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Structural organization and transcription of plant mitochondrial and chloroplast genomes

Experimental evidence is presented showing that the plant mitochondrial and chloroplast genomes are multipartite and, that besides a large circular genomic DNA, they contain subgenomic minicircular and plasmid-like molecules. It is demonstrated that plant mitochondrial and chloroplast DNAs are packa...

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Bibliographic Details
Published in:Electron microscopy reviews 1991, Vol.4 (2), p.221-247
Main Authors: Salganik, R.I., Dudareva, N.A., Kiseleva, E.V.
Format: Article
Language:English
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Summary:Experimental evidence is presented showing that the plant mitochondrial and chloroplast genomes are multipartite and, that besides a large circular genomic DNA, they contain subgenomic minicircular and plasmid-like molecules. It is demonstrated that plant mitochondrial and chloroplast DNAs are packaged into deoxynucleoprotein fibrils comprising nucleosome-like and nucleomere-like globules; the fibrils form loops and rosette-like structures with central proteinaceous components. A similar structure is characteristic of the subgenomic DNAs. The basic proteins involved in the formation of nucleosome-like globules are quite different from the nuclear histones, indeed the basic proteins from plant mitochondria and chloroplasts are also distinct. Some of the basic proteins share common antigens with the E. coli HU protein. The genetic code for the mitochondrial and chloroplast genes is universal. The only codon now thought to be different from the universal in the mitochondrial genome is corrected during post-transcriptional mRNA editing. There are two hexanucleotides in the promoters of the chloroplast genes homologous to the sequences in −10 and −35 regions of the prokaryotic genes promoters requisite for transcription. Promoter sequences of the plant mitochondria genes responsible for transcription regulation were not identified. Immunoelectronmicroscopic evidence suggest that mitochondrial and chloroplast RNA polymerases have antigens in common with the β-subunit of E. coli RNA polymerase. It is shown that the mitochondrial genes are intensely transcribed in the dark and repressed by illumination. Electron microscopy demonstrated that about 70% of plant mitochondria contain numerous RNA polymerase molecules in the dark, but this percentage falls to 10–15% after light exposure.
ISSN:0892-0354
DOI:10.1016/0892-0354(91)90004-V