The cytochromes of mitochondria from Tetrahymena pyriformis strain ST

1. Mitochondria of the obligately aerobic ciliate protozoon, Tetrahymena pyriformis strain ST, are unusual in that they possess a cytochrome oxidase system that does not react with reduced mammalian cytochrome c; the presence of cytochromes a₆₀₃+a₃ is masked in the α-band region of spectra by the broad absorption band of cytochrome a₆₂₀. 2. Other haemoproteins present include cytochromes b₅₆₀, b₅₅₆, c₅₅₃ and c₅₄₉. 3. The reaction of reduced cytochrome a₃ with CO is reversed by flash photolysis, and in the presence of O₂ the subsequent oxidation of this cytochrome is followed by that of cytochrome a₆₀₃. 4. Cytochromes a₆₂₀ and b₅₆₀ also react with CO and with KCN; the latter cytochrome corresponds with that designated cytochrome o by other workers. 5. The contribution of cytochrome a₆₀₃ to difference spectra is revealed by making use of the fact that it does not react with KCN. 6. Cytochrome a₆₂₀ is unstable, and its α-absorption band is lost from spectra of mitochondria which have been aged or treated with ultrasound, detergents or organic solvents. 7. Possible pathways of electron transport via the several different terminal oxidases in Tetrahymena mitochondria are proposed.     

The distribution of DNA among dividing mitochondria of Tetrahymena pyriformis

A squash technique was developed for log phase Tetrahymena pyriformis which permitted the resolution of over 100 individual mitochondria from a single cell. Mitochondria incorporated thymidine at all stages of the cell cycle, even when nuclear DNA synthesis was not occurring. During the stage of macronuclear DNA synthesis, however, there was a significant increase in the extent of mitochondrial labeling. Low radioautograph background suggests that mitochondrial DNA is synthesized at the mitochondria themselves. All mitochondria incorporated thymidine-3H within one population-doubling time. Grain counts also showed that the amount of mitochondrial label was retained for four generations and that this label remained randomly distributed among all mitochondria during this time. The results are not consistent with any theory of de-novo or "microbody" origin of mitochondria, but do support the hypothesis that mitochondria are produced by the growth and division of preexisting mitochondria. The stability of the mitochondrial DNA and its distribution among daughter mitochondria satisfy two prerequisites for a genetic material. The possibility is discussed that some of the genetic information for the mitochondrion is contained in the DNA associated with this organelle.     

A discontinuous small subunit ribosomal RNA in Tetrahymena pyriformis mitochondria

We show here that in the mitochondria of Tetrahymena pyriformis, the small subunit (SSU) rRNA is discontinuous, being comprised of two separate components which we term "alpha" (a novel low molecular weight RNA, approximately equal to 200 nucleotides long) and "beta" (a previously described 14 S RNA). The SSU alpha rRNA has been sequenced in its entirety; it represents the immediate 5'-terminal domain of conventional SSU rRNA. The sequences at the ends of the SSU beta rRNA have also been determined; they show that this molecule corresponds to the 3'-terminal 7/8 of conventional SSU rRNA. A 2.5-kilobase pair XbaI restriction fragment of T. pyriformis mitochondrial DNA which contains the SSU alpha and SSU beta rRNA genes was cloned and its complete nucleotide sequence was determined. This revealed that the genes encoding the two segments of SSU rRNA are separated by a 54-base pair (A + T)-rich spacer. The alpha and beta sequences can be fitted to a generalized secondary structure model for eubacterial 16 S rRNA, with the two RNA species associating through long range interactions to form base-paired regions characteristic of SSU rRNA. In this model, the spacer is situated in a region of pronounced primary and secondary structural variation among SSU rRNAs. The significance of these findings with respect to rRNA biosynthesis and processing and the possible evolutionary relationship between spacers and variable regions in rRNA genes is discussed.     

Purification and characterization of membrane-bound CO-reactive hemoprotein from Tetrahymena pyriformis mitochondria

Abstract A CO-reactive hemoprotein was purified from the mitochondrial membrane fraction of Tetrahymena pyriformis . It showed absorption peaks at 615 and 455 nm in the reduced form and an α peak at 565 nm in the pyridine ferrohemochrome spectrum. Although the spectral properties were apparently similar to those of 'cytochrome a ₆₂₀' which was previously proposed as a mitochondrial terminal oxidase in T. pyriformis , it did not contain any molecules of heme a or copper atoms. Further, it showed neither cytochrome c oxidase nor cytochrome c peroxidase activity. These results suggest that 'cytochrome a ₆₂₀' may not be the terminal oxidase in the mitochondrial respiratory chain of T. pyriformis .     

Chlortetracycline-mediated continuous Ca2+ oscillations in mitochondria of digitonin-treated Tetrahymena pyriformis

Ca2+ transport in mitochondria was studied in situ using digitonin-permeabilized cells of the ciliate protozoan Tetrahymena pyriformis GL. In the presence of oxidizable substrates and inorganic phosphate, mitochondria were able to accumulate a large amount of the added Ca2+ without subsequent uncoupling and mitochondrial damage. However, the maximal Ca2+ uptake dramatically decreased in the presence of micromolar concentrations of the fluorescent calcium indicator, chlortetracycline, which in aerobic conditions caused an uncoupling of the respiration in Ca2+-loaded mitochondria. Moreover, on reaching hypoxia, when the rate of oxygen diffusion from the air to the stirred incubation medium became a limiting factor, continuous Ca2+ oscillations were observed. Ca2+ fluxes were synchronous with the cyclic changes of the membrane potential and were followed with a significant delay by the changes of the membrane-associated fluorescence of Ca-chlortetracycline complexes. Both the chlortetracycline-induced uncoupling of the respiration and the oscillations were prevented by either EGTA or ruthenium red. It is suggested that in conditions of the limited rate of respiration the oscillations are generated as a result of the functioning of the two Ca2+-transport pathways: a Ca2+ uniport and a chlortetracycline-mediated electroneutral Ca2+ efflux.     

Conventional and confocal microscopic studies of insulin receptor induction in Tetrahymena pyriformis.

Tetrahymena pyriformis reportedly possesses binding structures for the vertebrate hormone insulin that are amplified in cells having prior exposure to the hormone. Conventional and confocal microscopic studies were conducted to verify the validity of the reports and to localize the binding sites. Logarithmic cultures were exposed to insulin concentrations of 0, 3, 6, and 12 micrograms/ml for 1 h (receptor induced, RI). After an additional culture period the cells were fixed, exposed to porcine insulin (antigen), immunocytochemically processed, and examined for staining intensity by video image analysis. Observations indicate that T. pyriformis does bind insulin whether or not the cells have prior exposure to insulin. Staining intensity increased at the two highest RI concentrations over 0 microgram/ml (P less than 0.01) but the staining intensity at 0 microgram/ml was not different from that at 3 micrograms/ml. The results confirm that T. pyriformis does bind insulin and that prior exposure to insulin increases the binding capacity for insulin in what may be a concentration-dependent manner. Confocal microscopy of RI cells that had been labeled with either fluorescein isothiocyanate-insulin or the immunocytochemical technique outlined above revealed labeling of the cytoplasm that appeared to be vesicular. Both techniques produced very similar labeling patterns when optical sections through the cells were viewed. Conventional fluorescence revealed ciliary labeling that could be decreased by incubation with excess unlabeled insulin. Further studies with the exo- mutant of T. thermophila, SB 255, showed that mucocyst discharge and capsule formation are not involved in insulin binding.