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Mitochondrial gene expression and cytoplasmic male sterility in sorghum

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Abstract

Variation in sorghum mitochondrial translation products has enabled fertile (Kafir) cytoplasm to be distinguished from Milo cytoplasmic male sterile cytoplasm and from three alternative sources of cytoplasmic male sterile cytoplasm. Mitochondria from Milo cytoplasm synthesised a 65 000 mol. wt. polypeptide which was not synthesised by those from Kafir cytoplasm. In the cytoplasmic male sterile combination of Kafir nucleus in Milo cytoplasm synthesis of this polypeptide was dramatically increased. Mitochondria from two cytoplasmic male sterile lines (Kafir nucleus in IS1112 cytoplasm and Yellow Feterita nucleus in M35-1 cytoplasm) did not synthesise the 65 000 mol. wt. polypeptide but synthesised additional high molecular weight polypeptides (from 54 000 to 82 000 mol. wt.), the major one being 82 000. Mitochondria from cytoplasm IS1112 were also distinguished by synthesis of an additional 12 000 mol. wt. polypeptide. Mitochondria from the cytoplasmic male sterile line Martin nucleus in 9E cytoplasm synthesised an additional 42 000 mol. wt. polypeptide but did not synthesise a 38 000 mol. wt. polypeptide detected in all other cytoplasms. Immunoprecipitation of mitochondrial translation products with antiserum raised against subunit I of yeast cytochrome oxidase tentatively identified the 38 000 mol. wt. polypeptide as subunit I of sorghum cytochrome oxidase. The 42 000 mol. wt. polypeptide was also immuno-precipitated by this antiserum and thus is probably an altered form of cytochrome oxidase subunit I.

Analysis of native mitochondrial DNA by agarose gel electrophoresis revealed the presence of two ‘plasmid-like’ DNA species of molecular weight 5.3 and 5.7 kb in the cytoplasmic male sterile lines Kafir nucleus in cytoplasm IS1112 and Yellow Feterita nucleus in M35-1 cytoplasm. Thus there is a positive correlation between the synthesis of the 82 000 mol. wt. polypeptide and the presence of the additional DNA species.

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References

  1. Appadurai R and Ponnaiya BWX (1967) Inheritance of fertility restoration in Sorghum (Moench). Madras Agric J 54, 393–404

    Google Scholar 

  2. Borst P and Grivell LA (1978) The mitochondrial genome of yeast. Cell 15, 705–723

    Google Scholar 

  3. Forde BG Oliver RJC and Leaver CJ (1978) Variation in mitochondrial translation products associated with male sterile cytoplasms in maize. PNAS USA 75, 3841–3845

    Google Scholar 

  4. Forde BG and Leaver CJ (1980). Nuclear and cytoplasmic genes controlling synthesis of variant mitochondrial polypeptides in male sterile maize. PNAS USA 77, 418–422

    Google Scholar 

  5. Forde BG and Leaver CJ (1980) Mitochondrial genome expression in maize: Possible involvement of variant mitochondrial polypeptides in cytoplasmic male sterility. In Davies D.R. and Hopwood D.A. (eds.) The Plant Genome, pp. 131–146. The John Innes Charity, Norwich, England

    Google Scholar 

  6. Kidd HJ (1961) The inheritance of restoration of fertility in cytoplasmic male sterile sorghum. A preliminary report. Sorghum Newsletter 4, 47–49

    Google Scholar 

  7. Latt SA and Statten G (1976) Spectral studies on 33258 Hoechst and related biobenzimidazol dyes useful for fluorescent detection of DNA synthesis. J Histochem Cytochem 24, 24

    Google Scholar 

  8. Laemmli UK (1970) Cleavage of structural proteins during the assembly of the head of Bacteriophage T4. Nature 227, 680–685

    Google Scholar 

  9. Leaver CJ and Forde BG (1980) Mitochondrial genome expression in higher plants. In Leaver CJ (ed.) Genome organization and expression in plants, pp. 407–425 New York, N.Y. Plenum Press

    Google Scholar 

  10. Levings CS III Shah DM Hu WWL Pring DR and Timothy DH (1979) Molecular heterogeneity among mitochondrial DNAs from different maize cytoplasms. In Extrachromosomal DNA, ICN-UCLA symposium on Molecular and Cellular Biology, ed. D Cummings P Borst I Vawid S Weissman CF Fox pp. 63–73

  11. Maunder AB and Pickett PC (1959) The genetic inheritance of cytoplasmic-genetic male sterility in grain sorghum. Agronomy J. 51, 47–49

    Google Scholar 

  12. Miller DA and Pickett RC (1964) Inheritance of partial male fertility in Sorghum vulgare Pers. Crop Science 4, 1–4

    Google Scholar 

  13. Nagur T and Menon PM (1974) Characterization of different sterility inducing cytoplasms in sorghum. Sorghum Newsletter 17, 18

    Google Scholar 

  14. Pi CP and Wu KD (1961) The inheritance of cytoplasmic genetic male sterility in Sorghum Newsletter, 4, 9–10

    Google Scholar 

  15. Pring DR Levings CS III Hu WWL and Timothy DH (1977) Unique DNA associated with mitochondria in the ‘S’ type cytoplasm of male sterile maize. PNAS USA 74, 2904–2908

    Google Scholar 

  16. Pring DR Levings CS III and Conde MF (1980) The organelle genomes of cytoplasmic male sterile maize and sorghum. In Davies DR and Hopwood DA (eds) The plant genome, pp. 111–120. The John Innes Charity, Norwich, England

    Google Scholar 

  17. Rao NGP (1962) Occurrence of cytoplasmic genetic male sterility in some Indian sorghums. Indian J Gen Plant Breed. 22, 257–259

    Google Scholar 

  18. Ross WM and Hackerott HL (1972) Registration of seven iso cytoplasmic sorghum germplasm lines (Reg Nos GP9 to GP15). Crop Science 12, 720–721

    Google Scholar 

  19. Schertz KF (1977) Registration of A2 tx 2753 and B tx 2753 sorghum germplasm (Reg No GP30 and 31). Crop Science 17, 983

    Google Scholar 

  20. Schertz KF and Ritchey JM (1978) Cytoplasmic Genic male sterility systems in sorghum. Crop Science 18, 890–893

    Google Scholar 

  21. Sharp PA Sugden B and Sambrook J (1973) Detection of two restriction endonuclease activities in Haemophilus parainfluenza using analytical agarose ethidium bromide electrophoresis. Biochemistry 12, 3055–3063

    Google Scholar 

  22. Stephens JC and Holland RF (1954) Cytoplasmic male sterility for hybrid sorghum seed production. Agronomy J. 46, 20–23

    Google Scholar 

  23. Webster OJ and Singh SF (1964) Breeding behaviour and histological structure of nondehiscent anther character in Sorghum vulgare Pers. Crop Science 4, 656–658

    Google Scholar 

  24. Werner S Machleidt W Bertrand H and Wild G (1980) Assembly and structure of cytochrome oxidase in Neurospora crassa. In Kroon SM and Saccone C (eds) The organization and expression of the mitochondrial genome, pp. 399–411. Elsevier/North Holland Biomedical Press

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  1. Department of Botany, University of Edinburgh, EH9 3JH, Edinburgh, Scotland, U.K

    Linda K. Dixon & Christopher J. Leaver

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  1. Linda K. Dixon
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  2. Christopher J. Leaver
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Dixon, L.K., Leaver, C.J. Mitochondrial gene expression and cytoplasmic male sterility in sorghum. Plant Mol Biol 1, 89–102 (1982). https://doi.org/10.1007/BF00024973

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  • DOI: https://doi.org/10.1007/BF00024973

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