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Genesis of Ethylene in Apples

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Abstract

EVER since Kidd and West1 showed that emanations from ripe apples stimulated unripe apples into the respiration climacteric, and Gane2 proved that the active principle in these emanations was ethylene, search has been made for the origin of this ‘ripening hormone’. The search has been intensified in the past few years. Burg and Thimann3 state that “there is general agreement that ethylene production is restricted to the stage in the life of fruits during which ripening occurs”. They were unable to decide precisely the source of the ethylene, but suggested that it may be produced by the mitochondria. Later Burg4 concluded that the biosynthetic source of ethylene is not to be found in intermediates of glycolysis, acid metabolism or the direct oxidation pathways of sugars, although it may be formed fairly directly from sugars by an, as yet, unknown pathway. More recently, Burg and Burg5, using 14C-labelled, possible precursors of ethylene and apple tissue, concluded that, although ethylene formation is related to the metabolism of Krebs cycle acids as suggested by Wang et al.6, the relationship does not appear to be a direct one.

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References

  1. Kidd, F., and West, C., Rep. Food Invest. Bd. London, 1932, 55 (published 1933).

  2. Gane, R., J. Pomol., 13, 351 (1935).

    CAS  Google Scholar 

  3. Burg, S. P., and Thimann, K. V., Plant Physiol., 35, 24 (1960).

    Article  CAS  Google Scholar 

  4. Burg, S. P., Ann. Rev. Plant Physiol., 13, 263 (1962).

    Article  Google Scholar 

  5. Burg, S. P., and Burg, E. A., Nature, 203, 869 (1964).

    Article  ADS  CAS  Google Scholar 

  6. Wang, C. H., Persyn, A., and Krockov, J., Nature, 195, 1306 (1962).

    Article  ADS  CAS  Google Scholar 

  7. Lieberman, M., and Mapson, L. W., Nature, 204, 343 (1964).

    Article  ADS  CAS  Google Scholar 

  8. Surrey, K., Plant Physiol., 39, 65 (1964).

    Article  CAS  Google Scholar 

  9. Wilkinson, B. G., Nature, 199, 715 (1963).

    Article  ADS  Google Scholar 

  10. Kidd, F., and West, C., Plant Physiol., 20, 467 (1945).

    Article  CAS  Google Scholar 

  11. Meigh, D. F. (personal communication).

  12. Hulme, A. C., Jones, J. D., and Wooltorton, L. S. C., Proc. Roy. Soc., B, 158, 514 (1963).

    Article  ADS  Google Scholar 

  13. Freeman, I. D., Chem. and Indust., 1541 (1964).

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Authors and Affiliations

  1. Agricultural Research Council, Ditton Laboratory, Larkfield, Maidstone, Kent

    L. S. C. WOOLTORTON, J. D. JONES & A. C. HULME

Authors
  1. L. S. C. WOOLTORTON
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  2. J. D. JONES
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  3. A. C. HULME
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WOOLTORTON, L., JONES, J. & HULME, A. Genesis of Ethylene in Apples. Nature 207, 999–1000 (1965). https://doi.org/10.1038/207999b0

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