Summary
Several procedures were compared for efficiency in the extraction of certain leaf enzymes (phosphoenolpyruvate carboxylase, ribulose 1,5-diphosphate carboxylase and malate dehydrogenase) in Atriplex hastata (a “C3” species exhibiting conventional photosynthetic metabolism), and in A. spongiosa (a “C4” species in which the initial photosynthetic products are C4 dicarboxylic acids). Glycolate oxidase was also assayed in some cases, and Atriplex nummularia and Sorghum bicolor were also used as test material. A simple procedure, involving a mortar and pestle grind with carborundum added to the grinding mixture, was found to be as effective as glass bead grind procedures. In addition, it was more rapid and showed less variability with different operations.
Using the carborundum grind procedure, sources of variability in enzyme activity in apparently uniform leaves were compared, as were effects of time of day, leaf age and storage procedure. In general, if apparently uniform leaves could be selected, variability in levels of enzyme activity appeared to be relatively small, not exceeding about 12%. Time of day also appeared to be relatively unimportant for the enzymes examined. However, the ontogentic status of the plant was found to be an important source of variability. Leaf age was also a major source of variability where the activity was expressed on a fresh weight basis, but specific activity (i.e. activity expressed on a protein basis) was relatively constant, at least with the range of species and leaf ages examined here.
Storage of fresh samples in liquid nitrogen for 24 h, prior to extraction and assay, led to only a small reduction in activity, but substantial changes occurred if storage was in dry ice or in ice and also where extracts were stored in a deep freeze.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Björkman, O., Gauhl, E.: Carboxydismutase activity in plants with and without β-carboxylation photosynthesis. Planta (Berl.) 88, 197–203 (1969).
Bruinsma, J.: The quantitative analysis of chlorophylls a and b in plant extracts. Photochem. Photobiol. 2, 241–249 (1963).
Dixon, G. H., Kornberg, H. L.: Assay methods for key enzymes of the glyoxylate cycle. (Abstr.) Biochem. J. 72, 3P (1959).
Gaastra, P.: Photosynthesis of crop plants as influenced by light, carbon dioxide, temperature and stomatal diffusion resistance. Mededel. Landbouwhogesch. Wageningen 59 No 13 (1959).
Gifford, R., Musgrave, R. B.: Diffusion and quasi-diffusion resistances in relation to the carboxylation kinetics of maize leaves. Physiol. Plantarum (Cph.) 23, 1048–1056 (1970).
Hatch, H. D., Slack, C. R.: Distribution of enzymes in mesophyll and parenchymasheath chloroplasts of maize leaves in relation to the C4-dicarboxylic acid pathway of photosynthesis. Biochem. J. 114, 489–498 (1969).
——: Photosynthetic CO2-fixation pathways. Ann. Rev. Plant Physiol. 21, 141–162 (1970).
Holmgren, P.: Leaf factors affecting light-saturated photosynthesis in ecotypes of Solidago virgaurea from exposed and shaded habitats. Physiol. Plantarum (Cph.) 21, 676–698 (1968).
Ignatieff, V.: Distribution of phosphatase activity and analysis of growth in Canada wonder bean. Biochem. J. 31, 1611–1615 (1937).
Johnson, H. S., Hatch, M. D.: Properties and regulation of leaf NADP-malate dehydrogenase and “malic” enzyme in plants with the C4-dicarboxylic acid pathway of photosynthesis. Biochem. J. 119, 273–280 (1970).
Lake, J. V., Slatyer, R. O.: Respiration of leaves during photosynthesis. III. Respiration rate and mesophyll resistance in turgid cotton leaves with stomatal control eliminated. Aust. J. biol. Sci. 23, 529–535 (1970).
Layne, E.: Spectrophotometric and turbidimetric methods for measuring proteins. II. Protein estimation with the Folin-Ciocalteu Reagent. Methods in Enzymol. 3, 448–450 (1957).
Osmond, C. B., Troughton, J. H., Goodchild, D. J.: Physiological, biochemical and structural studies of photosynthesis and photorespiration in two species of Atriplex. Z. Pflanzenphysiol. 61, 218–237 (1969).
Racker, E.: The reductive pentose phosphate cycle. I. Phosphoribulokinase and ribulose diphosphate carboxylase. Arch. Biochem. 69, 300–310 (1957).
Slatyer, R. O.: Comparative photosynthesis, growth and transpiration of two species of Atriplex. Planta (Berl.) 93, 175–189 (1970).
—, Bierhuizen, J. F.: A differential psychrometer for continuous measurements of transpiration. Plant Physiol. 39, 1051–1056 (1964).
Smillie, R. M.: Photosynthetic and respiratory activities of growing pea leaves. Plant Physiol. 37, 716–721 (1962).
Walker, D. A.: Physiological studies on acid metabolism. 4. Phosphoenolpyruvate carboxylase activity in extracts of Crassulacean plants. Biochem. J. 67, 73–79 (1957).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Downton, J., Slatyer, R.O. Variation in levels of some leaf enzymes. Planta 96, 1–12 (1971). https://doi.org/10.1007/BF00397899
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00397899