Abstract
BackgroundThe Viridiplantae (land plants and green algae) consist of two monophyletic lineages, the Chlorophyta and the Streptophyta. The Streptophyta include all embryophytes and a small but diverse group of freshwater algae traditionally known as the Charophyceae (e.g. Charales, Coleochaete and the Zygnematales). The only flagellate currently included in the Streptophyta is Mesostigma viride Lauterborn. To gain insight into the genome evolution in streptophytes, we have sequenced 10,395 ESTs from Mesostigma representing 3,300 independent contigs and compared the ESTs of Mesostigma with available plant genomes (Arabidopsis, Oryza, Chlamydomonas), with ESTs from the bryophyte Physcomitrella, the genome of the rhodophyte Cyanidioschyzon, the ESTs from the rhodophyte Porphyra, and the genome of the diatom Thalassiosira.ResultsThe number of expressed genes shared by Mesostigma with the embryophytes (90.3 % of the expressed genes showing similarity to known proteins) is higher than with Chlamydomonas (76.1 %). In general, cytosolic metabolic pathways, and proteins involved in vesicular transport, transcription, regulation, DNA-structure and replication, cell cycle control, and RNA-metabolism are more conserved between Mesostigma and the embryophytes than between Mesostigma and Chlamydomonas. However, plastidic and mitochondrial metabolic pathways, cytoskeletal proteins and proteins involved in protein folding are more conserved between Mesostigma and Chlamydomonas than between Mesostigma and the embryophytes.ConclusionOur EST-analysis of Mesostigma supports the notion that this organism should be a suitable unicellular model for the last flagellate common ancestor of the streptophytes. Mesostigma shares more genes with the embryophytes than with the chlorophyte Chlamydomonas reinhardtii, although both organisms are flagellate unicells. Thus, it seems likely that several major physiological changes (e.g. in the regulation of photosynthesis and photorespiration) took place early during the evolution of streptophytes, i.e. before the transition to land.
Highlights
The Viridiplantae consist of two monophyletic lineages, the Chlorophyta and the Streptophyta
Mesostigma shares more genes with the embryophytes than with Chlamydomonas, including several enzymes confined to the streptophytes (e.g. GAPDH B, [Cu-Zn] superoxide dismutase), and the average identity of shared proteins is higher between Mesostigma and the embryophytes than between Mesostigma and Chlamydomonas
In previous phylogenetic analyses plastidic and mitochondrial genes failed to show a clear relationship between Mesostigma and the streptophytes [14,15], whereas actin and nuclear-encoded SSU rDNA phylogenies support the notion that Mesostigma is a member of the streptophytes [10,11,12]
Summary
The Viridiplantae (land plants and green algae) consist of two monophyletic lineages, the Chlorophyta and the Streptophyta. The only flagellate currently included in the Streptophyta is Mesostigma viride Lauterborn. The Viridiplantae (literally meaning green plants) include all green algae and embryophyte plants They represent a monophyletic group of organisms, which display a surprising diversity with respect to their morphology, cell architecture, life histories and reproduction, and their biochemistry. The Streptophyta include all embryophyte plants and a diverse paraphyletic assemblage of freshwater green algae, the Charales (stoneworts), Coleochaete, the Zygnematophyceae and a few other taxa [9]. The Charales are thought to be the sister group of the embryophytes suggesting that the evolution of true land plants already started with a complex organism [10]. Mesostigma has recently attracted much attention as a putative key organism for the understanding of the early evolution of the Streptophyta [17,18,19,20]
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