Abstract
In a eukaryotic cell, the genetic materials are located in the cell nucleus, the mitochondrion and the plastid, and each of the three has their own transcriptional and translational apparatus. Origin of the organellar genomes, or the organelles themselves, has long been an important subject of biological research. Two major hypotheses have been considered. One is the autogenous origin hypothesis: the two organelles arose through a process of intracellular compartmentalization and functional specialization within a single hypothetical eukaryotic progenitor cell (Raff and Mahler, 1972). The other is the endosymbiotic hypothesis: the two organelles had originated from a free-living organisms that were subsequently engulfed by a eukaryotic progenitor cell (Margulis, 1981; Gray and Doolittle, 1982). In the light of the present knowledge of molecular phylogeny, endosymbiotic hypothesis is thought to be more acceptable than the other.
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References
Baldauf, S. L. and Palmer, J. D. (1990) Nature 344: 262–265.
Bergsland K. J. and Haselkorn, K (1991) J. Bacteriol 173: 3446–3455.
Boer, P. H. and Gray, M. W. (1991) Curr. Genet. 19: 309–312.
Burger, G., Plante, I., Lonergan, K. M., Gray, M. W (1995) J. Mol. Biol. 245: 522–537.
De Luca, P., Taddei, R. and Varano, L. (1978) Webbia 33: 37–44.
Delwiche, C. F. and Palmer, J. D. (1996) Mol. Biol. Evol. 13: 873–882.
De Zamaroczy, M. and Bernardi, G. (1986) Gene 47: 155–177.
Gillham, M. W. (1994) Organelle genes and genomes. Oxford University Press. New York.
Gray, M. W. and Doolittle, W. F. (1982) Microbiol. Rev. 46: 1–42.
Helmchen, T. A, Bhattacharya, D. and Melkonian, M. (1995) J. Mol. Evol. 41: 203–210.
Kowallik, K. V., Stoebe, B., Schaffran, S. I., Kroth-Pancic, P. and Freier, U. (1995) Plant Mol Biol. Rep. 13: 336–342.
Lang, B. F., Burger, G., O’Kelly, C. J., Cedergren, R., Golding, G., B., Lemieux, C., Sankoff, D., Turmel, M. and Gray, M. W. Nature 387: 493–497 (1997).
Leblanc, C., Boyen, C. Richard, O., Bonnard, G., Grienenberger, J.-M., Kloareg, B. (1995) J. Mol. Biol. 250: 484–495.
Maid, U. and Zetsche, K. (1992) Plant Mol. Biol. 8: 327–336.
Margulis, L. (1981) Symbiosis in cell evolution: Life and its environment on the Early Earth. W. H. Freeman, San Francisco.
Merola, A., Castaldo, R., De Luca, P., Gambardella, R., Musacchio, A. and Taddeei, R. (1981) G. Bot. Ital. 115: 189–195.
Morden, C. W., Delwiche, C. F., Kuhsel, M. and Palmer, J. D. (1992) BioSystems 28: 75–90.
Oda, K., Yamato, K., Ohta, E., Nakamura, Y., Takemura, M., Nozato, N., Akashi, K., Kanegae, T., Ogura, Y., Kohchi, T., Ohyama, K. (1992) J. Mol. Biol. 223: 1–7.
Ohta, N., Kawano, S. and Kuroiwa, T. (1994a) Curr. Genet. 26: 136–138.
Ohta, N., Sato, N., Kawano, S. and Kuroiwa, T. (1994b) Curr. Genet. 25: 357–361.
Ohta, N., Sato, N., Ueda, K. and Kuroiwa, T. (1997a) J. Plant Res. 110: 235–245.
Ohta, N., Sato, N., Nozaki, H. and Kuroiwa, T. (1997b) J. Mol. Evol. 45: 688–695.
Ohta, N., Sato, N. and Kuroiwa, T. (1997c) Plant Physiol. 114: 172.
Raff, R. A. and Mahler, H. R. (1972) Science 177: 575–582.
Reith, M. and Munholland, J. (1993) Plant Cell 5: 465–475.
Reith, M. and Munholland, J. (1995) Plant Mol. Biol. Rep. 13: 333–335.
Seckbach, J., Baker, F. A. and Shugarman, P. M. (1970) Nature 227: 744–745.
Seckbach, J. (1992) In: Reiser W (ed), Algae and symbioses: plants, animals, fungi, viruses, interactions explored. Biopress Limited, Bristol, England, pp. 400–426.
Sekito, T., Okamoto, K., Kitano, H. Yoshida, K. (1995) Curr. Genet. 28: 39–53.
Stirewalt, V. L., Michalowski, C. B., Loffelhardt, W., Bohnert, H. J. and Bryant, D. A. (1995) Plant. Mol. Biol. Rep. 13: 327–332.
Sugiura, M. (1992) Plant Mol. Biol. 19: 149–168.
Takahashi, H., Suzuki, K., Ohta, N., Suzuki, T., Takano, H., Kawano, S. and Kuroiwa, T. (1993) Cytologia 58: 477–482.
Wang, S. and Liu, X-Q. (1991) Proc. Natl. Acad. Sci. USA 88: 10783–10787.
Wolff, G., Plante, I., Lang, B. F., Kuck, U. and Burger, G. (1994) J. Mol. Biol 237: 75–86.
Yurina, A. N., Belkina, G. G., Karapetyan, N. V. and Odintsova, M. S. (1995) Biochem. Mol. Biol. Int. 36: 145–154.
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Ohta, N., Sato, N., Kuroiwa, T. (1999). The Organellar Genomes of Cyanidioschyzon merolae . In: Seckbach, J. (eds) Enigmatic Microorganisms and Life in Extreme Environments. Cellular Origin and Life in Extreme Habitats, vol 1. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-4838-2_11
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DOI: https://doi.org/10.1007/978-94-011-4838-2_11
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