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The occurrence of microbodies and peroxisomal enzymes in achlorophyllous leaves

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Summary

Several types of leaves of leaf parts lacking chlorophyll were fixed and embedded according to conventional procedures and examined electron-microscopically for microbodies. Comparisons of relative abundance of microbodies, plastids and mitochondria were made by computing the average numbers of organelle profiles per cell section. Similar leaves were homogenized and assayed for three enzymes characteristic of leaf peroxisomes. The localization of these enzymes in microbodies was indicated for the achlorophyllous tissues by the positive result obtained when 3,3′-diaminobenzidine was used as an electron cytochemical stain for catalase activity.

Microbodies were present in all non-photosynthetic leaves or leaf parts examined, including yellowish-white segments of variegated leaves, albino leaves, and etiolated leaves of two species. In several cases, the numbers of microbody profiles per cell section were as great in the achlorophyllous leaves as in the chlorophyllous. The levels of peroxisomal enzyme activity in the yellowish-white leaves were substantial, although often not as high as in the green leaves. It was concluded that enzymatically these microbodies are probably similar to the peroxisomes characterized from chlorophyllous leaves. In the absence of the photosynthetic product, glycolate, however, it seems unlikely that the organelle is performing the same functions as in green leaves. It is also apparent that the initial formation of peroxisomes in leaves can occur when neither light nor a photosynthate such as glycolate is present as an inducer.

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Authors and Affiliations

  1. Department of Botany, University of Wisconsin, Madison, USA

    Peter J. Gruber, Wayne M. Becker & Eldon H. Newcomb

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  1. Peter J. Gruber
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  2. Wayne M. Becker
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  3. Eldon H. Newcomb
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Gruber, P.J., Becker, W.M. & Newcomb, E.H. The occurrence of microbodies and peroxisomal enzymes in achlorophyllous leaves. Planta 105, 114–138 (1972). https://doi.org/10.1007/BF00385572

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