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W2016864731 abstract "The three green algal mitochondrial genomes completely sequenced to date—those of Chlamydomonas reinhardtii Dangeard, Chlamydomonas eugametos Gerloff, and Prototheca wickerhamii Soneda & Tubaki—revealed very different mitochondrial genome organizations and sequence affiliations. The Chlamydomonas genomes resemble the ciliate/fungal/animal counterparts, and the Prototheca genome resembles land plant homologues. This review points out that all the green algal mitochondrial genomes examined to date resemble either the Chlamydomonas or the Prototheca mitochondrial genome; the Chlamydomonas-like mitochondrial genomes are small and have a reduced gene content (no ribosomal protein or 5S rRNA genes and only a few protein-coding and tRNA genes) and fragmented and scrambled rRNA coding regions, whereas the Prototheca-like mitochondrial genomes are larger and have a larger set of protein-coding genes (including ribosomal protein genes), more tRNA genes, and 5S rRNA and conventional continuous smallsubunit (SSU) and large-subunit (LSU) rRNA coding regions. It appears, therefore, that the differences previously observed between the mitochondrial genomes of C. reinhardtii and P. wickerhamii extend to the two green algal mitochondrial lineages to which they belong and are significant enough to raise questions about the causes and mechanisms responsible for such contrasting evolutionary strategies among green algae. This review suggests an integrative approach in explaining the occurrence of distinct evolutionary strategies and apparent phylogenetic affiliations among the known green algal mitochondrial lineages. The observed differences could be the result of distinct genetic potentials differentiated during the previous evolutionary history of the flagellate ancestors and/or of subsequent changes in habitat and life history of the more advanced green algal lineages. The eukaryotic cell is an associative system comprising at least two or three main subsystems with different evolutionary histories (Margulis 1981, Gray 1992). Well accepted now is the eubacterial (alphaproteobacterial and cyanobacterial, respectively) endosymbiotic origin of two of the eukaryotic cell’s or" @default.
W2016864731 created "2016-06-24" @default.
W2016864731 creator A5052702528 @default.
W2016864731 date "1998-02-01" @default.
W2016864731 modified "2023-09-27" @default.
W2016864731 title "REVIEW-CONTRASTING MITOCHONDRIAL GENOME ORGANIZATIONS AND SEQUENCE AFFILIATIONS AMONG GREEN ALGAE: POTENTIAL FACTORS, MECHANISMS, AND EVOLUTIONARY SCENARIOS" @default.
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W2016864731 doi "https://doi.org/10.1046/j.1529-8817.1998.340016.x" @default.
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