In exponentially growing Tretrahymena thermophila the DNA content of the following structures was determined by cytophotometry: macronuclei of sister cells immediately after division; micronuclei; extranuclear chromatin in dividing cells and postdividers. Further, the development of macronuclear DNA amount in successive cell generations was determined. It was found that chromatin elimination is a frequent process reducing DNA content by about 4% per fission. This chromatin disappears within 20 min after division. The quantity of DNA extruded is highly variable and is different from the micronuclear DNA amount of multiples of it. The frequency of generations with two replication rounds as well as those without replication is estimated to be in the range of 2% each. These findings together with the qualitative difference between micro- and macronuclear DNAs suggest that the macronucleus of Tetrahymena is not entirely composed of complete genomes and that parts of the genetic material must be treated specifically for different sequences either during extrusion or during replication.
Cellular proliferation of newly hatched chickens was depressed by starving them for 2.5 to 3.5 days. Starvation may hold proliferative cells in different parts of the cell cycle. In order to find where in the cell cycle these cells are held, the animals were fed and the following events were measured as a function of time after the start of feeding : (l) the mitotic index, and (2) the DNA synthetic index (number of cells in DNA synthesis 1 hour after injection of Ha-thymidine). The duration of the cell's DNA synthetic period (S) was measured, permitting a more exact description of the cell cycle. Analysis of the duodenal and esophageal epithelia shows that feeding initiates cell division by stimulating cells from the G1 part of the mitotic cycle in the duodenum. In the esophagus some of the cells were either stopped or slowed down in G 1, and another group of cells in G2. Feeding simultaneously stimulates both cell groups; the former moves into S, the latter into mitosis. The S period in starved animals is a little longer than that in normally fed animals but the extension can be attributed to a slightly decreased body temperature.
The macronucleus of Tetrahymena contains a large number of DNA molecules of subchromosomal size. They belong to about 270 species each one occurring at an average number of 45 copies. Macronuclei divide unequally and nothing is known of segregation control. This and the elimination and degradation of DNA during macronuclear amitosis make the clonal stability of macronuclei a problem of qualitative and quantitative control on a subchromosomal level. We studied the contribution of DNA elimination to the quantitative composition of the macronucleus cytophotometrically in single cells of different strains. This was done under standard conditions and under conditions known to influence the amount of macronuclear DNA. The following results were found: Elimination of DNA occurs at almost every division. The size of the elimination body is highly variable but still positively correlated with the macronuclear DNA content. In T. thermophila the amount of eliminated DNA is 2.5% of the G2 content and is not dependent on the growth state. It varies with species, amounting to as much as 8% in T. pigmentosa. During conditions which increase the macronuclear DNA content, very little DNA is eliminated. On the other hand, large amounts are eliminated under other conditions causing the macronuclear DNA content to decrease. DNA to be eliminated at division is synthesized at the same time as bulk DNA. We developed a computer program which helps us study the effects of DNA elimination and unequal divisions upon the copy numbers of subchromosomal DNA classes.(ABSTRACT TRUNCATED AT 250 WORDS)
A protein mixture named LTx, was released from human tonsillar lymphocytes, when incubated at 37 degrees C in either "individual" or "mixed" cultures. LTx caused a decrease in the incorporation of 14-C- labelled amino acids of the target lymphocytes, while the release of 51- Cr from labelled target cells increased. Target cells were found to bind the "toxic" protein.
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