Genetic processes in intergeneric cell hybrids Atropa + Nicotiana

Summary The genetic constitution of the cell hybrids Atropa belladonna + Nicotiana chinensis, obtained by cloning of individual heteroplasmic protoplast fusion products (Gleba et al. 1982) and cultured in vitro for 12 months, has been studied. The study comprised 11 hybrid cell clones of independent origin and included analysis of a) chromosome number, size, morphology, and relative position in metaphase plates, b) multiple molecular forms of the enzymes esterase and amylase, and c) relative nuclear DNA content. The data obtained permit us to conclude that, after one year of unorganized growth in vitro, the cells of most (8) clones had retained chromosomes of both parents, while species-specific elimination of nearly all Atropa chromosomes had occurred in three clones. About half of the non-segregating clones possess 120–150 chromosomes including 50–70 of Atropa and 50–90 of Nicotiana. Other clones are polyploid and possess 200–250 chromosomes with a predominance of either Atropa or Nicotiana chromosome types. Only a few chromosomal changes (reconstituted chromosomes, ring chromosomes) have been detected. In some metaphase plates, chromosomes of the two parents tend to group separately, indicating non-random arrangement of chromosomes of the two parents within the hybrid nucleus. Cytophotometric studies of the relative nuclear DNA content showed that distribution histograms for cell clones were similar to those of non-hybrid cultured cells. Cell populations were relatively homogenous and do not indicate any genetic instability as a result of hybridization between remote plant species. Biochemical analysis of isoenzyme patterns confirmed that in most cell clones, species-specific multiple molecular forms of esterase and amylase from both parents were present, i.e. genetic material of both parental species was expressed in the cell hybrids.Dedicated to Professor G. Melchers with gratitude     

DNA content of wheat monosomics at interphase estimated by flow cytometry

 Two complete, independently maintained sets of 21 monosomic wheat lines derived from cv. ‘Chinese Spring’ were analyzed for their DNA content at the G1 stage with flow cytometry. The DNA content of individual chromosomes was estimated by subtracting the value of a monosomic line from that of euploid wheat. Our data show that the estimated 2C DNA of individual wheat chromosomes in 21 monosomics at the G1 stage ranges from about 0.58 pg in chromosome 1D to approximately 1.12 pg in chromosome 3A. The A genome (2C=6.15 pg) seems to contain more DNA than the B (2C=6.09 pg) and D (2C=5.05 pg) genomes. Analysis of variance showed significant differences (α=0.01) in DNA content both among homoeologous groups and among genomes. Our estimates of interphase DNA content of wheat chromosomes from monosomic lines were poorly correlated to the chromosome sizes at metaphase (r=0.622, P≤0.01). This poor correlation might be due to differential coiling among chromosomes during cell division, possible bias of fluorochrome binding to heterochromatin, or heterogeneity among monosomic lines. Finally, flow cytometry may aid but cannot replace cytological checks in aneuploid maintenance. Received: 21 January 1997 / Accepted: 23 June 1997     

Dormancy and proliferation in Saccharum officinarumxS. spontaneum hybrids which differ in the number of the introgressed S. spontaneum chromosomes.

Proliferating cells remain transiently blocked at different cycle compartments until specific stressors are removed or until the cells become adapted to their presence. This paper investigates the efficiency of cycle blocks in three sugarcane hybrids with the full noble cane (Saccharum officinarum) genome (2n=8x=80) but differing in the number of introgressed S. spontaneum (2n=8x=64) chromosomes. The My5514, B42231 and C236-51 cultivars possess 20, 30 and 40 additional S. spontaneum chromosomes, respectively. Flow cytometry showed that over 90% of cells were accumulated with a 2C DNA content in their dormant primordia. The presence of S. spontaneum chromosomes decreased the low stringency of the 4C block. The greater the number of these chromosomes, the lower was the number of quiescent cells with a 4C DNA content (P<0.05). Shortly after stimulation of the primordia (85% relative humidity and 30 degrees C), i.e. in the 2 mm long roots, a negative correlation was found between the number of introgressed S. spontaneum chromosomes and the frequency of cells undergoing replication and mitosis. On the other hand, when roots were already proliferating under steady-state conditions (15 mm long roots) the more S. spontaneum chromosomes the cells possessed, the longer the relative time it took for all chromosomes to replicate and segregate, and the longer the relative time they spent in G(2), with the 4C DNA content. The presence of S. spontaneum chromosomes seems to be recognized by these proliferating cells as a stressor which preferentially activates checkpoint pathways operating at the second half of the cycle, but not at its onset.     

Cytochemical studies of metaphase chromosomes by flow cytometry

The cytochemical properties of metaphase chromosomes from Chinese hamster and human cells were studied by flow cytometry. This technique allows precise quantitation of the fluorescence properties of individual stained chromosome types. Chromosomes were stained with the following fluorescent DNA stains: Hoechst 33258, DAPI, chromomycin A₃, ethidium bromide, and propidium iodide. The relative fluorescence of individual chromosome types varied depending on the stain used, demonstrating that individual chromosome types differ in chemical properties. Flow measurements were performed as a function of stain and chromosome concentration to characterize the number and distribution of stain binding sites. Flow analysis of double stained chromosomes show that bound stains interact by energy transfer with little or no binding competition. For most hamster chromosomes, there is a strong correlation between relative fluorescence and stain base preference suggesting that staining differences may be determined primarily by differences in average base composition. A few hamster chromosome types exhibit anomalous staining which suggests that some other property, such as repetitive DNA sequences, also may be an important determinant of chromosomal staining.     

Isolation,fractionation and biochemical analysis of the metaphase chromosomes of Microtus agrestis

A method has been developed for isolating metaphase chromosomes from Microtus agrestis fibroblasts in relatively large quantities with recovery of about 50% of the chromosomes present in the metaphase cells. The method employs pressure homogenisation to release the chromosomes from the cells. The average chemical composition of the Microtus chromosome preparations is 24.6% DNA, 19.9% RNA and 55.5% protein. The isolated chromosomes were fractionated by sedimentation velocity in a density gradient into three size groups in one of which 75–80% of the chromosomes were the large sex-chromosomes. The relative composition of this fraction containing most of the heterochromatin of the cell was DNA: 100, RNA: 59, acid-soluble protein: 54, acid-insoluble protein: 178. — Disc electrophoresis studies revealed no significant difference in the histone patterns between the euchromatic and heterochromatic chromosomes of the three chromosome size-groups. Metaphase chromosomes appear to have a lower lysine-rich histone content than interphase nuclei.     

The amounts of nuclear DNA and the duration of DNA synthetic period (S) in related diploid and autotetraploid species of oats

The relative amounts of nuclear DNA of root meristematic cells of two related diploid Avena species, A. strigosa 2x and A. pilosa, which have different karyotypes, and an autotetraploid of one, A. strigosa 4x, were measured by Feulgen microspectrophotometry. The durations of various periods of their mitotic cycles were studied by autoradiography of cells pulse-labeled with tritiated thymidine. The results show that the autotetraploid, with twice the amount of nuclear DNA of its diploid, has the same duration of S period as the diploid, while A. pilosa, with intermediate nuclear DNA content, has a longer S period. These results support the hypothesis that homologous chromosomes or genomes require similar duration for their DNA synthesis and suggest that the structures of chromosomes are involved in temporal control of the DNA synthesis in cells.     

Structure and organization of rhodophyte and chromophyte plastid genomes: implications for the ancestry of plastids

Summary Recombinational repair is the means by which DNA double-strand breaks (DSBs) are repaired in yeast. DNA divergence between chromosomes was shown previously to inhibit repair in diploid G1 cells, resulting in chromosome loss at low nonlethal doses of ionizing radiation. Furthermore, 15–20% divergence prevents meiotic recombination between individual pairs of Saccharomyces cerevisiae and S. carlsbergensis chromosomes in an otherwise S. cerevisiae background. Based on analysis of the efficiency of DSB-induced chromosome loss and direct genetic detection of intragenic recombination, we conclude that limited DSB recombinational repair can occur between homoeologous chromosomes. There is no difference in loss between a repair-proficient Pms⁺ strain and a mismatch repair mutant, pms1. Since DSB recombinational repair is tolerant of diverged DNAs, this type of repair could lead to novel genes and altered chromosomes. The sensitivity to DSB-induced loss of 11 individual yeast artificial chromosomes (YACs) containing mouse or human (chromosome 21 or HeLa) DNA was determined. Recombinational repair between a pair of homologous HeLa YACs appears as efficient as that between homologous yeast chromosomes in that there is no loss at low radiation doses. Single YACs exhibited considerable variation in response, although the response for individual YACs was highly reproducible. Based on the results with the yeast homoeologous chromosomes, we propose that the potential exists for intra- YAC recombinational repair between diverged repeat DNA and that the extent of repair is dependent upon the amount of repeat DNA and the degree of divergence. The sensitivity of YACs containing mammalian DNA to ionizing radiation-induced loss may thus be an indicator of the extent of repeat DNA.     

DNA amounts and chromatin compactness in Vicia

2C DNA amounts and areas of chromatin were determined with a M 86 Vickers microdensitometer in 56 species of Vicia (x=5, 6, 7), exhibiting large differences in chromosome size. There were significant differences between the species both in DNA content and chromatin area. The nuclear DNA amounts range from 3.85 to 27.07 pg. DNA distribution appears discontinuous; species cluster into distinct groups and the average nuclear DNA amount separating each successive pair is approximately the same (2.23 pg). The compaction of DNA in interphase nuclei increases with increasing DNA amount, which is, at least partly, due to a disproportionate increase in the heterochromatin relative to the euchromatin component of DNA. Comparisons of DNA readings at various stages of the cell cycle show that the DNA amounts are underestimated by microdensitometry in nuclei with high DNA density. Estimation of relative DNA content and area of individual chromosomes were made in twelve species. The results show that changes in DNA content within chromosomes affect the degree of metaphase coiling in an orderly fashion.     

Three euchromatic DNA sequences under-replicated in polytene chromosomes of Drosophila are localized in constrictions and ectopic fibers

We examined three regions of under-represented euchromatic DNA sequences (histone, Ubx, and 11 A), for their possible correlation with euchromatic constrictions in polytene chromosomes of Drosophila melanogaster. Cloned sequences were hybridized to filters and to chromosomes prepared for light microscopy. Under-represented sequences hybridized to DNA within constrictions and in ectopic fibers. In contrast, adjacent sequences that were fully endoreplicated in the Ubx and 11A regions in polytene cells hybridized to sites just adjacent to their respective constrictions. For one region (Ubx), sequences under-represented in salivary gland cells were fully endoreplicated in fat body cells. For this particular region, the morphology of the polytene chromosomes differs between these two cell types in that the specific constriction is absent at this region in fat body polytene chromosomes, thus strengthening the correlation between under-representation and chromosome constrictions. Although all three sequences are in regions that have been classified by others as intercalary heterochromatin, we detect no common functional or sequence organizational feature for these examples of under-represented DNA. We suggest that the lower efficiencies of the replication origins, or special regions of termination at these sites, are the primary cause of the under-replication, and that this under-replication is sufficient to confer the properties of intercalary heterochromatin.     

Quantitation of Absolute Pneumocystis carinii Nuclear DNA Content. Trophic and Cystic Forms Isolated from Infected Rat Lungs are Haploid Organisms

The Pneumocystis carinii carinii DNA content in nuclei of trophic forms and cysts (spore cases) containing 2, 4, or 8 intracystic bodies, were compared using quantitative fluorescence image analysis. The nuclear DNA content was found to be lower than the theoretical limits of Feulgen cytophotometry. Several fluorescent DNA dyes provide brighter staining, but these techniques suffer from nonspecific binding to other cellular components, such as RNA. It was demonstrated that the thick glycocalyx surfaces of trophic forms and the cyst walls of P. carinii organisms, as well as the cell wall of S. cerevisiae, bound all fluorescent dyes tested to varying degrees. Hence in this study, measurements were performed on cells in which the outer surfaces of organisms were first removed with lyticase. Two stains that appeared most specific for DNA, DB181 and 4′,6-diamidino-2-phenylindole (DAPI), were used for quantitations; lower deviations of fluorescence intensities were observed with DB181. Haploid wild type Saccharomyces cerevisiae and cdc-28 temperature-sensitive mutant cells, accumulated at the restrictive temperature (37° C), were used as quantitative internal standards for estimating the absolute nuclear DNA content of P. carinii. Haploid wild type and mutant nuclei stained with DAPI had the same relative fluorescence intensities. The P. carinii nuclear DNA content of trophic forms and individual intracystic bodies (spores), regardless of life cycle stage, were not different. The mean values obtained were 6.9 and 6.7 fg DNA/nucleus with DB181 and DAPI, respectively (approximately 9.26 and 8.99 Mbp nucleotides, respectively). Since these would include 2C (G-2 phase) and S-phase nuclei, a 1C population of nuclei was selected by histogram distributions of DB181-stained nuclei. Almost all nuclei analyzed in all life cycle stages fell within this population. The 1C mean of 6.55 fg DNA/nucleus (median, 6.62 fg DNA/nucleus) was estimated as representing 8.79 Mbp nucleotides, assuming only A-T binding of the dye and taking into account the G+C content of S. cerevisiae and P. carinii. A 4C (G-2-phase diploid nuclei) population was not detected in histograms of DB181- or DAPI-stained nuclei. The P. carinii nuclear DNA content values obtained in this study were similar to those independently obtained by calculating the total DNA in the organism's chromosomes resolved by electrophoretic techniques. Together, the data on total chromosome numbers and the estimated DNA content of those chromosomes, with our quantitation of nuclear DNA content of different life-cycle stages demonstrate that P. carinii carinii isolated from infected rat lungs are haploid organisms.     

DNA image-fluorimetry of individual human chromosomes

A microfluorimetric method has been developed for determination of DNA content in individual human chromosomes. The method is based on a preliminary identification of chromosomes with Hoechst 33258 followed by staining of the chromosomes with Feulgen reaction by using Schiff’s reagent type ethidium bromide-SO₂ and then by measuring the fluorescence intensity of the chromosomes by using an image analyzer. The method allows determining the DNA content of individual chromosomes with an accuracy up to 4.5 fg. The DNA content of individual human chromosomes and their p-and q-arms, as well as homologous chromosomes, were measured by using the developed method. It has been shown that the DNA content in chromosomes of the normal human karyotype is unstable and can fluctuate in some chromosomes within 35–40 fg.     

Generation of Five High-Complexity Painting Probe Libraries from Flow-Sorted Mouse Chromosomes

Mouse metaphase chromosomes were purified by flow sorting from the murine fibroblast cell line Mus spretus clone 5A. We sorted chromosomes that fell into five individual peaks based on the Hoechst 33258/chromomycin A3 DNA histogram: three peaks corresponding to the least amount of DNA and two peaks representing chromosomes with the most DNA content. This is the first example of the successful application of bivariate flow karyotyping to murine chromosome sorting. We then applied primer-directed in vitro DNA amplification using the polymerase chain reaction (PCR) to generate and label larger amounts of chromosome-specific DNA. In situ hybridization showed specific binding of the PCR products to mouse chromosomes Y, 19, 18, 3, and X as well as chromosomes 1 and 2. The combination of chromosome sorting from the M. spretus cell line and PCR proved to be highly valuable for generation of pools of DNA fragments that exhibit specific binding to mouse chromosomes and can be used to identify and delineate mouse metaphase chromosomes.     

Karyology of a Marine Non-Motile Dinoflagellate, Pyrocystis lunula

Dinoflagellates have a unique and interesting intracellular architecture such as permanently condensed chromosomes throughout the cell cycle. However the study of dinoflagellate chromosomes is not amendable because of the unusually higher number of chromosomes and problems in sample preparation. The species of Pyrocystis spend most of their life cycle as vegetative cyst forms and have been used as experimental organisms for bioluminescence and circadian rhythms. Here, we documented the content of DNA in different life stages and the chromosome karyology in a marine non-motile dinoflagellate Pyrocystis lunula, through light and fluorescent microscopy, serial ultra-thin sectioning, and three dimension (3D) modeling. The DNA content doubles during DNA synthesis and in the end of the cell division two separate daughter cells have the approximately same fluorescent values for the mother cells. Using serial ultra-thin sectioning and 3D modeling, we report the first ultrastructural karyogram. The cells chosen were at the end of karyokinesis. A total of 98 chromosomes were counted and assigned to 49 pairs. In this species, DNA synthesis appears to occur before, or during asexual division and P. lunula lives a diplontic life cycle.     

Zonal Fractionation of Mammalian Metaphase Chromosomes and Determination of Their DNA Content

Chinese hamster cells in culture were synchronized, collected at metaphase, homogenized to release the chromosomes, and the chromosomes fractionated in a sucrose gradient using a zonal centrifuge with an A12 zonal rotor. Chromosomes in the separated fractions as well as in control metaphase spreads were quantitatively classified into five easily distinguished groups, according to individual measurements of length and centromeric index. For each zonal fraction, chemical determinations were made of the amount of DNA per average chromosome. Using the group compositional data for each fraction, the amount of DNA per average chromosome in each of the groups was then calculated to be: Group I (chromosomes 1, 2)= 1.00 ± 0.14 pgm/chromatid; Group II (chromosomes 4, X, 5) -0.39 ± 0.05 pgm/chromatid; Group III (chromosomes Y, 6, 7, 8)=0.24 ± 0.04 pgm/chromatid; Group IV (chromosomes 9, 10, 11)=0.13 ± 0.004 pgm/ chromatid; and Group V (a small marker in this cell line)=0.06 pgm/ chromatid. These values are in good agreement with the literature values for relative chromosomal DNA content derived from cytospectrophotometric measurements of fuelgen stained hamster metaphase spreads. They indicate that unlike the case for human chromatids the amount of DNA found in hamster chromatids is not directly proportional to the chromatid length.

The larger chromosomes contain more DNA per unit length than smaller chromosomes. The magnitude of this effect is considerably greater than that which may be ascribable to centromeric constriction.     

A study of the process of synchronisation and micronucleation in <Emphasis Type="Italic">Beta vulgaris</Emphasis> and the monitoring of an isolation procedure for micro-nuclei and micro-protoplasts by confocal laser scanning microscopy and flow cytometry

The process of synchronization and micro-nuclei induction in a suspension culture of Beta vulgaris, was induced by the sequential treatment with the DNA-synthesis inhibitor aphidicolin (30 μM, 24 h) and the spindle-toxin amiprophos-methyl (32 μM, 24 h). Mitotic arrest of divisions, spreading of G2-metaphase chromosomes, re-grouping of chromosomes, formation of a nuclear cell wall around single and re-grouped chromosomes and restitution of nuclei with a doubled DNA content was observed. The process of micro-nucleation was induced much less efficiently in Beta vulgaris than in Nicotiana plumbaginifolia. Cytological observations and monitoring of the process with flow cytometry and confocal laser scanning microscopy, was essential to follow up the course of events and to monitor the development of an efficient procedure for micro-protoplast isolation. Micro-nucleated protoplasts were fractioned by iso-osmotic Percoll gradient centrifugation to obtain heterogeneous micro-protoplast populations with cytoplasts and micro-protoplasts of different size. An enriched fraction with small sub-diploid micro-protoplasts was obtained with the equivalent DNA content of 1–4 chromosomes, as revealed by confocal laser scanning microscopy and flow cytometry. Sub-diploid micro-protoplasts with DNA amounts equivalent to 1–4 chromosomes were predominantly observed in the size classes of 1.8–10.2 μm at a frequency of 34.2–34.5%. The DNA measurements of micro-nuclei and micro-protoplasts, confirmed the hypothesis that the process of micro-nucleation followed the same course of cellular events as observed in N. plumbaginifolia. The correlation between DNA content and size of micro-nuclei and micro-protoplasts was not linear and affected by the degree of DNA condensation, total amount of DNA, and the presence of cytoplasm.     

Localization of ribosomal RNA genes on human acrocentric chromosomes

Summary Clonal derivatives of a human heteroploid cell line, with different numbers of acrocentric chromosomes, show different rDNA contents. A linear relationship has been found between the rDNA content and the relative mass of the acrocentric chromosomes (D+G) expressed as the ratio between the mass of their DNA and the mass of the DNA of the whole chromosomal complement. The results suggest that human rRNA genes are located exclusively on the chromosomes of the groups D and G and that all these chromosomes contain rRNA genes.     

Centromeric index versus DNA content flow karyotypes of human chromosomes measured by means of slit-scan flow cytometry

We have applied slit-scan flow cytometry (SSFCM) to classify human chromosomes according to their centromeric index (CI) and relative DNA content. The resulting bivariate--CI vs. DNA content--distributions shows 14 peaks for normal human chromosomes. Distinct peaks are produced by chromosomes 1, 2, 3, 4 + 5, 6 + 7 + X, 8, 13 + 14 + 15, 16, 17 + 18, 19 + 20, and 21 + 22 + Y. In addition, chromosomes 9 through 12 are resolved into three peaks. The identity of the chromosomes comprising each peak was determined by comparing CI vs. DNA content distributions measured for normal human chromosomes by means of SSFCM with CI and DNA content values measured for human chromosomes with image analysis. The accuracy of CI measurement by SSFCM was verified by measuring CIs for human chromosomes isolated from human/rodent hybrid cell lines containing only a few known human chromosomes. These studies showed CIs measured for human chromosomes 1-19 and 21 to be in close agreement with the CIs calculated by means of image analysis. We further confirmed the chromosome assignments for each peak by showing that the relative volumes of the peaks in the CI vs. DNA content distributions for chromosomes from normal cells are similar to the relative frequencies of chromosomes expected for these peaks based on the peak assignments.     

Flow cytogenetics of uncloned and cloned Chinese hamster cells

Flow cytometry has greatly facilitated the routine use of DNA content as a cellular indicator of the stages of the cell cycle and ploidy. DNA content can also be used to distinguish individual chromosomes. Fluorescent staining of chromosome DNA was done with a combination of ethidium bromide and mithramycin in hypotonic solution. Subsequent detergent treatment of the cells with Triton X-100 facilitated chromosome isolation. DNA flow cytometry of chromosomes of four established uncloned Chinese master cell lines showed 10 to 12 major subpopulations of chromosomes with varying degrees of overlap in the range of low and intermediate DNA content. Cloning of B14F28 cells, the line with the largest heterogeneity in chromosome number and DNA content, considerably reduced the dispersion in chromosome number and improved the resolution of DNA content distributions. Thus, cloned cells with a relatively homogeneous karyotype permit better discrimination of chromosome subpopulations by DNA content than uncloned cells and provide a more sensitive system to study mutagenic effects.     

Structural Organization of the Human Genome: Distribution of Nucleotides,AluRepeats, and Exons in Chromosomes 21 and 22

Analysis of DNA sequences of the human chromosomes 21 and 22 performed using a specially designed MegaGene software allowed us to obtain the following results. Purine and pyrimidine nucleotide residues are unevenly distributed along both chromosomes, displaying maxima and minima (waves) with a period of about 3 Mbp. Distribution of G+C along both chromosomes has no distinct maxima and minima, however, chromosome 21 contains considerably less G+C than chromosome 22. Both exons and Alurepeats are unevenly distributed along chromosome 21: they are scarce in its left part and abundant in the right part, while MIR elements are quite monotonously spread along this chromosome. The Alurepeats show a wave-like distribution pattern similar for both repeat orientations. The number of the Alurepeats of opposite orientations was equal for both studied chromosomes, and this may be considered a new property of the human genome. The positive correlation between the exon and Aludistribution patterns along the chromosome, the concurrent distribution of Alurepeats in both orientations along the chromosome, and the equal copy numbers for Aluin direct and inverted orientations within an individual chromosome point to their important role in the human genome, and do not fit the notion that Alurepeats belong to parasitic (junk) DNA.     

contribution to the study of nuclear total proteins and DNA during the mitotic cycle in fibroblasts cultivated in vitro and in Ehrlich ascites cells

Summary The dry weight and total protein content of nuclei has been measured by interferometry in living or fixed cells cultivated in vitro (freshly prepared chick, mouse or rat embryo fibroblasts) and in fixed Ehrlich ascites tumor cells of the mouse growing in vivo. The DNA content was estimated by cytophotometry after Feulgen reaction in the same nuclei. The dry weight of nucleoli in fibroblasts and the dry weight and DNA content of chromosomes in dividing fibroblasts and Ehrlich tumor cells have also been measured.During the interphase in fibroblasts, the dry weight of the living nucleus and the nuclear total protein content as measured in fixed cells doubles during the preparation for mitosis, as the DNA content does. In chick and mammal fibroblasts and within the limits of accuracy of our measurements, the synthesis curves for nuclear proteins and DNA do not seem to be necessarily identical.In our fibroblasts, the nucleolar total dry weight per nucleus doubles during the interphase (nucleolar preparation for mitosis); it increases in proportion to the nuclear total protein content, even in polyploid nuclei.During the mitosis, the chromosomes contain all the DNA of the nucleus but some nuclear proteins (non chromosomal proteins) seem to move into the cytoplasm during the mitosis and return into the nucleus at the post-telophase.According to our observations, Ehrlich ascites mouse tumor cells are near-tetraploid as far as the number of chromosomes, nuclear total protein content and DNA content are concerned. During the preparation for mitosis, these amounts double but no necessary close time relation seems to link these premitotic syntheses. Prom this point of view, our results show no clear-cut differences between these tumor cells and the fibroblasts. Except the polyploidy, the behaviour of nuclear proteins and DNA during mitosis in the tumor cells is the same as that observed in our fibroblasts.The effects of various antimitotic agents on rat fibroblasts cultivated in vitro have also been studied with our cytochemical methods. Our measurements of nuclear protein, DNA and nucleolar material content have been made in cells in which mitosis was prevented by alkylating agents, beryllium sulphate, RNase or neutral DNase. The effects of colchicine on these cellular parameters have also been studied.