Tritium labelling and cytochemistry of extra DNA in Acheta

Females of Acheta domesticus were injected with H³-thymidine and H³-uridine at various stages of development in order to study DNA and RNA synthesis in the DNA body present in the oocytes. Staining with alkaline fast green, azure B and the Feulgen reaction were employed as cytochemical tests. The following main results were obtained.

1. The DNA body appears in the oogonia at interphase as a Feulgen positive spherical structure 2 microns in diameter and is seen in subsequent mitotic divisions as a slightly smaller structure of variable shape. H³-thymidine autoradiography discloses that the DNA present in this body is synthesised at a different time from the chromosomal DNA.
2. At interphase and during the early prophase of meiosis the DNA body increases in size becoming a large Feulgen positive sphere 6 microns in diameter. Small nucleoli are present within this body. The DNA of the body is complexed with histone as revealed by alkaline fast green staining. H³-thymidine labelling discloses that it is at these stages that the bulk of the DNA synthesis takes place in the body.
3. Every oocyte contains a DNA body, and no body of comparable size or shape seems to be present in the male meiotic prophase.
4. At pachytene and diplotene the DNA body acquires the appearance of a “puff”. Two zones can be distinguished inside the DNA body: (1) an inner core of DNA and an outer shell of RNA. The inner core is Feulgen positive and stains light green with azure B, the outer shell is Feulgen negative and stains purple-violet with azure B, as does the cytoplasm. From the inner DNA core many Feulgen positive fibrils radiate into the outer RNA shell. These fibrils appear unstained or slightly greenish with Azure B, forming a transparent network in a purple-violet background. This gives the body the typical appearance of a “puff”. H³-uridine incorporation reveals that the RNA synthesis occurs in the outer RNA shell of the body and in the chromosomes. RNase treatment removes the H³-uridine incorporated into these regions.
5. At the end of diplotene the DNA body starts to disintegrate. The DNA core breaks up into minor components and the outer RNA zone also begins to disintegrate. By late diplotene the whole body has vanished, releasing DNA, histone and RNA into the nucleus. Subsequently the nuclear envelope disintegrates as it regularly does at the end of prophase of meiosis.
6. The simplest interpretation of the above results is that the DNA body represents hundreds of copies of the genes of the nucleolar organizing region.

     

Proportionalitätsfehler bei der Feulgen-Hydrolyse

Zusammenfassung Beim Vergleich des Feulgen-Farbgehaltes verschiedener Zellkerne (Leberzellen, Lymphozyten, Granulozyten und Spermien) traten nach Alkoholfixierung Abweichungen der gemessenen Feulgen-Werte von den nach dem Gesetz von der DNS- Konstanz zu erwartenden DNS-Gehalt dieser Kerne auf. Verglichen mit den Feulgen-Werten der diploiden Leberzellkerne ergaben Lympho- und Granulozyten bei allen Hydrolysezeiten zu niedrige (bis zu minus 20%), haploide Spermien im postmaximalen Hydrolysebereich zu hohe Feulgen-Werte (z. T. sogar höhere Werte als die diploiden Zellkerne). Innerhalb desselben Zelltypes wurden dagegen, auch beim Vergleich der verschiedenen Ploidiestufen der Leberkerne, keine Differenzen festgestellt.Da die an Leukozyten und Spermien beobachteten Abweichungen nach Methanol-Formalin-Eisessig-Fixierung nicht mehr auftraten und auch durch UV-absorptionscytophotometrische Messungen nicht bestätigt werden konnten, muß man annehmen, daß es sich um Proportionalitätsfehler handelt, die auf Hydrolyseunterschieden beruhen.Für die quantitative Feulgen-Cytophotometrie scheint daher die Methanol-Formalin-Eisessig-Fixierung besser geeignet zu sein als die Alkoholfixierung, bei deren Verwendung es leicht zu Proportionalitätsfehlern während der Feulgen-Hydrolyse kommen kann.

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Proportionality errors during feulgen hydrolysis

Summary Comparing the Feulgen dye-content of different nuclei (liver cells, lymphocytes, granulocytes and sperms) after alcohol-fixation deviations were found between the measured Feulgen values and the DNA-content to be expected from the DNA-constancy law. The Feulgen values of lymphocytes and granulocytes proved to be lower (up to minus 20%) than those of diploid liver nuclei at all hydrolysis times, while in the postmaximal range of hydrolysis the values of the haploid sperms were too high (even higher than those of the diploid nuclei). Such differences did not appear when nuclei of the same cell type in different DNA- ploidy classes (liver nuclei) were compared.Those deviations of leucocytes and sperms were no longer found after fixation in methanol-formalin-glacial acetic acid and, in addition, could not be confirmed by UV-absorption measurements. For that reason we suppose them to be due to proportionality errors caused by variations in the hydrolytic behaviour of the different nucleoproteins.Thus fixation in methanol-formalin-glacial acetic acid seems to be more suitable for quantitative Feulgen measurements than alcohol-fixation, which may easily give rise to proportionality errors during Feulgen hydrolysis.Moreover, to avoid any false interpretation of Feulgen data we should suggest controll measurements using another independent method (f. e. UV-absorption), or — if this is impossible — to check the Feulgen values after different fixations and variant hydrolysis times (premaximal, maximal, postmaximal).

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

The nuclear DNA content of vulvar skin using Feulgen microspectrophotometry and "four-quarter" analysis

The nuclear DNA contents in subbasal (nonreplicating) cells of 161 vulvar biopsies from 31 patients were studied by Feulgen staining, integrated scanning microspectrophotometry (densitometry) and subsequent "four-quarter" analysis of the measurements. The results showed a constancy of the nuclear DNA content in the nonreplicating cells, regardless of the patient or the biopsy site.     

Comparative microphotometric studies of DNA and arginine in plant nuclei

Summary Photometric measurements have been made of the amounts of stain formed in the Feulgen (DNA) and Sakaguchi (arginine) reactions in plant nuclei of differing ploidy.In nuclei of diploid and tetraploid plants of Tradescantia ohioensis and of diploid, triploid and tetraploid plants of Ranunculus ficaria, both Feulgen and Sakaguchi values gave ratios which agreed closely with the ratios of the number of chromatids known to be present. The Feulgen/ Sakaguchi ratio for each of the different types of nuclei measured was very similar both within and between these two species.In the interphase nuclei of five different species, both Feulgen and Sakaguchi values gave bimodal distributions. In the nuclei of differentiating cells, the proportions of values falling into each of the 2C, 4C or 8C classes were the same for both stains.Measurements of the amounts of both stains were made in sequence on the same individual nuclei and a positive correlation found between the two sets of values.In nuclei from differentiating cells of Vicia faba primary roots, the Feulgen/Sakaguchi ratio decreased with increasing distance from the apex.The following suggestions were made from the results: (a) that there is some degree of quantitative constancy of nuclear arginine which parallels that of DNA; (b) that the amount of nuclear arginine, like that of DNA, is doubled during synthesis in interphase; (c) that the syntheses of DNA and arginine in interphase, if not simultaneous, at least occur within the same relatively short period; (d) that there may be a difference in the DNA/arginine ratio between the nuclei of meristematic and differentiating cells.     

Absorption-Spectrophotometric Determination of DNA (Deoxyribonucleic Acid) in Milk Ad Modum Feulgen

The Feulgen reaction is examined by absorption photometric measurements at 565 nm with correction for varying background absorption at 485 nm. This correction is done to improve the accuracy of measuring. Examinations of the accuracy of analysis for the Feulgen reaction and the direct microscopic cell counts show that the former is of the same order, when the cell count is made at a working factor of 17,000. The standard deviations expressed in percentage of the reaction value are greater the lower the reaction is, whereas the absolute standard deviation is reduced. It has been demonstrated that addition of a few (< 5) µg of DNA per ml milk can give Feulgen reaction. The coefficient of correlation between log added amount of DNA and log Feulgen reaction is 0.98. The coefficient of correlation between log Feulgen reaction and log cell content depends on the accuracy at which both determinations are made. In a determination of cell content at a working factor of 550, and several determinations of the Feulgen reaction the coefficient of correlation (r) is found to be 0.98. A cell content determination at a working factor of 20,000 and a single determination of Feulgen reaction on each milk sample yields r = 0.83. An examination of foremilk samples of the same cell content reveals on an average the highest reaction in mastitis-affected quarters which have been infected within the last 4 weeks. Quarters that have been infected for more than 4 weeks, on an average show the second highest reaction, whereas quarters of physiological cell number show the lowest reaction. The DNA-content in most cases is found to be too high compared with the number of cells counted microscopically. The DNA-content in centrifugated cells corresponds to the one calculated theoretically. The surplus DNA-content can be demonstrated in the cell-free skim milk fraction, probably originating from destroyed cells. The studies performed suggest that determination of the content of 2-deoxyribose in milk by means of the Feulgen reaction is a more correct measure of the cell content in the milk than is the microscopic cell count. Studies are being continued for illustration of these conditions.     

The DNA-content (Feulgen) of nuclei during mitosis in a root tip of onion

Summary The microphotometric two-wavelength method is demonstrated to permit, even with only an improvised optical set-up, DNA-measurements which would not be possible, at any rate not with a comparable accuracy, with the conventional method.The data, in agreement with earlier results, show that the largest interphase nuclei in the root meristem have already completed their DNA-synthesis.The mean DNA-contents per set of chromatids at late interphase, prophase, and telophase, appeared to be virtually identical. A natural variation in DNA-content, if any, between individual nuclei at these stage would have a coefficient of variation of significantly less, and most likely much less, than 7.3%. The data from metaphase to middle anaphase are, for technical reasons, not yet conclusive. An indicated, moderate, excess of Feulgen-dye in these as compared with earlier and later stages may not be real.The results are fully compatible with a working hypothesis of strict constancy of the DNA-content per chromatid and of its precise doubling during DNA-synthesis (for necessary qualifications see the discussion). It is pointed out that apparently contradictory results by certain other authors do not, for methodological reasons, yet establish disproof of this hypothesis.Contribution from the Program in Cytology, Department of Botany, University of Wisconsin, Madison, supported in part by grants to Dr.C. Leonard Huskins from the Rockefeller Foundation, the American Cancer Society, and the Research Committee of the Graduate School with funds supplied by the Wisconsin Alumni Research Foundation.supported in part by the U. S. Public Health Service and the Wallace C. and Clara A. Abbott Memorial Fund.     

Ultrastructure and microtubule organization of isolated generative cells ofAllemanda neriifolia at interphase and prophase

Summary The ultrastructure of isolated generative cells ofAllemanda neriifolia at interphase and prophase was studied. The microtubule organization of the isolated cells was also investigated by immunofluorescence microscopy with a monoclonal anti--tubulin. After the generative cells had been isolated from the growing pollen tubes by osmotic shock, most of the cells were at prophase and only a few were at interphase. The interphase cell is spindle shaped and contains an ellipsoidal nucleus. In addition to the usual organelles, the cytoplasm of the interphase cell contains numerous vesicles (each measuring 40–50 nm in diameter) and two sets of longitudinally oriented microtubule bundles — one in the cortical region and the other near the nucleus. Most of the prophase cells are spherical in shape. Based on the ultrastructure and the pattern of microtubule cytoskeleton organization three types of prophase cells can be recognized. (1) Early prophase cell, which contains the usual organelles, numerous vesicles, and a spherical nucleus with condensed chromosomes. Longitudinally oriented microtubule bundles can no longer be seen present in the early prophase cell. A new type of structure resembling a microtubule aggregate appears in the cytoplasm. (2) Mid prophase cell, which has a spherical nucleus containing chromosomes that appear more condensed than those seen in the early prophase cell. In addition to containing the usual organelles, the cytoplasm of this cell contains numerous apparently randomly oriented microtubules. Few vesicles are seen and microtubule aggregates are no longer present. (3) Late prophase cell, typified by the lack of a nuclear envelope. Consequently, the chromosomes become randomly scattered in the cytoplasm. Microtubules are still present and some become closely associated with the chromosomes. The changes in the ultrastructure and in the pattern of microtubule organization in the interphase and prophase cells are discussed in relation to the method of isolation of the generative cells.     

Multiple synaptinemal complexes at the region of gene amplification in Acheta

Ovaries of Acheta domesticus (house cricket) were fixed for electron microscopy at two stages of development: (1) ovaries containing mainly oocytes at interphase and early prophase of meiosis, and (2) ovaries with oocytes mainly at pachytene and diplotene. The E.M. study was accompanied by three types of light microscopy controls consisting mainly of cytochemical tests. Every oocyte contains a DNA body which at pachytene and diplotene acquires the appearance of a puff. In the light microscope two zones can be distinguished inside the body: (1) an inner core of DNA and (2) and outer shell of RNA. In the E. M. the inner core consists of a fibrillar material and the outer shell is composed of areas of high electron opacity consisting mainly of tightly packed particles and fibrils. At these stages synaptinemal complexes are seldom seen associated with the DNA body but are present throughout the nucleus as part of the paired chromosomes. The complexes are present as single units. — In the oocytes at interphase and early prophase of meiosis, where the DNA body is active in DNA replication, the body appears in the light microscope as a large Feulgen positive sphere containing Feulgen negative areas. In the E. M. at these stages the DNA body consists of: (a) the two components found at pachytene, (b) a third electron dense component which is more homogeneous than the other two, and (c) of large assemblies of synaptinemal complexes originating from several centers. The most significant features of the axial complexes are: (1) the circular packing of the complexes, (2) their occurrence in packages of 300 to 400 units and (3) the fact that not all of the DNA body forms complexes but only a part of it.Biochemical experiments (Lima-de-Faria, Birnstiel and Jaworska, 1969) have demonstrated the amplification of ribosomal cistrons in the DNA body of Acheta. The simplest explanation is that the multiple complexes are formed either between the extra gene copies of the two homologues, or between the extra copies of each chromosome as well. There seems to be a correlation between the presence of multiple axial complex formation and gene amplification in Acheta but the exact relation between the two phenomena demands further study.Dedicated to Dr. Sally Hughes-Schrader on the occasion of the seventyfifth birthday on the twentyfifth of January 1970.     

THE REPLICATION TIME AND PATTERN OF THE LIVER CELL IN THE GROWING RAT

Three-week-old male rats of the Wistar strain were given tritiated thymidine, 1 µc/gm body weight, intraperitoneally and were killed at intervals from 0.25 to 72 hours later. Autoradiographs were made from 5 µ sections, stained by the Feulgen method. The replication time and its component intervals were determined from the scoring of the labeling of interphase nuclei as well as of prophase, metaphase, anaphase, and telophase nuclei. Absorption of the intraperitoneally injected label is rapid and is attended by "flash" labeling during interphase. The results show that at any one time about 4 per cent of the liver cells are synthesizing DNA preliminary to cell division. These cells alternate with waves of other cells and it is estimated that about 10 per cent of the liver cell population is engaged in cell duplication. The replication time is about 21.5 hours, and its component intervals occupy the following times: DNA synthesis, 9 hours; post-DNA synthesis gap, 0.50 hour; prophase, 1.3 hours; metaphase, 1.0 hour; anaphase, 0.4 hour; telophase, 0.3 hour; postmitosis gap, 9.0 hours. A group of liver cells has been recorded in at least 3 successive replication cycles.     

The redistribution of a conserved nuclear envelope protein during the cell cycle suggests a pathway for chromosome condensation

We describe a human autoantiserum that recognizes specific determinants present both on the nuclear envelope of interphase cells and the periphery of metaphase chromosomes. These determinants are highly conserved through evolution and present on a protein with an apparent molecular weight of 33,000. This 33 kd protein, which we call "perichromin," appears to be directly or indirectly bound to both interphase and metaphase DNA. Studies of the transformation of perichromin from a nuclear envelope association to a perichromosomal position during prophase suggests a pathway for chromosome organization throughout the cell cycle.     

Recording mitotic chromosome cycle induction in living plant cells

Summary The presence of a prophase nucleus inHaemanthus endosperm happens to trigger the break down of the nuclear envelope in any interphase nucleus, located in its close proximity. Besides, chromosomes in the interphase nucleus start condensing gradually for the initial breaking point which is the nearest point to the prophase. The observation suggest the diffusion of an inducer, whose progression has been recorded to occur at a rate of 1.1 m/min.     

Polarized endoplasmic reticulum aggregations in the establishing division plane of protodermal cells of the fern <Emphasis Type="Italic">Asplenium nidus</Emphasis>

The determination of the division plane in protodermal cells of the fern Asplenium nidus occurs during interphase with the formation of the phragmosome, the organization of which is controlled by the actomyosin system. Usually, the phragmosomes between adjacent cells were oriented on the same plane. In the phragmosomal cortical cytoplasm, an interphase microtubule (MT) ring was formed and large quantities of endoplasmic reticulum (ER) membranes were gathered, forming an interphase U-like ER bundle. During preprophase/prophase, the interphase MT ring and the U-like ER bundle were transformed into a MT and an ER preprophase band (PPB), respectively. Parts of the ER-PPB were maintained during mitosis. Furthermore, the plasmalemma as well as the nuclear envelope displayed local polarization on the phragmosome plane, while the cytoplasm between them was occupied by distinct ER aggregations. These consistent findings suggest that Α. nidus protodermal cells constitute a unique system in which three elements of the endomembrane system (ER, plasmalemma, and nuclear envelope) show specific characteristics in the establishing division plane. Our experimental data support that the organization of the U-like ER bundle is controlled on a cellular level by the actomyosin system and intercellularly by factors emitted from the leaf apex. The possible role of the above endomembrane system elements on the mechanism that coordinates the determination of the division plane between adjacent cells in protodermal tissue of A. nidus is discussed.     

Preprophase bands of microtubules and the cell cycle: Kinetics and experimental uncoupling of their formation from the nuclear cycle in onion root-tip cells

We have studied the timing of preprophase band (PPB) development in the division cycle of onion (Allium cepa L.) root-tip cells by combinations of immunofluorescence microscopy of microtubules, microspectrophotometry of nuclear DNA, and autoradiography of [³H]thymidine incorporation during pulse-chase experiments. In normally grown onion root tips, every cell with a PPB had the G2 level of nuclear DNA. Some were in interphase, prior to chromatin condensation, and some had varying degrees of chromatin condensation, up to the stage of prophase at which the PPB-prophase spindle transition occurs. In addition, autoradiography showed that PPBs can be formed in cells which have just finished their S phase, and microspectrophotometry enabled us to detect a population of cells in G2 which had no PPBs, these presumably including cells which had left the division cycle. The effects of inhibitors of DNA synthesis showed that the formation of PPBs is not fully coupled to events of the nuclear cycle. Although the mitotic index decreased 6-10-fold to less than 0.5% when roots were kept in 20 g·ml^-1 aphidicolin for more than 8 h, the percentage of cells containing PPBs did not decrease in proportion: the number of cells in interphase with PPBs increased while the number in prophase decreased. Almost the same phenomena were observed in the presence of 100 g·ml^-1 5-aminouracil and 40 g·ml^-1 hydroxyurea. In controls, all cells with PPBs were in G2 or prophase, but in the presence of aphidicolin, 5-aminouracil or hydroxyurea, some of the interphase cells with PPBs were in the S phase or even in the G1 phase. We conclude that PPB formation normally occurs in G2 (in at least some cases very early in G2) and that this timing can be experimentally uncoupled from the timing of DNA duplication in the cell-division cycle. The result accords with other evidence indicating that the cytoplasmic events of cytokinesis are controlled in parallel to the nuclear cycle, rather than in an obligatorily coupled sequence.Abbreviations APC aphidicolin - 5-AU 5-aminouracil - DAPI 4, 6-diamidino-2phenylindole - HU hydroxyurea - MI mitotic index - MT microtubule - PMSF phenylmethyl-sulfonyl fluoride - PPB preprophase band - %PPB percentage of cells with PPBs     

Nuclear DNA Amounts in Mosses (Musci)

A comparative investigation into nuclear DNA amounts using flowcytometry and video-based Feulgen densitometry was carried outin 289 accessions of 138 different moss taxa (Bryatae), originatingfrom Austria, Switzerland, Spain, Mexico and the USA. Samplingincluded species from all major moss clades (except Sphagnum).Flow cytometry data agreed highly with the Feulgen data, whichonce again demonstrates the high reliability of both methodsfor DNA amount determination. For the first time, extensivedata on absolute C-values of mosses are available. Haploid DNAcontents (1C) ranged from 0.174 to 2.16 pg, which representsonly about a 12-fold variation. This low C-value variation isremarkable when compared to angiosperms which vary approx. 1000-fold.C-values are usually relatively constant within genera and evenfamilies; however, genera with varying C-values also exist.From the low frequency observed, secondary polyploidy playsonly a minor role in mosses. Possible reasons for the low C-valuevariation are discussed. Copyright 2000 Annals of Botany Company Mosses, Bryatae, genome size, nuclear DNA amounts, C-value variation, Feulgen, flow cytometry, densitometry, image analysis     

Transitory increase in chromosomal DNA (Fleulgen) during floral differentiation in Rhoeo discolor.

Scanning cytophotometric measurements on 3200 telophase and 1700 interphase nuclei (Feulgen-stained) in vegetative and reproductive buds of Rhoeo discolor revealed a transitory increase in staining intensity in more than half of the cells in early differentiating floral buds. The differences between the vegetative and floral nuclei are significant at the 0.001 level of probability and highly reproducible, independent of the type of hydrolysis used. We suggest that the different Feulgen extinction values reflect different nuclear DNA amounts, because methodical errors can fairly be excluded. The occurrence of an extra DNA (control DNA) of the kind of the floral DNA' detected by Wardell and Skoog (1973) and Wardell (1976) in tobacco is discussed.     

Heteropycnosis of an underreplicating chromosome

Drosophila nasutoides has an extraordinary genome since 62% of its DNA resides in chromosome4. This element mainly consists of constitutive heterochromatin which does not polytenize. Earlier studies of heterochromatin attributed little attention to the fact that condensed chromosomes often vary in condensation. This paper reports that chromosomes of the same complement display different degrees and kinetics of condensation. InD. nasutoides, even sex specific differences can be observed. The results of a comparative microphotometric study on neuroblast metaphases in both sexes revealed the following picture. The process of chromosome condensation is not restricted to mitotic prophase but continues into the metaphase. The mean condensation is not equal for all chromosomes. In the metaphase of the female, Feulgen density increases from theX chromosome, via3 and2, to chromosome4. In the male, the order isX, 2, 3, Y, and4. During the metaphase of the male, chromosomes condense with similar kinetics. In contrast, chromosomes of the female display asynchrony as monitored by area and length determinations. TheX chromosomes of the female probably have enhanced shortening during prophase. This would explain the metaphase of the female where theX chromosomes shorten less than the autosomes, and why each of theX chromosomes is 15% shorter than theX chromosome in the metaphase of the male. Further differences were observed in the longitudinal and lateral compaction of the chromosomes in males and females. The sex chromosomes and chromosome3 condense by shortening, while chromosomes2 and4 preferentially reduce their diameter. The large amount of DNA engaged in heteropycnosis and the isochromosome nature allow the identification of chromosome4 during interphase. At this stage, a new category of extreme DNA packaging was detected. The interphase density of chromosome4 can exceed that of metaphase by a factor of up to 8. Two events account for this high degree of condensation:(1) the homologues are particularly associated due to somatic pairing and (2) the arms are further tightened as a result of pericentric folding. The features of the isochromosome suggest that the interaction of chromatids during interphase is essentially caused by specific DNA sequences. The data confirm that heteropycnosis not only interferes with gene expression but also strongly inhibits DNA synthesis in endocycles.     

Meiosis,spindle pole body cycle,and taxonomy of the heterobasidiomycetePachnocybe ferruginea

Meiosis and the meiotic spindle pole body cycle were studied electron microscopically in basidia of the heterobasidiomycetePachnocybe ferruginea. Spindle pole body splitting in prometaphase I and II, and intermeiotic and postmeiotic duplication were investigated in particular detail. During prophase, the spindle pole body consists of two three-layered discs connected by a middle piece. At late prophase I and again in prometaphase II, the discs contact the nuclear envelope. Then, the nuclear membrane at the contact area is separated from the non-contacted part of the nuclear envelope and finally disappears. Each disc nests into the nuclear opening of the otherwise intact nuclear envelope. The disc remains in the gap and generates a half spindle. At late metaphase I, a co-disc develops eccentrically within the parent disc. The co-disc detaches from the parent disc during interphase I and becomes one of the metaphase II spindle pole bodies. Co-discs are absent during the second division. A cap of endoplasmic reticulum encloses each disc during prophase I through anaphase I. In the second meiotic division, the caps covering the spindle pole bodies of one nucleus of the pair, are developed from the neighbouring nucleus. Spindle pole bodies ofP. ferruginea are similar to those of the rusts, and especially to those ofEocronartium muscicola andHelicobasidium mompa. Part 73 of the series Studies inHeterobasidiomycetes.     

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.     

Plant Genome Size Measurement with DNA Image Cytometry

To test the reliability of DNA image cytometry for the measurement of nuclear DNA content in plant material, we conducted independent experiments in two laboratories using different image analysis instruments for densitometric measurement of nuclear DNA amount in Feulgen-stained squash preparations of root tips. The 2C nuclear DNA content of the nine species studied spanned a 100-fold range (approx. 0.3–33 pg). The estimates of nuclear DNA content measured with image cytometry methods were comparable to values obtained previously using both photometric cytometry and flow cytometry. Image cytometry methods showed little variation among repeated experiments within each laboratory or among different operators using the same instrument. Furthermore, the interphase-peak method (measurement of several hundred interphase nuclei per slide) was comparable to the classical prophase/telophase approach (measurement of ten early prophase and ten late telophase nuclei per slide). Hence, DNA image cytometry gives accurate and reproducible results and may be used as an alternative to photometric cytometry in plant nuclear DNA content measurements. In the present study, we propose that two standards for quality control of nuclear DNA content measurement are used in plant DNA image cytometry: (1) the coefficient of variation of the peak should be lower than 6%, and (2) the 4C/2C ratio should be between 1.9 and 2.1.     

Behaviour of the X chromosomes during growth and maturation of parthenogenetic eggs of Amphorophora tuberculata (Homoptera,Aphididae), in relation to sex determination

Prophase chromosomes of growing oocytes from thelytokous, viviparous females of Amphorophora tuberculata Brown and Blackman (n=2) were studied using a modified propionic acid squash technique with Feulgen staining. In early prophase, prior to the growth phase of the oocyte, the X chromosomes are partially condensed and looped together so that all four ends appear to be associated. Later in prophase the X chromosomes separate in oocytes destined to be female, but remain associated in presumptive male oocytes. The autosomes condense gradually throughout prophase. The nucleus of the presumptive male oocyte is further characterised by the formation of a spherical Feulgen-positive body, which attains a large size (7 m diameter) in late prophase. At this stage, the X chromosomes are no longer visible as separate entities, and are apparently included in the spherical body. At metaphase this disappears, leaving the X chromosomes still united as a condensed bivalent. The spherical body seems to have nucleolar as well as chromatin constituents; nucleolar organisers are present at the ends of the X chromosomes where it first arises. It may function in maintaining the cohesion between the X chromosomes through prophase, and could also facilitate correct orientation of the X bivalent on the spindle of the maturation division. As sex determination in aphids is controlled by juvenile hormone concentration, it appears that the hormone may interact with the X chromosomes during prophase, bringing about their separation in female oocytes, perhaps by inhibiting the formation of the spherical body.