Calcium-binding proteins in the vorticellid spasmoneme.

The proteins of the contractile spasmoneme from Vorticella convallaria, Carcheslium polypinum, and Zoothamnium geniculatum have been extracted in the detergent, sodium dodecyl sulfate (SDS), as well as urea and guanidine hydrochloride (GuCl). After SDS extraction, the molecular weight distribution of the proteins was examined by means of SDS-polyacrylamide gel electrophoresis. Significant amounts of material corresponding to the contractile proteins actin and tubulin are not present. The contractile organelles in the three species examined contain a group of closely related proteins of molecular weight near 20,000, which constitute a major part (40-60%) of the dry mass. The 20,000 mol wt proteins in Zoothamnium bind calcium with high affinity (pK congruent to 6) and are termed "spasmins." By means of urea polyacrylamide gel electrophorsis, it is demonstrated that in Carchesium and Zoothamnium certain spasmin components bind calcium even in the presence of 6 M urea. The binding of calcium in 6 M urea suggests a functional relationship between the spasmins and the calcium-binding proteins of striated muscle which behave similarly. The calcium binding in urea also indicates that the spasmins within a single spasmoneme have different calcium affinities, and this difference in calcium-binding properties may be an important factor in the physiological function of the organelle.

Microprobe measurements of calcium binding in the contractile spasmoneme of a vorticellid.

By means of an electron microprobe, the calcium content of isolated contractile organelles (spasmonemes) from the ciliate Zoothamnium was compared in extension and contraction. By using calcium buffers of different total concentrations, it was shown that the calcium in extended organelles was almost entirely due to concentration of solute during the drying of the specimen. Contracted organelles contained 1-7 g more calcium per kg of dry mass than extended ones, and this extra calcium was bound strongly. The quantity of calcium bound in this way is consistent with the theory that the energy for contraction is derived from the chemical potential of calcium ions. Stoichiometry suggests that between 1-4 and 2-1 calcium ions become bound to each molecule of a spasmonemal calcium-binding protein.

Calcium-binding proteins in a vorticellid contractile organelle.

The proteins of the contractile spasmoneme of Zoothamnium have been examined for comparison with other motile systems. Though capable of calcium-induced contraction, glycerinated preparations of the spasmoneme contain neither actin nor tubulin at levels that can be detected in polyacrylamide gels. Sixty per cent of the protein in sodium dodecyl sulphate gels migrates in a band at a molecular weight of approximately 20,000, consisting largely of 2 similar protein species which are here given the name of spasmins. The amino acid composition of 2 spasmin fractions has been determined by a fluorimetric method. They are rich in Asx, Glx and serine, but have few aromatic amino acids and no cystine or methionine. In calcium-buffered polyacrylamide gels, it was observed that a reduction in the electrophoretic mobility of the spasmins was induced specifically by calcium (but not magnesium) at the same low concentrations as induce contraction. This indicates that the spasmins are calcium-binding proteins which may be involved directly in the calcium-induced contraction of the spasmoneme.