Many kinds of linear plasmids, or plasmid-like DNAs, in mitochondria have been reported in higher plants and fungi. Nevertheless, such plasmids were not previously known from the animal kingdom. Paramecium is the first example in which a mitochondrial plasmid-like DNA so far discovered among ciliates. In natural stocks, P. caudatum has one of three types of DNA : type I (6.4 kb), type II, a set of four DNAs (8.2 kb; 4.1 kb; 2.8kb; and 1.4 kb) and type III (8.6 kb). Paramecium caudatum stock GT704 only has type-II DNA. The 8.2 and 2.8 kb DNAs are dimers of the 4.1 and 1.4 kb DNA, respectively. The aim of this study was to determine the sequence of mitochondrial plasmid-like DNA in P. caudatum stock GT704 in order to identify potential gene products and other nucleotide sequences that might have relationship with integration of DNA and also the maintanance of DNA itself in mitochondria. The methods used in this study were isolation of the DNA, cloning and sequencing then followed by analysis of sequences obtained using available public domain. The dimers were found to be easily dissociated to monomers when treated with heat underconditions of low ionic strength. These results suggest that each monomer has a sticky end of single- stranded DNA that has complementary nucleotide sequences, and so attaches to each other at the end by base-pairing to form a dimer, leaving a nick that can be filled by ligation using ligase. Nucleotide sequences of some part of the DNA have been obtained randomly. Sequence analysis suggests that these dimers DNAs have 2 ORFs that code for putative RNA and DNA polymerases. It is assumed that the origin of this mitochondrial plasmid-like DNA is transposable element or some viruses since the motif EVI-1 (ectopic viral integration site-1) was found in the sequence. It is also assumed that this DNA can integrate into mtDNA since it also has some sequences homolog to the sequences of mt- DNA of some ciliates.

Paramecium caudatum; Linear Plasmid; Mitochondria; Putative RNA and DNA Polymerases

Endoh, H., Yazaki, K., Takahashi, M., dan Tsukii, Y., “Hairpin and dimer structures of linear plasmid-like DNAs in mitochondria of Paramecium caudatum.” Curr Genet. 27:90- 94. 1994.

Court, D.A dan Bertrand, H., “A Method for sequensing uncloned termini 07 linear plasmids.” Nucleic Acids Res. 19:1714. 1992.

Griffiths, A.J.F., “Natural plasmids of filamentous fungi.” Microbiol Rev. 59 :673-685. 1995.

Chan, B.S-H, Court, D.A., Vierula, P.J., Bertrand, H., The kalilo senescence-inducing plasmids of Neurospora is an invertron and encodes DNA and RNA polymerases. Curr Genet . 20: 225-237. 1991.

Hermanns, J. dan Osiewacz, H.D., “The linear mitochondrial plasmid pAL2-1 of a long-lived Podospora anserina mutant is an invertron encoding a DNA and RNA polymerase.” Curr. Genet. Dec:22(6):491-500. 1992.

Tsukii, Y., “Evolution of mitochondrial DNA in Paramecium.” Jpn. J. Genet., 69: 307-319. 1994.

Goddard, J.M. dan Cummings, D.J., “Structure and replication of mitochondrial DNA fom Paramecium Aurelia.” J. Mol. Biol. Oct 5; 97(4)593-609. 1975.

http://protein.toulouse.inra.fr/multalin.html.

Cavarelli, J., Bomu, W., Liljas, L., Kim, S., Minor, W., Munshi, S., Muchmore, S., Schmidt, T., Johnson,

J., dan Hendry, D.A., “Crystallization and preliminary structure analysis of an insect virus with T=4 quasi-symmetry: Nudaurelia capensis virus.” Acta Cryst. B47, 23-29. 1991.

http://www.motif.genome.ad.jp/motifbin/ motif_markseq_transfac.

Anderson, S., Baukier, A.T., Barell, B.G., de Bruijn, M.H., Coulson, A.R., Drouin, J., Eperon, I.C., Nierlich, D.P., Roe, B.A., Sanger, F., and Schreier, P.H., “Sequence and organization of the human mitochondrial genome.” Nature, Apr 9:290(5806):457-65. 1981.

Nosek, J., Tomáka, E., dan Kucejová., “The chromosome end replication : lessons from mitochondrial genetics. Journal of Appl. Biomedicine. 2 : 71 – 79. 2004.

Kreuzer, K.N., “Recombination-dependent DNA replication in phage T4.” Trends Biochem. Sci., 25 : 165 – 173. 2000.

Viret, J.F., Bravo, A. dan Alonso, J.C., “Recombinationdependent concatemeric plasmid replication.” Microbiol. Rev. 55 : 675 – 683. 1991.

de Lange, A.M dan McFadden, G., “The role of telomers in

poxvirus DNA replication.” Curr. Top. Microbiol. Immunol. 163 : 71 – 93. 1990.

Koulintchenko, M., Konstantinov, Y. dan Dietrich, A., “Plant

mitochondia actively import DNA via the permebiality transition pore complex.” Embo Journal. 22 (6) : 1245 – 1254. 2003