Summary
Volume distribution patterns of chloroplast suspensions obtained electronically with a Coulter counter have been compared with the corresponding diameter measurements and with the appearance of chloroplasts observed by phase-contrast microscopy. It was found that the Coulter counter pattern could be used to detect gross morphological changes of chloroplasts in isolation, but could not be used for the quantitative determination of the properties of chloroplasts in different morphological states. The pattern for a suspension containing both intact and damaged chloroplasts in approximately equal numbers has only one maximum. Two maxima are present if the proportion of intact chloroplasts is considerably greater than 50%. Chloroplasts which have lost both their outer limiting membrane and also their stroma (i.e. naked, but intact, lamellae systems) make only a very small contribution to the size distribution pattern in the region recording apparent volumes between 0 and 11.2 µ3.
Previous workers have described intact chloroplasts as “Class I”, and damaged chloroplasts lacking limiting membrane and stroma as “Class II”. We suggest that a third “Intermediate Class” should be recognized for chloroplasts devoid of their limiting membrane, but still retaining stroma. Such chloroplasts can be distinguished from Class II chloroplasts by their less clearly visible grana, and slightly lighter appearance under phase contrast, and also by their considerable contribution to Coulter counter volume distribution patterns with a peak maximum between 35 and 55 µ3. Such Intermediate Class chloroplasts would also be expected to have biochemical properties differing considerably from those of both Class I and Class II chloroplasts.
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References
Arnon, D. I.: Copper enzymes in isolated chloroplasts. Polyphenolase in Beta vulgaris. Plant. Physiol. 24, 1–15 (1949).
Bourdu, R., Y. Matthieu, M. Miginiac-Maslow, R. Remy et A. Moyse: Structure granaire, réduction du NADP et photophosphorylation des chloroplastes isolés des feuilles d'orge. Planta (Berl.) 80, 191–210 (1968).
Dilley, R. A., and L. P. Vernon: Ion and water transport processes related to the light-dependent shrinkage of spinach chloroplasts. Arch. Biochem. 111, 365–375 (1965).
Heber, U., U. W. Hallier u. M. A. Hudson: II. Lokalisation von Enzymen des reduktiven und dem oxydativen Pentose Phosphatzyklus in den Chloroplasten und Permeabilität der Chloroplasten-Membran gegenüber Metaboliten. Z. Naturforsch. 22b, 1200–1215 (1967).
Honda, S. I., T. Hongladarom, and G. G. Laties: A new isolation medium for plant organelles. J. exp. Bot. 17, 460–472 (1966).
Itoh, M., S. Izawa, and K. Shibata: Disintegration of chloroplasts with dodecylbenzene sulfonate as measured by flattening effect and size distribution. Biochim. biophys. Acta (Amst.) 69, 130–142 (1963a).
———: Shrinkage of whole chloroplasts upon illumination. Biochim. biophys. Acta (Amst.) 66, 319–327 (1963b).
James, W. O., and V. S. R. Das: The organization of respiration in chlorophyllous cells. New Phytol. 56, 325–343 (1957).
—, and R. M. Leech: The cytochromes of isolated chloroplasts. Proc. roy. Soc. B 160, 13–24 (1964).
Kahn, A., and D. Von Wettstein: Macromolecular physiology of Plastids. II. Structure of isolated spinach chloroplasts. J. Ultrastruct. Res. 5, 557 (1961).
Leech, R. M.: Comparative biochemistry and comparative morphology of chloroplasts isolated by different methods. N.A.T.Q. Advanced Study Institute, Biochemistry of Chloroplasts, Aberystwyth, 1965, vol. 1, p. 65–74 (T. W. Goodwin, Ed.). London: Academic Press 1966.
Orth, G. M., and D. G. Cornwell: The particle volume distribution in purified corn-seedling chloroplasts. Biochim. biophys. Acta (Amst.) 54, 389–391 (1961).
Ridley, S. M., and R. M. Leech: Chloroplast survival in vitro. Internat. Congr. of Photosynthesis Research, Freudenstadt (1968). (In press.)
Spencer D., and H. Unt: Biochemical and structural correlations in isolated spinach chloroplasts under isotonic and hypertonic conditions. Aust. J. biol. Sci. 18, 197–210 (1965).
—, and S. G. Wildman: Observations on the structure of grana-containing chloroplasts and a proposed model of chloroplast structure. Aust. J. biol. Sci. 15, 599–610 (1962).
Walker, D. A.: Improved rates of carbon dioxide fixation by illuminated chloroplasts. Biochem. J. 92, 22C (1964).
—: Correlation between photosynthetic activity and membrane integrity in isolated pea chloroplasts. Plant physiol. 40, 1157–1161 (1965).
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Ridley, S.M., Leech, R.M. The survival of chloroplasts in vitro: Particle volume distribution patterns as a criterion for assessing the degree of integrity of isolated chloroplasts. Planta 83, 20–34 (1968). https://doi.org/10.1007/BF00385132
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DOI: https://doi.org/10.1007/BF00385132