Abstract
IN a previous publication1, we suggested that the classical ‘squeezing from behind’ mechanism for protoplasmic streaming is inadequate to explain the actual movements observed in slime-mould plasmodia. As a result of a recent change in culture conditions, remarkably simple and direct evidence to substantiate this suggestion has appeared. Fig. 1 is a photograph of a plasmodium of Physarum polycephalum after two days growth at 22° C. in the dark on a particular growth medium. This medium contains, per litre, 20 gm. agar; 5 gm. ‘Bacto-tryptone’; 5 gm. dextrose; 0.75 gm. ‘Bacto-yeast’ extract; 5 mgm. hæmin; 0.8 gm. potassium dihydrogen phosphate; 0.2 gm. disodium hydrogen phosphate; 100 mgm. calcium chloride; 100 mgm. magnesium sulphate; 200mgm. citric acid; 10 mgm. ferrous chloride; 14 mgm. manganese chloride and 6 mgm. zinc sulphate, adjusted to pH 6.2 and autoclaved for 30 min. at 15 lb./sq. in. (This is modified from the formula kindly supplied to us by Dr. H. P. Eusch, University of Wisconsin.)
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References
Stewart, P. A., and Stewart, B. T., Exp. Cell Res., 17, 44 (1959).
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STEWART, P., STEWART, B. Circular Streaming Patterns in a Slime-Mould Plasmodium. Nature 192, 1206–1207 (1961). https://doi.org/10.1038/1921206a0
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DOI: https://doi.org/10.1038/1921206a0
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