Cytological localization of fast renaturing and satellite DNA sequences inVicia faba

Summary DNA sequences reassociating within a Cot value of 1.8×10^–1 and those producing a light satellite in a CsCl density gradient were isolated fromVicia faba DNA and hybridizedin situ on squashes of roots of the same species. Silver grains were seen to be scattered over both the interphase nuclei and the metaphase chromosomes after hybridization with fast renaturing DNA sequences, indicating these are fairly regularly interspersed in theV. faba genome. Clustered labeling occurred after hybridization with satellite DNA sequences, indicating these are clustered in the genome. The localization of satellite DNA in chromosomes appeared to correspond closely to the position of the bright bands detectable after staining with quinacrine mustard. After hybridization with both DNA probes, labeling intensity over the nuclei of meristematic cells was higher than that over the nuclei of differentiating and/or differentiated cells. These results are discussed in relation to the structure of the cell nucleus, the mechanism of quinacrine banding and to previous data suggesting underrepresentation of nuclear repeated DNA sequences in differentiatingV. faba root cells.     

Differentiation of metaxylem cell line in the root ofAllium cepa L.

Summary The differentiation processes of the metaxylem cell line in the root ofAllium cepa are characterized by amplification phenomena of repetitive DNA sequences mainly localized in heterochromatic regions of metaphase chromosomes. Moreover, these sequences are heavily methylated. This paper presents additional results on variation in endogenous DNA methylation in different developing root segments. The results show that methylation is higher in apical meristematic cells than the differentiating segments; contrastingly, total RNA synthesis seems to be correlated with undermethylation. Addition of labelled methyl groups to DNA by eukaryotic methylase, DNA digestions with different restriction enzymes specific for methylated sites and HPLC analysis confirmed the above results. Moreover, variation in methylation levels during differentiation occur not only at the internal cytosine of the-CCG-sites, but also at external cytosine. Furthermore, methylation affects other sites containing the trinucleotides-CXG-. In conclusion, root differentiation inAllium cepa seems to be correlated with gene activation modulated by the methylation/demethylation of particular DNA sequences.     

CHARACTERIZATION OF THE NUCLEAR DNA OF HORDEUM VULGARE ROOT HAIRS: AMPLIFICATION DISAPPEARS UNDER SALT STRESS

In Hordeum vulgare L., the nucleus of differentiating root hairs contains amplified, extrachromosomal DNA sequences. Cytophotometry shows that the nuclei of trichoblasts and root hairs grown under normal conditions contain up to 50% more DNA than those grown in 200 mM salt. Although the root hairs develop and differentiate under salt stress, amplification of their nuclear DNA is suppressed. From this, we conclude that amplification is not necessary for differentiation at the cellular level. Characterization of the amplified nuclear DNA of the root hair is based on the physical/chemical nature of the DNA. The amplified sequences separate as a satellite band when total nucleic acids are centrifuged on CsCl gradients. Enzyme restriction of the satellite and main bands with Msp I and Hpa II followed by agarose gel electrophoresis shows that the satellite band is not more highly methylated than the main band. Restriction of the root hair DNA with EcoRI reveals repetitive DNA sequences not seen in similarly restricted whole root, leaf or salt-stressed root hair preparations. While these unique, repetitive sequences in the 2–6 kb region of the gel do not hybridize with ribosomal, chloroplast, or mitochondrial DNAs, RNA hybridization shows that some of them are transcribed. We believe that the amplified sequences are extrachromosomal based on their selective degradation during root hair senescence, their separation as a satellite band and their restriction patterns.     

Localization of satellite DNAs in the chromosomes of the guinea pig

The in situ hybridization method has been used to investigate the localization of each of the three satellite DNAs present in the genome of the guinea pig. Purified fractions of the satellite DNAs were utilized as templates for synthesis of ³H-labeled complementary RNA (cRNA) by E. coli RNA polymerase, then each cRNA was hybridized to metaphase spreads of embryonic guinea pig cells. The cRNAs of all three satellite DNAs hybridized predominantly to the centromeric region of the chromosomes. The cRNAs of satellite DNAs II and III hybridized to all chromosomes except the Y chromosome. The cRNA of satellite DNA I did not hybridize to the Y chromosome nor to two pairs of small acrocentric chromosomes. Satellite II cRNA hybridized to the telomeric region of chromosomes 3 and 4.     

Genetic variability in a family of satellite DNAs from tilapia (Pisces: Cichlidae).

We have cloned and sequenced members of a family of satellite DNAs from three genera of the tilapiine tribe of fishes: Oreochromis, Sarotherodon, and Tilapia. The satellite DNAs, visualized as intensely staining bands following electrophoretic separation of EcoRI-digested genomic DNA, consist of three size variants differentially distributed in the various tilapiine species. The sizes of the monomers are approximately 237 bp (type I), 230 bp (type II), and 209 bp (type III). Several cloned monomers were sequenced from Oreochromis niloticus (type III), Oreochromis placidus (types I and II), Sarotherodon galilaeus (type I), Tilapia zillii (type I), and Tilapia rendalli (type I). Comparison of derived consensus sequences for the monomer units of the satellite DNAs revealed sequence identities within and between species that ranged from 89 to 96%. The type II and type III size variants appear to have arisen by deletions of 9 and 29 bp, respectively, within different regions of the type I satellite. Hybridization of a cloned monomer satellite from O. niloticus (type III) to PalI digests of genomic DNA from all three genera detected polymorphic, high molecular weight restriction fragments that produced fingerprint-like patterns. The complexity of these DNA fingerprints varied from one species to another, suggesting a markedly different genomic organization for these polymorphic satellite DNAs.     

Autoradiographic and ultrastructural study of Cucurbita pepo root cells during their growth and differentiation

Summary Cortex cells of the root meristem of Cucurbita pepo (0.0–0.5 mm from the cap junction), in the 3–4, 5–6 and 7–8 mm segments above the root tip, and the cells of the first three layers of lateral part of root cap were the object of the present study. The volume of cortex cells increases more than 20 times in the 7–8 mm segment as compared with meristematic cells, and the volume of cytoplasm about sevenfold. The largest increment of the cytoplasmic volume occurs between 0.5–6.0 mm. In consecutive root segments the sustained increase of the volume of nuclei takes place. By applying autoradiography the following processess have been investigated: DNA synthesis (³H thymidine uptake), template activity of DNA (³H actinomycin D(³H AMD)-binding), RNA synthesis (³H uridine incorporation), and protein synthesis (³H leucine). In the root cap cells and in segments where meristematic activity is over, DNA is replicated by endomitosis. On the basis of nuclear labelling it appears that nuclei in the 3–4 mm segment reach 4C ploidy state, but in the 7–8 mm segment half of the nuclei reach the 8C ploidy state. Most of the root cap cells are 4C, the remaining cells are 8C. Considering the uptake of ³H thymidine into nucleoli one may suppose that in the root cap cells nucleolar DNA is underreplicated, and to a lesser degree in 5–6 and 7–8 mm segments, while in 3–4 mm segment DNA is overreplicated as compared to meristem cells. Measurements of nucleolar volume, ³H uridine uptake, ³H AMD binding and quantity of granular component, indicate that the most noticeable nucleolar activity takes place in meristematic zone and in root parts showing the highest increase of cytoplasmic volume (3–4 and 5–6 mm segments). ³H leucine is still incorporated intensely into 7–8 mm segment, in which the concentration of ribosomes is low, however they are present in the form of polysomes. Comparison of ³H thymidine uptake into nuclear DNA with ³H AMD binding and ³H uridine incorporation into nuclei indicates that endomitotic DNA replication results in an increase of DNA template activity in root cap cells as well as in 3–4 and 5–6 mm segments; in the 7–8 mm segment binding of ³H AMD slightly decreases, while ³H uridine incorporation is considerably reduced. Divergence between the ploidy state, ³H AMD binding and ³H uridine incorporation can be due to the increment of the condensed chromatin area in differentiated cells. Plastids and mitochondria reach full maturity in 3–4 mm segment. The increasing volume density of ER and diminishing volume density of Golgi structures is accompanied by differentiation of cortex cells.This work was partly supported by Polish Academy of Sciences, Botanical Committee, Grant 217/II     

Residual Nuclear structures fromZea mays L.

Nuclei fromZea mays L. root tip meristematic cells were treated according to the conventional method for nuclear matrix isolation and according to a recently adapted procedure for isolation of nuclear shells from plant cells. In the first case, after high salt extraction of proteins and DNase I and RNase digestions, residual structures are obtained consisting of a periferal layer and an internal network. The obtained structures are very similar to the nuclear matrix preparations from animal cells. In case nuclei are swollen in EDTA first, digested with DNase II and RNase prior high salt treatment, structures devoid of internal network are obtained. The analogous residual structures were shown forPhaseolus vulgaris L. meristematic root cells nuclei (Galcheva-Gargovaet al. 1988). The morphology and the protein composition of the two types of residual structures suggest that the organization of scaffold structures from plant nuclei is very similar to the one from animal cell nuclei.     

Satellite DNA relationships in man and the primates

We have investigated the genomes of a series of primates to identify the presence of sequences related to human satellite DNAs I, II and III by restriction enzyme digestion and hybridisation with probes of these satellite DNAs. Where we have found such related sequences we have examined the extent to which they have diverged by measuring the stability of the hybrids. DNA satellite III is the oldest sequence being common to species which have diverged some 24 million years ago. In contrast DNA satellites I and II are of much more recent origin. Our results permit us to draw conclusions about the way these sequences have evolved, and how the evolution of repeated DNA sequences may be related to the evolution of the primate lineage.     

Activities of DNA polymerases and RNA polymerases detected in situ in growing and differentiating cells of root cortex

Summary Activities of DNA polymerases and RNA polymerases were studied by autoradiographic methods in growing and differentiating root cortex cells ofZea mays — a species in which endomitosis occurs — andTulipa kaufmanniana — in which this process does not occur. InTulipa kaufmanniana, the highest activity of DNA polymerase appears in the nuclei of meristematic zone during the S phase of the cell cycle. InZea mays, endomitotic replication of DNA occurs in all growth and differentiation zones and the activity of DNA polymerase in the nuclei is similar to that in the meristematic zone. In both species, nuclear RNA synthesis, measured with³H uridine incorporation, is highest in the meristematic zone and declines steadily with development. Activity of nuclear RNA polymerase is present in all developmental zones in both species and is similar to that in the meristematic zone.³H uridine incorporation into nucleoli decreases markedly in both species, whereas the activity of nucleolar RNA polymerase remains at a high level in all root segments inZea mays and decreases slightly inTulipa kaufmanniana.It is argued that the differences between the incorporation of³H uridine and that or³H UMP may be caused by a reduction of the pool of endogenous ribonucleoside triphosphates. Marked activities of DNA polymerase and RNA polymerase in cytoplasm are possibly related to the growth and division of plastids and mitochondria.     

PHYLOGENETIC COMPARISON OF LARGE NUCLEAR DNA CONTENTS OF DIFFERENTIATED CELLS IN THE ROOTS OF EQUISETUM,TRADESCANTIA, AND HORDEUM

Nuclear DNA of meristematic, epidermal and root cap cells from the roots of three vascular plants—the cryptogam, Equisetum hyemale L, and the phanerogams, Tradescantia Clone 02 and Hordeum vulgare L.—was measured with quantitative Feulgen microspectrophotometry. Epidermal cells of all three species and root cap cells in both phanerogams contained up to 8fold the amount of nuclear DNA found in their respective meristematic telophase nuclei. In general, the large amounts of nuclear DNA parallel development and differentiation in the epidermis regardless of phylogeny, habitat, or degree of domestication. However, comparisons of the increase in nuclear DNA contents in the various epidermal cell types among these three species suggest that the mechanisms giving rise to these increases may differ phylogenetically and may represent another character in which cryptogams and phanerogams diverged in their evolution.     

Chromosomal distribution and organization of three cervid satellite DNAs in Chinese water deer (Hydropotes inermis)

The species-specific profile and centromeric heterochromatin localization of satellite DNA in mammalian genomes imply that satellite DNA may play an important role in mammalian karyotype evolution and speciation. A satellite III DNA family, CCsatIII was thought to be specific to roe deer (Capreolus capreolus). In this study, however, this satellite DNA family was found also to exist in Chinese water deer (Hydropotes inermis) by PCR-Southern screening. A satellite III DNA element of this species was then generated from PCR-cloning by amplifying this satellite element using primer sequences from the roe deer satellite III clone (CCsatIII). The newly generated satellite III DNA along with previously obtained satellite I and II DNA clones were used as probes for FISH studies to investigate the genomic distribution and organization of these three satellite DNA families in centromeric heterochromatin regions of Chinese water deer chromosomes. Satellite I and II DNA were observed in the pericentric/centric regions of all chromosomes, whereas satellite III was distributed on 38 out of 70 chromosomes. The distribution and orientation of satellite DNAs I, II and III in the centromeric heterochromatin regions of the genome were further classified into four different types. The existence of a Capreolus-like satellite III in Chinese water deer implies that satellite III is not specific to the genus Capreolus (Buntjer et al., 1998) and supports the molecular phylogeny classification of Randi et al. (1998) which suggests that Chinese water deer and roe deer are closely related.     

The fate of DNA statellites I,II, III and ribosomal DNA in a familial dicentric chromosome 13:14

Summary In a family with a stable dicentric 13:14 translocation chromosome, the distribution of DNA sequences complementary to satellite DNAs I, II and III and ribosomal RNA were studied. The translocation chromosome showed a loss of sequences complementary to all three satellite DNAs, located in the short arms of all the acrocentric chromosomes, but slightly more of the sequences complementary to satellite I were retained than of the other two satellite DNAs. The fact that material was lost from all three satellites indicates that they are not present as single discrete blocks in these chromosomes, when we would expect to find the distal sequences lost and the proximal ones retained, but consist of interspersed blocks with each sequence represented by more than one, and probably several blocks. There was a total loss of ribosomal DNA from the nucleolar organiser regions of the chromosomes involved in the 13:14 translocation, but an interesting finding was the presence of extra ribosomal DNA and satellite DNAs I, II and III in one chromosome 22 which was found in seven out of nine individuals of the family with the 13:14 translocation, and in only one of five individuals without the translocation. There may be a compensatory mechanism present when certain sequences are eliminated during chromosomal rearrangements. The relationship of such mechanisms to reproductive fitness is discussed.     

Comparative analysis of three guinea pig satellite DNA's by restriction nucleases.

The structures of guinea pig satellite DNAs I, II, and III have been analyzed by digestion with seven restriction nucleases. From the cleavage patterns it is obvious that the long-range periodicities in these three satellites differ rather characteristically Satellite I is fairly resistant to six nucleases and gives only a number of weak discrete bands which do not show a simple regularity. By the restriction nuclease from Arthrobacter luteus, however, it is cleaved extensively and yields very heterogeneous breakdown products. This is consistent with the high extent of divergence previously found for this satellite, e. g. by sequence analysis. Satellite II is almost completely resistant to all nucleases, indicative of a high degree of sequence homogeneity of this satellite. Satellite III is completely broken by the restriction nuclease from Bacillus subtilis into fragments which form a novel, highly regular series of bands in gel electrophoresis. The patterns show that the satellite is composed of tandem repeats ofapproximately 215 nucleotide pairs length, each repeat unit containing two cleavage sites for this nuclease. The data are consistent with the assumption that 30--40% of all cleavage sites have been eliminated by a random process. Satellite III DNA yields weak degradation patterns of the same periodicity with a number of other restriction nucleases. Cleavage sites for these nuclease are clustered on separatesmall segments of the satellite DNA. In this respect, the satellite is similar to others, notably the mouse satellite DNA. The three guinea pig satellites are examples of more general types of satellite structures also found in othe organisms. Similarities and differences to other satellites are discussed with special consideration to theories on the evolution of this class of DNA.     

Analysis of DNAs from two species of the virilis group of Drosophila and implications for satellite DNA evolution

The DNAs from two virilis group species of Drosophila, D. lummei and D. kanekoi, have been analyzed. D. lummei DNA has a major satellite which, on the basis of CsCl equilibrium centrifugation, thermal denaturation, renaturation and in situ hybridization is identical to D. virilis satellite I. D. kanekoi DNA has a major satellite at the same buoyant density in neutral CsCl gradients as satellite III of D. virilis. However, on the basis of alkaline CsCl gradients, the satellite contains a major and a minor component, neither one of which is identical to D. virilis satellite III. By in situ hybridization experiments, sequences complementary to the major component of the D. kanekoi satellite are detected in only some species and in a way not consistent with the phylogeny of the group. However, by filter hybridization experiments using nick-translated D. kanekoi satellite as well as D. lummei satellite I and D. virilis satellite III DNAs as probes, homologous sequences are detected in the DNAs of all virilis group species. Surprisingly, sequences homologous to these satellite DNAs are detected in DNAs from non-virilis group Drosophila species as well as from yeast, sea urchin, Xenopus and mouse.     

Insertion and amplification of a DNA sequence in satellite DNA of Cucumis sativus L. (cucumber)

Summary Another satellite DNA repeat (type IV) in the genome of Cucumis sativus (cucumber) was found and investigated with respect to DNA sequence, methylation, and evolution. This satellite shows a repeat length of 360 bp and a GC-content of 47%. The repeats of type IV are highly conserved among each other. Evidence for CG and CNG methylation is presented. By comparison to the previously described satellites (type I/II and type III) from cucumber, it is evident that this repeat is created by an insertion of a 180 bp DNA sequence similar to type I–III into another DNA sequence (or vice versa), and subsequent amplification forming a new satellite repeat. The different satellites of the type I/II, type III, and the 180 bp insert of type IV show a sequence homology of 60%–70%, indicating that the complex satellite DNA of cucumber is originated from a common progenitor by mutation, additional insertion, and amplification events. Copies of a sequence similar to a part of type IV are present in the genome of the related species Cucumis melo (melon).     

Activities of DNA polymerases and RNA polymerases detected in situ in growing and differentiating cells of root cortex.

Activities of DNA polymerases and RNA polymerases were studied by autoradiographic methods in growing and differentiating root cortex cells of Zea mays - a species in which endomitosis occurs - and Tulipa kaufmanniana - in which this process does not occur. In Tulipa kaufmanniana, the highest activity of DNA polymerase appears in the nuclei of meristematic zone during the S phase of the cell cycle. In Zea mays, endomitotic replication of DNA occurs in all growth and differentiation zones and the activity of DNA polymerase in the nuclei is similar to that in the meristematic zone. In both species, nuclear RNA synthesis, measured with 3H uridine incorporation, is highest in the meristematic zone and declines steadily with development. Activity of nuclear RNA polymerase is present in all developmental zones in both species and is similar to that in the meristematic zone. 3H uridine incorporation into nucleoli decreases markedly in both species, whereas the activity of nucleolar RNA polymerase remains at a high level in all root segments in Zea mays and decreases slightly in Tulipa kaufmanniana. It is argued that the differences between the incorporation of 3H uridine and that or 3H UMP may be caused by a reduction of the pool of endogenous ribonucleoside triphosphates. Marked activities of DNA polymerase and RNA polymerase in cytoplasm are possibly related to the growth and division of plastids and mitochondria.     

High-resolution mapping of repetitive DNA by in situ hybridization: molecular and chromosomal features of prominent dispersed and discretely localized DNA families from the wild beet species Beta procumbens

Members of three prominent DNA families of Beta procumbens have been isolated as Sau3A repeats. Two families consisting of repeats of about 158 bp and 312 bp are organized as satellite DNAs (Sau3A satellites I and II), whereas the third family with a repeat length of 202 bp is interspersed throughout the genome. Multi-colour fluorescence in situ hybridization was used for physical mapping of the DNA families, and has shown that these tandemly organized families occur in large heterochromatic and DAPI positive blocks. The Sau3A satellite I hybridized exclusively around or near the centromeres of 10, 11 or 12 chromosomes. The Sau3A satellite family I showed high intraspecific variability and high-resolution physical mapping was performed on pachytene chromosomes using differentially labelled repeats. The physical order of satellite subfamily arrays along a chromosome was visualized and provided evidence that large arrays of plant satellite repeats are not contiguous and consist of distinct subfamily domains. Re-hybridization of a heterologous rRNA probe to mitotic metaphase chromosomes revealed that the 18S-5.8S-25S rRNA genes are located at subterminal position on one chromosome pair missing repeat clusters of the Sau3A satellite family I. It is known that arrays of Sau3A satellite I repeats are tightly linked to a nematode (Heterodera schachtii) resistance gene and our results show that the gene might be located close to the centromere. Large arrays of the Sau3A satellite II were found in centromeric regions of 16 chromosomes and, in addition, a considerable interspersion of repeats over all chromosomes was observed. The family of interspersed 202 bp repeats is uniformly distributed over all chromosomes and largely excluded from the rRNA gene cluster but shows local amplification in some regions. Southern hybridization has shown that all three families are specific for genomes of the section Procumbentes of the genus Beta.     

Isolation and characterisation of satellite DNA from Brassica juncea (L.) Czern

Nuclear DNA isolated from hypocotyls (H), proliferating callus (PC) and differentiating callus (DC) of Brassica juncea contains a satellite DNA which can be resolved in actinomycin-D/CsCl gradients. The satellite DNA undergoes changes, when an in vitro culture is raised from hypocotyl tissue and forms a higher percentage of the genome in PC and DC than in mature differentiated tissue (hypocotyl). All the three satellite DNAs are GC-rich compared to main band DNAs. Satellite DNA of H has higher Tm and GC content than that of the PC and DC satellites. A 200 bp basic repeat unit from hypocotyl nuclear DNA has been cloned and characterised.     

Chromatin structure of Drosophila nasutoides satellites as probed by cross-linking DNA in situ

Chromatin structure can be probed by cross-linking DNA in situ using trioxsalen and irradiation with UV light. Presumably DNA within a nucleosome is protected from cross-linking so that this region appears as a single-strand loop in the electron microscope under a condition in which single-strands and double-strands are distinguished. Unprotected regions appear as duplex due to cross-linking.We have used this approach to investigate the structure of chromatins containing satellite DNAs of Drosophila nasutoides. We have previously shown that D. nasutoides has an unusually large autosome pair which is almost entirely heterochromatic. Its nuclear DNA reveals four major satellite components amounting up to 60% of the total genome. All of them are localized in this large heterochromatic chromosome. We wish to ask whether chromatins containing different satellite sequences have different arrangements of nucleosomes. Our results from cross-linking experiments show that all DNA components including main band DNA have different patterns of protected and unprotected regions: (a) The length distributions of protected regions show multiple peaks with the smallest unit lengths being 200 nucleotides for main band DNA, 180 for satellites I, II and III, and 160 for satellite IV. (b) The amounts of unprotected regions, presumably internucleosome DNA, vary from 16% for main band DNA to 60% for satellite IV, suggesting that satellite chromatins have fewer nucleosomes per given length of chromatin than main band DNA chromatin. The spacings between nucleosomes appear to be random in satellite chromatins.