The binding properties of dynein arms to the A- and B-tubules of outer doublets of cilia from Tetrahymena pyriformis were examined, with the following results: 1. When 30s dynein purified from Tetrahymena cilia was added to doublets deficient in dynein arms, it bound to both A- and B-tubules almost equally and formed arms along the edges. The overall length of arms bound to the A-tubule was 22 +/- 3 nm, and that of arms bound to the B-tubule was 24 +/- 3 nm. Each arm bound to the A- and B-tubules was pointed toward the base at angles of 55 degrees +/- 7 degrees and 48 degrees +/- 7 degrees, respectively. In the presence of sufficient amounts of dynein, the arms along the A- and B-tubules were located at intervals of 22.8 +/- 1.5 nm and 22.5 +/- 1.7 nm, respectively. 2. On adding ATP, only the arms bound to the B-tubule were dissociated from the doublet decorated with arms on both sides. The dissociated arms rebound themselves to the B-tubule after hydrolysis of the ATP. When several doublets decorated with arms along both A- and B-tubules were arrayed side by side, the interdoublet spacing increased from 14 +/- 2 nm to 17 +/- 2 nm on addition of ATP. 3. The turbidity of a suspension of trypsin [EC 3.4.21.4]-treated axonemes decreased rapidly on addition of ATP, then recovered partially. Observations by dark-field microscopy and electron microscopy showed that the doublets which had slid out from the axonemes on ATP addition formed large aggregates after hydrolysis of the ATP. The dynein arms were also solubilized from the axonemes upon addition of ATP, and rebound themselves to the B-tubule after hydrolysis of the added ATP. 4. The double-reciprocal plot for the ATPase [EC 3.6.1.3] activity of the trypsin-treated axonemes against ATP concentration was composed of two straight lines, from which the Km values were estimated to be 1.0 and 12.7 micrometer. The dependence of the decrease in turbidity of the axonemal suspension on ATP concentration indicated that the binding of ATP to sites with an apparent dissociation constant of 1 micrometer induced dissociation of the arms from the B-tubule.
Fragmented sarcoplasmic reticulum (FSR) from rabbit skeletal muscle was passively loaded with 45Ca2+. Its Ca2+-induced Ca2+ release was measured in the presence of 0.1 M KCl and 5 mM MgCl2 at 0 degrees C by Millipore filtration. The following results were obtained. 1. The amounts of Ca2+-induced Ca2+ release from heavy SR, light SR, and unfractionated SR were 80, 20, and 60% of the amounts of preloaded Ca2+, respectively. Therefore, the experiments were carried out with unfractionated FSR. 2. The Ca2+-induced Ca2+ release from FSR was inhibited by procaine, but unaffected by caffeine and trifluoperazine. The rate of Ca2+ release decreased markedly with decreasing pH. 3. Various adenine nucleotides (ATP, AMPPNP, ADP, AMP) accelerated the Ca2+ release, and the accelerating effect was reversible. CTP had no effect on the release, but inhibited the accelerating effect of AMPPNP. 4. In the presence of 15 microM external free Ca2+, the final amount of the Ca2+ release was unaffected. The rate of Ca2+ release was markedly increased by AMP; the dependence of the rate on AMP concentration followed a Michaelis-Menten type equation with a Hill coefficient of 1 and an apparent affinity for AMP of about 2 mM. 5. In the presence of AMP, the amount of Ca2+ released increased, while the relative rate was unaffected by increasing the external Ca2+ concentration. The final amount released increased from 0 to 60% of the amount of preloaded Ca2+ by increasing the free Ca2+ concentration from 0.06 to 0.24 microM. The effect of external Ca2+ on the release was reversible. 6. The ratio between the amount of preloaded Ca2+ and that of Ca2+ release was independent of the Ca2+ concentration used for preloading. Furthermore, the dependence of the final amount of Ca2+-induced Ca2+ release on external Ca2+ was unaffected by internal Ca2+.
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