Requirement of messenger RNA synthesis for the first division in heat synchronized Tetrahymena

When Tetrahymena are starved during the heat synchronization treatment, they synthesize a small amount of transfer RNA and DNA-like RNA containing poly A, but no ribosomal RNA and still retain the capacity to divide synchronously. Analysis with MAK chromatography revealed that the DNA-like RNA is eluted almost entirely as tenaciously bound, DNA-like RNA. SDS-sucrose gradient centrifugation revealed that the DNA-like RNA is heterogeneous in size with a dominant peak sedimenting at about 17S. The peak fraction containing poly A sediments at about 15S.A good correlation has been established between the percentage of cell division and the synthesis of either tenaciously bound, DNA-like RNA or RNase-resistant RNA using various concentrations of actinomycin D. Actinomycin D treatment causes little delay in the initiation of furrowing in division but prolongs the furrowing process. In the present system, the critical addition time with actinomycin D (50 μg/ml) is about 30 min after the end of the last heat shock (EH).The present data suggest that the synthesis of messenger-like RNA containing poly A is required after the last heat shock (approx. 30–40 min after EH) for the first division in heat synchronized Tetrahymena. This RNA synthesis appears to be related to the furrowing process.     

Microcalorimetric Study on the Toxic Effect of Pb<Superscript>2+</Superscript> to <Emphasis Type="Italic">Tetrahymena</Emphasis>

The toxic effect of Pb²⁺ has been studied in eukaryotic cells by using Tetrahymena as a target. The maximum power (P _m) and the growth rate constant (k) were determined, which showed that values of P _m and k were linked to the concentration (C) of Pb²⁺. The addition of Pb²⁺ caused a decrease of the maximum heat production and growth rate constant, indicating that Tetrahymena growth was inhibited in the presence of Pb²⁺, and Pb²⁺ took part in the metabolism of cells. From micrographs, morphological changes of Tetrahymena were observed with addition of Pb²⁺, indicating that the toxic effect of Pb²⁺ derived from destroying the membrane of surface of Tetrahymena. According to the thermogenic curves and photos of Tetrahymena under different conditions, it is clear that metabolic mechanism of Halobacterium halobium R1 growth has been changed with the addition of Pb²⁺.     

Differential density labeling and gradient centrifugation of Tetrahymena : A new procedure for selection synchrony

A simple technique has been developed which selectively separates late division and post-division cells from a culture of logarithmically growing, asynchronous Tetrahymena. The technique takes advantage of the division-related cessation of feeding. After a 5 min exposure to minute particles of tantalum, 90% of the population will have incorporated and concentrated the particles into food vacuoles. The remaining 10% constitutes a division population. Centrifugation through a Ficoll step-gradient separates the non-feeding and therefore less heavy division population from the feeding, interphase population. The separated cells show a peak of division at 170 ± 10 min and the cell number is doubled by the division. The bulk of DNA synthesis, as measured by ³H-thymidine incorporation occurs between 30 and 120 min. At least with respect to the generation time and the duration of replication the selection procedure leaves the cell cycle unaltered.     

THE NATURE AND PROCESSING OF RIBOSOMAL RIBONUCLEIC ACID IN A DINOFLAGELLATE

Certain features of the dinoflagellate nucleus suggest that it represents a primitive form of eukaryotic nucleus. For this reason, it was of interest to characterize dinoflagellate ribosomal RNA (rRNA) and its mode of synthesis to determine if it also deviated from typical eukaryotic patterns. Gyrodinium cohnii was chosen for this examination. Gyrodinium ribosomal RNA species are 16 and 25s as judged by their sedimentation velocities in isokinetic sucrose gradients. These values are typical of higher plants. In addition, the RNA cosedimented precisely with rRNA from the ciliate Tetrahymena. Nucleotide ratio analyses revealed a GMP + CMP content of 46% for both species of rRNA. The kinetics of incorporation of a radioactive precursor into ribosomal RNA have also been studied, and it seems likely that the maturation of rRNA starts with the synthesis of a 38s molecule. This serves as precursor to the 16s species, and, after a 27s intermediate, the 25s ribosomal component. The process is similar to that in other eukaryotes. The structure of the nucleolus has also been examined, and is seen to be typically eukaryotic.     

Colpidium-Produced RNA as a Growth Stimulant for Tetrahymena*

SYNOPSIS. During logarithmic growth, Colpidium campylum produced a complex, heat-stable material which elevated the reproductive ate of Tetrahymena subsequently inoculated into the culture. This material stimulated only early stages in the growth of Tetrahymena—effect accompanied by an increased number and size of food vacuoles. The Colpidium product was found to be RNA, precipitable from the medium by acetone. Lipids and proteins or peptides were also present in the complex; these appeared to protect the RNA from the action of chemical and physical agents.     

Death ofLactobacillus acidophilus caused by incorporated3H-thymine during incubation without amino acids

Of the cells ofLactobacillus acidophilus R-26 incorporated³H-thymine (specific radioactivity 1.57 Ci/mmol or 3.15 Ci/mmol), their transfer to a medium without essential amino acids resulted in their death. This death may be interpreted in such a way that cell damage caused by disintegration of tritium cannot be effectively repaired under conditions of amino acid deprivation. The experimental conditions make it possible to explain this death either as a result of inhibition of protein or RNA synthesis or as a result of the absence of amino acids. These possibilities were tested in experiments, in which the synthesis of proteins and RNA was inhibited by specific inhibitors in the presence of amino acids. Under these conditions no death of cells was detected, thus indicating that free amino acids play a role in the repair of radiation damage.     

CILIA REGENERATION IN TETRAHYMENA AND ITS INHIBITION BY COLCHICINE

The cilia of Tetrahymena were amputated by the use of a procedure in which the cells remained viable and regenerated cilia. Deciliated cells were nonmotile, and cilia regeneration was assessed by scoring the percentage of motile cells at intervals following deciliation. After a 30-min lag, the deciliated cells rapidly recovered motility until more than 90% of the cells were motile at 70 min after amputation. Cycloheximide inhibited both protein synthesis and cilia regeneration. This indicated that cilia formation in Tetrahymena was dependent on protein synthesis after amputation. Conversely, colchicine was found to inhibit cilia regeneration without affecting either RNA or protein synthesis. This observation suggested the action of colchicine to be an interference with the assembly of ciliary subunit proteins. The finding that colchicine binds to microtubule protein subunits isolated from cilia and flagella (13) supports this possibility. The potential of the colchicine-blocked cilia-regenerating system in Tetrahymena for studying the assembly of microtubule protein subunits during cilia formation and for isolating ciliary precursor proteins is discussed.     

Inter-strain Variability of Structural Proteins in Tetrahymena*

SYNOPSIS The high molecular weight proteins found in isolated pellicles of Tetrahymena have been compared in several individual strains within the genus using SDS polyacrylamide gel electrophoresis. Three variants of the B-protein of epiplasm (MW 174,000; 155,000; 145,000) and 2 of the C-protein (MW 140,000; 122,000) were found among the strains examined. No variation was observed in the major kinetodesmal fiber protein (MW 250,000). The variation found between strains in the proteins of a structure which is (as far as we know) the same in all strains indicates a disjunction between evolutionary change at the 2 levels of organization. The taxonomic implications of the observed variation in structural proteins in Tetrahymena are discussed.     

Poly(A)+ RNA from Tetrahymena: Stimulation of Protein Synthesis in Vitro*†

SYNOPSIS Cell-free synthesis of high molecular weight polypeptides, programmed by RNA from Tetrahymena pyriformis strain W is reported, and methods for preparation of the RNA are described. The RNA was extracted by the SDS-phenol-chloroform-isoamyl alcohol technic. The bulk of extracted RNA was ribosomal and on sucrose gradients peaked at -17S and 25S. After heat denaturation all the 25S RNA was converted to 17S. indicating the presence of hidden breaks, possibly the result of nuclease activity during extraction. Nevertheless, when poly(A)–RNA was collected using oligo-(dT)-cellulose column chromatography, it promoted a 15–fold increase in incorporation of [35S] methionine into TCA-precipitable material. Slab-gel electrophoresis and autoradiography of the product revealed 12 different major polypeptides, varying in weight from 28.000 to 65,000 Daltons. A method for preparation of translatable RNA from Tetrahymena will make possible the comparison of messenger RNAs associated with specific cell structures and with different developmental events.     

Tetrahymena Tubulins and In Vitro Translation of Tetrahymena RNA*

SYNOPSIS. Tetrahymena outer doublet tubulin was compared with neurotubulin and Chlamydomonas flagellar tubulin on SDS-polyacrylamide gels. Tetrahymenaα tubulin did not comigrate with either brain or flagellar α tubulins, although brain, flagellar, and ciliary β tubulins all comigrated. Axonemal tubulin from Tetrahymena strain ST was compared with this tubulin from strains W. S. HSM, and E, and all were found to have the same mobilities. Poly-A containing RNA was separated from whole cell Tetrahymena RNA by oligo-dT cellulose chromatography. Poly-A+ RNA from 24-h cultures (early exponential growth) stimulated greater incorporation of amino acids into polypeptides in the wheat germ cell-free translation system than did poly-A+ RNA from 36-h and 49-h cultures. When separated on SDS-polyacrylamide gels, the translation products of the 24-h poly-A + RNA had 2 prominent protein bands which comigrated with α and β tubulin isolated from Tetrahymena cilia. These bands were not found in the translation products of poly-A+ RNA isolated from 49-h cultures or in the translation products ofpoly-A- RNA.     

DNA,RNA, and protein synthesis in the cyanobacteriumSynechocystis sp. PCC 6803 adapted to different salt concentrations

A salt shock of 684mm NaCl reduced RNA and DNA synthesis to about 30% of the control level inSynechocystis. DNA synthesis recovered to the initial level within 4 h, while for recovery of RNA synthesis about 8 h were necessary. In cells completely adapted to different salt concentrations (from 171 to 1026mm NaCl), a continuous decrease in the RNA content with increasing salt concentrations up to 684mm NaCl was found, whereas the lowest DNA content was measured around 342mm NaCl, i.e., the salinity at which maximal growth occurred. With the uracil and thymidien incorporation technique, maxima in DNA and RNA synthesis were detected in control cells. Comparing these rates with nucleic acid synthesis rates calculated from the contents of DNA and RNA and the growth rates indicated that adaptation to 1026mm NaCl seemed to lead to an increased RNA turnover inSynechocystis. Analysis of protein synthesis with³⁵S-methionine labeling showed alterations in salt-adapated cells ofSynechocystis. At least three proteins (20.5, 25.8, and 35.8 kDa) were synthesized with highest rates at salinities leading to maximal growth, the synthesis of nine proteins (12.5, 16.9, 19.2, 22.2, 24.7, 28.5, 30.5, 50.3, and 63.5 kDa) increased and that of several other proteins decreased with increasing salinity; but only three proteins (12.5, 22.2, and 30.5 kDa) accumulated under these conditions. The adaptation ofSynechocystis to enhanced salt concentrations led also to increased contents of glucosylglycerol, glycogen, and significant amounts of K⁺ as well as Na⁺ ions.     

REGULATION OF MICROTUBULES IN TETRAHYMENA : II. Relation Between Turnover of Microtubule Proteins and Microtubule Dissociation and Assembly during Oral Replacement

Experiments are reported which were designed to test for induced synthesis of microtubule proteins associated with the rapid proliferation of basal bodies and associated intracytoplasmic microtubules which occurs during oral replacement in Tetrahymena. None was found. Instead, it is shown that these structures can be formed with de novo synthesis of as little as 6% of their microtubule proteins. It is suggested that basal body proliferation may be controlled by synthesis of morphogenetic regulator proteins.     

Purification and Characterization of a Novel Chemorepellent Receptor from Tetrahymena thermophila

Chemosensory transduction and adaptation are important aspects of signal transduction mechanisms in many cell types, ranging from prokaryotes to differentiated tissues such as neurons. The eukaryotic ciliated protozoan, Tetrahymena thermophila, is capable of responding to both chemoattractants (O'Neill et al., 1985; Leick, 1992; Kohidai, Karsa & Csaba, 1994, 1995) and chemorepellents (Francis & Hennessey, 1995; Kuruvilla, Kim & Hennessey, 1997). An example of a nontoxic, depolarizing chemorepellent in Tetrahymena is extracellular lysozyme (Francis & Hennessey, 1995; Hennessey, Kim & Satir, 1995). Lysozyme is an effective chemorepellent at micromolar concentrations, binds to a single class of externally facing membrane receptors and prolonged exposure (10 min) produces specific chemosensory adaptation (Kuruvilla et al., 1997). We now show that this lysozyme response is initiated by a depolarizing chemoreceptor potential in Tetrahymena and we have purified the membrane lysozyme receptor by affinity chromatography of solubilized Tetrahymena membrane proteins. The solubilized, purified protein is 42 kD and it exhibits saturable, high affinity lysozyme binding. Polyclonal antibodies raised against this 42 kD receptor block the in vivo lysozyme chemoresponse. This is not only the first time that a chemoreceptor potential has been recorded from Tetrahymena but also the first time that a chemorepellent receptor has been purified from any unicellular eukaryote. Received: 28 July 1997/Revised: 14 November 1997     

Resistance of Tetrahymena to ricin, a toxic enzyme from Ricinus communis.

The protozoan $\text{Tetrahymena}\text{pyriformis}$ was found to be resistant to the toxic action of ricin $\text{in}\text{vivo}$. Isolated $\text{Tetrahymena}$ ribosomes were strongly resistant to the A subunit of ricin when tested in a cell free protein synthesis system under different conditions and also lacked the ability to bind A chain stoichometrically. This suggests that $\text{Tetrahymena}$ is resistant $\text{in}\text{vivo}$ because it contains a ribosome which is not susceptible to the toxic action of ricin.     

Protein Similarities in the Genus Tetrahymena and a Description of Tetrahymena leucophrys n. sp.1

The potential utility of protein arrays visualized by SDS-PAGE in taxonomic studies of protozoa has been investigated within the genus Tetrahymena. Matching coefficients have been obtained from one-dimensional separations of cytoskeletal proteins in a study involving 40 strains of Tetrahymena. In separate studies, the method was estimated to be accurate to within 10%, and the limit of intraspecific variation within the genus was estimated at ? 30%. Accordingly, it is suggested that strains showing matching coefficients 0.6 in these preparations probably represent different species. Further tests using strains identified to species by breeding criteria have shown that the 0.6 rule is asymmetric, i.e. although matching coefficients lower than this indicate separate species, values higher than this do not prove identity. Protein comparisons included in the present study indicate that strain Tur, previously identified as a strain of T. vorax, is distinct from all other macrostome-forming species. It is here designated Tetrahymena leucophrys n. sp.     

Characterization of the macronuclear DNA of different species ofTetrahymena

Summary The macronuclear DNAs from 20 different species ofTetrahymena were characterized using alternating Orthogonal Field (AOF) gel electrophoresis. Each species has approximately 300 different macronuclear DNA molecules that range in size from about 100–2000 kb pairs. Although the individual macronuclear DNA molecules are not well resolved on an AOF gel, most species have a unique profile of macronuclear DNA. The sequences that hybridize with histone H4 (Tetrahymena) and ubiquitin (yeast) genes were identified on the separated macronuclear DNA molecules of the different species. All species have 2 histone H4 genes located on macronuclear DNA molecules of different sizes. This is consistent with the duplication of the histone H4 gene prior to the speciation events leading to the various species ofTetrahymena. The number and sizes of the macronuclear DNA molecules that hybridize with the ubiquitin probe vary from species to species. A grouping of the different species ofTetrahymena based on this hybridization pattern paralels groupings of the species based on ribosomal RNA sequences and isoenzymes. Some intraspecific variation among different strains ofTetrahymena thermophila was detected using ubiquitin and 5S ribosomal RNA as probes.Presented at the FEBS Symposium on Genome Organization and Evolution, held in Crete, Greece, September 1–5, 1986