within stramenopiles, being congruent with the previous small subunit rRNA analysis, including the sequences of B. hominis (Nand strain) and a Blastocystis isolate from guinea pig. Although no clear resolution among major eukaryotic groups was obtained by the individual phylogenies based on the four molecules analyzed here, a combined analysis of various molecules, including these, clearly indicated that Blastocystis/stramenopiles are the closest relatives of alveolates.
Complete nucleotide sequences of the genes putatively encoding translation elongation factors 1 alpha (EF-1 alpha) and 2 (EF-2) from a mitochondrion-lacking protozoan, Glugea plecoglossi, that belongs to microsporidians were determined. The deduced amino acid sequences of the putative EF-1 alpha and EF-2 of Gl. plecoglossi showed very unusual features compared with typical eukaryotic sequences. The degree of divergence was especially great in the EF-1 alpha sequence, although it clearly showed a eukaryotic feature when aligned with homologs from the three primary kingdoms. Phylogenetic analyses of EF-1 alpha and EF-2 on the basis of the maximum likelihood method of protein phylogeny clearly and consistently suggested that among eukaryotic species being analyzed, Gl. plecoglossi and another mitochondrion-lacking protozoan, Giardia lamblia, respectively represent the earliest and the second earliest offshoots of eukaryotes. When the EF-1 alpha and EF-2 phylogenies were totally evaluated, the earliest divergence of Gl. plecoglossi in eukaryotes became more clearly confirmed. If the phylogenetic relationship inferred from the present analysis are correct, microsporidians might be extremely ancient eukaryotes that diverged before the occurrence of mitochondrial symbiosis.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.