Zur Funktion des W-Chromatins bei Ephestia kuehniella (Lepidoptera)

In female somatic nuclei, the W-chromosome forms a heterochromatic body, the so-called W-chromatin. This is absent in male nuclei. After a -ray treatment several mutations of W have been obtained. They influence the behavior of the W-chromatin in somatic nuclei. These mutations can be classified in three groups. The first group comprises five W-fusions. In females of these strains the W or a part of it is coupled to an autosome. During meiosis, these fusions pair with the Z and the homologous autosomes. The W-fusions disturb the normal formation of W-chromatin. Several smaller bodies are observed instead of a single W-chromocenter. The second type of mutation is a translocation between W and an autosome. Pairing in meiosis occurs only with the homologue autosome. It appears in 50% of males and 50% of females. In somatic nuclei it produces many very small particles of W-chromatin. The third type of mutation is represented by eight fragments of W. During meiosis, they form supernumerary fragment-chromosomes. In somatic nuclei, these are present as chromocenters similar to W-chromatin. W-fragments apppear approximately in one half of both sexes. By crossing, animals carrying up to four W-fragments could be produced. This heterochromatin additional to W-chromatin does not perceptibly influence either sex determination and fertility or quantitative characters such as duration of development, weight or diameter of eye facets.     

Satellite DNA and evolution of sex chromosomes

The satellite DNA (satellite III) which is mainly represented in the female of Elaphe radiata (Ophidia, Colubridae) has been isolated and its buoyant density has been determined (=1.700 g cm^–3). In situ hybridisation of radioactive complementary RNA of this satellite DNA with the chromosomes of different species has revealed that it is mainly concentrated on the W sex chromosome and its sequences are conserved throughout the sub-order Ophidia. From hybridisation studies these sequences are absent from the primitive family Boidae which represents a primitive state of differentiation of sex chromosomes. Chromosome analysis and C-banding have also revealed the absence of heteromorphism and of an entirely heterochromatic chromosome in the species belonging to the primitive family and their presence in the species of highly evolved families. It is suggested that the origin of satellite DNA (satellite III) in the W chromosome is the first step in differentiation of W from the Z in snakes by generating asynchrony in the DNA replication pattern of Z and W chromosomes and thus conceivably reducing the frequency of crossing-over between them which is the prerequisite of differentiation of sex chromosomes. Presence of similar sex chromosome associated satellite DNA in domestic chicken suggests its existence in a wider range of vertebrates than just the snakes.     

Probing the W chromosome of the codling moth, <Emphasis Type="Italic">Cydia pomonella</Emphasis>, with sequences from microdissected sex chromatin

The W chromosome of the codling moth, Cydia pomonella, like that of most Lepidoptera species, is heterochromatic and forms a female-specific sex chromatin body in somatic cells. We collected chromatin samples by laser microdissection from euchromatin and W-chromatin bodies. DNA from the samples was amplified by degenerate oligonucleotide-primed polymerase chain reaction (DOP-PCR) and used to prepare painting probes and start an analysis of the W-chromosome sequence composition. With fluorescence in situ hybridization (FISH), the euchromatin probe labelled all chromosomes, whereas the W-chromatin DNA proved to be a highly specific W-chromosome painting probe. For sequence analysis, DOP-PCR-generated DNA fragments were cloned, sequenced, and tested by Southern hybridization. We recovered single-copy and low-copy W-specific sequences, a sequence that was located only in the W and the Z chromosome, multi-copy sequences that were enriched in the W chromosome but occurred also elsewhere, and ubiquitous multi-copy sequences. Three of the multi-copy sequences were recognized as derived from hitherto unknown retrotransposons. The results show that our approach is feasible and that the W-chromosome composition of C. pomonella is not principally different from that of Bombyx mori or from that of Y chromosomes of several species with an XY sex-determining mechanism. The W chromosome has attracted repetitive sequences during evolution but also contains unique sequences.     

Cytogenetics of the Javan file snake (Acrochordus javanicus) and the evolution of snake sex chromosomes

Advanced snakes (Caenophidia) are an important group including around 90% of the recent species of snakes. The basal splitting of the clade is still rather controversial, and it is not fully understood when the differentiation of sex chromosomes started in snake evolution. To help resolve these questions, we performed cytogenetic analysis on the Javan file snake, also known as the elephant trunk snake (Acrochordus javanicus) from the family Acrochordidae, which occupies an informative phylogenetic position. For the first time for acrochordids, we identified heteromorphic ZZ/ZW sex chromosomes with a highly heterochromatic W chromosome. These traits are likely synapomorphies of advanced snakes. In contrast to other caenophidian snakes, the Javan file snake lacks an accumulation of Bkm repeats and interstitial telomeric repeats on the W chromosome. This observation supports the sister group relationship between acrochordids and all other caenophidian snakes including the family Xenodermatidae and questions the suggested role of Bkm repeats in the formation of sex heterochromatin in snakes. The revealed partial gene content of the Z chromosome in acrochordids supports the hypothesis that the progressive degeneration of the W chromosome commenced in snakes before the basal split of Caenophidia, albeit its evolutionary rate in file snakes might be slower than in their sister lineage.     

Behaviour of sex chromosome associated satellite DNAs in somatic and germ cells in snakes

Sex chromosome associated satellite DNAs isolated from the snakes Elaphe radiata (sat III) (Singh et al., 1976) and Bungarus fasciatus (Elapidae) (minor satellite) are evolutionarily conserved throughout the suborder Ophidia. An autosome limited satellite DNA (B. fasciatus major satellite) is not similarly conserved. Both types of satellites have been studied by in situ hybridisation in various somatic tissues and germ cells where it has been observed that the W sex chromosome remains condensed in interphase nuclei. In growing oocytes however, the W chromosome satellite rich heterochromatin decondenses completely whilst the autosomal satellite rich regions remain condensed. Later, the cycle is reversed and the W chromosome condenses whilst the autosomal satellite regions decondense. In a primitive snake (Eryx johni johni) where the sex chromosomes are not differentiated and where there is no satellite DNA specific to them, these phenomena are absent. — The differential behaviour of autosomal and sex chromosome associated satellite DNAs is discussed in the light of gene regulation.     

Distribution of the rDNA and three classes of highly repetitive DNA in the chromatin of interphase nuclei of Arabidopsis thaliana

The distribution of the ribosomal RNA (rRNA) genes and three classes of highly repetitive DNA in the chromatin of interphase nuclei of Arabidopsis thaliana was studied for the first time through non-isotopic in situ hybridization and luminescence digital imaging microscopy. Each of the three classes of highly repetitive DNA exhibited a characteristic hybridization pattern, and one class was seen to be primarily localized on two chromocentres, which would allow it to distinguish a particular chromosome. The rDNA was consistently localized on the two largest chromocentres and on one or two smaller chromocentres. A limited number of nuclei exhibited more than four labelled chromocentres, indicative of either polypoidy or differential amplification of the rDNA. In nuclei where the nucleolus could be clearly observed, the nucleolar associated chromocentres (NACs) were seen to be labelled by the ribosomal DNA (rDNA) probe.by W. Hennig     

Evolution of sex-chromosomes in lacertid lizards

The occurrence and form of sex chromosomes were investigated with the aid of C-banding and 4-6-diamidino-2-phenylindole (DAPI) staining in 13 species of lacertid lizards. The results obtained show the presence in five species of a female heterogamety in which the two sex chromosomes have the same shape and size, but the W differs from the Z in being almost entirely heterochromatic. This condition is clearly similar to that found in some snakes and considered to be an early stage of differentiation of sex chromosomes by Singh et al. (1976, 1980). A more evolved condition may be that found in three other species in which the W is distinctly smaller than the Z. A third situation is that found in all Podarcis species which, even though they are considered to be among the more evolved species in the family, possess two sex chromosomes that are indistinguishable. In general, the situation in lacertids may be compatible with the hypothesis of sex chromosome evolution put forward by Singh et al. (1976, 1980). However a differentiation mechanism of this kind does not seem to be well established in lacertids, and is probably not the only mechanism that is in operation in this family.     

An early stage of ZW/ZZ sex chromosome differentiation in Poecilia sphenops var. melanistica (Poeciliidae,Cyprinodontiformes)

The mitotic and meiotic chromosomes of the American cyprinodont fish Poecilia sphenops var. melanistica were analysed. All 46 chromosomes are telocentric. By specific staining of the constitutive heterochromatin with C-banding and various AT-specific fluorochromes, the homomorphic chromosome pair 1 could be identified as sex chromosomes of the ZW/ZZ type. All female animals exhibit a W chromosome with a large region of telomeric heterochromatin that is not present in the Z chromosome. These sex chromosomes cannot be distinguished by conventional staining; they represent the first demonstration of sex chromosomes in fishes in an early stage of morphological differentiation. The W heterochromatin and the telomeric heterochromatin in the two autosomes 18 show a very bright fluorescence when stained with AT-specific fluorochromes. This allows the direct identification of the chromosomal sex by examining the interphase nuclei: females exhibit three, males only two brightly fluorescent heterochromatic chromocenters in their nuclei. The significance of these ZW/ ZZ sex chromosomes and their specific DNA sequences, the dose compensation of the Z-linked genes, and the experimental possibilities using sex-reversed ZW males are discussed.     

Molecular differentiation of sex chromosomes probed by comparative genomic hybridization

Comparative genomic hybridization (CGH) was used to identify and probe sex chromosomes in several XY and WZ systems. Chromosomes were hybridized simultaneously with FluorX-labelled DNA of females and Cy3-labelled DNA of males in the presence of an excess of Cot-1 DNA or unlabelled DNA of the homogametic sex. CGH visualized the molecular differentiation of the X and Y in the house mouse, Mus musculus, and in Drosophila melanogaster: while autosomes were stained equally by both probes, the X and Y chromosomes were stained preferentially by the female-derived or the male-derived probe, respectively. There was no differential staining of the X and Y chromosomes in the fly Megaselia scalaris, indicating an early stage of sex chromosome differentiation in this species. In the human and the house mouse, labelled DNA of males in the presence of unlabelled DNA of females was sufficient to highlight Y chromosomes in mitosis and interphase. In WZ sex chromosome systems, the silkworm Bombyx mori, the flour moth Ephestia kuehniella, and the wax moth Galleria mellonella, the W chromosomes were identified by CGH in mitosis and meiosis. They were conspicuously stained by both female- and male-derived probes, unlike the Z chromosomes, which were preferentially stained by the male-derived probe in E. kuehniella only but were otherwise inconspicuous. The ratio of female:male staining and the pattern of staining along the W chromosomes was species specific. CGH shows that W chromosomes in these species are molecularly well differentiated from the Z chromosomes. The conspicuous binding of the male-derived probe to the W chromosomes is presumably due to an accumulation of common interspersed repetitive sequences. Received: 6 January 1999; in revised form: 28 January 1999 / Accepted: 11 February 1999     

Nuclear organization in crucifer genomes: nucleolus-associated telomere clustering is not a universal interphase configuration in Brassicaceae

Arabidopsis thaliana has become a major plant research model, where interphase nuclear organization exhibits unique features, including nucleolus-associated telomere clustering. The chromocenter (CC)-loop model, or rosette-like configuration, describes intranuclear chromatin organization in Arabidopsis as megabase-long loops anchored in, and emanating from, peripherally positioned CCs, with those containing telomeres associating with the nucleolus. To investigate whether the CC-loop organization is universal across the mustard family (crucifers), the nuclear distributions of centromeres, telomeres and nucleoli were analyzed by fluorescence in situ hybridization in seven diploid species (2n = 10–16) representing major crucifer clades with an up to 26-fold variation in genome size (160–4260 Mb). Nucleolus-associated telomere clustering was confirmed in Arabidopsis (157 Mb) and was newly identified as the major nuclear phenotype in other species with a small genome (215–381 Mb). In large-genome species (2611–4264 Mb), centromeres and telomeres adopted a Rabl-like configuration or dispersed distribution in the nuclear interior; telomeres only rarely associated with the nucleolus. In Arabis cypria (381 Mb) and Bunias orientalis (2611 Mb), tissue-specific patterns deviating from the major nuclear phenotypes were observed in anther and stem tissues, respectively. The rosette-like configuration, including nucleolus-associated telomere clustering in small-genome species from different infrafamiliar clades, suggests that genomic properties rather than phylogenetic position determine the interphase nuclear organization. Our data suggest that nuclear genome size, average chromosome size and degree of longitudinal chromosome compartmentalization affect interphase chromosome organization in crucifer genomes.     

Ultrastructural,cytochemical and immunocytochemical investigation of the interphase nucleus in the unicellular green alga Chlamydomonas reinhardtii

Summary— The ultrastructural organization of the interphase nucleus of the green alga Chlamydomonas reinhardtii was investigated and found to be largely dependent on the fixation conditions. In specimens stained with bismuth, densely contrasted granules ranging from 25 to 45 nm in diameter were localized throughout the interchromatin space and often formed clusters. These granules were labeled by RNase A-gold complexes and may represent the counterparts of animal and higher plant cll interchromatin granules. Within the nucleolus the Ag-NOR and pyroantimonate stains and, to a lesser extent, the bismuth stain reacted with the nucleolar dense fibrillar component (DFC). When cells were subjected to a heat shock at 42°C, the nucleolar DFC was found to progressively separate from the nucleolus and, after 3 h, appeared as a continuous meandering thread about 0.1 μm in width. Within the nucleolus, labeling on conventional preparations occurred as small clusters with antibodies to H3 histones or to DNA whereas RNase A-gold complexes labeled most of it including fibrillar centers. Improved ultrastructural preservation in cryofixed, cryosubstituted specimens gently fixed in glutaraldehyde permitted to localize nucleolar DNA predominantly at the outer edge of fibrillar centers and to a lesser extent within the neighbouring DFC. Our results indicate that the structure and composition of Chlamydomonas interphase nuclei are comparable, despite particularities, to those of animal and higher plant nuclei.     

3D organization of interphase fibroblast nuclei in two closely related shrew species, Sorex granarius and S. araneus, differed by the structure of chromosome termini

To study 3D organization of fibroblast interphase nuclei in two sibling shrew species, Sorex araneus from Cordon race and S. granarius, FISH with probe to telomeric and rDNA repeats, and immunofluorescence with ANA CREST and antibodies to nucleolus protein B23 were used. Karyotypes of studied species are composed of near identical chromosomal arms and differ by the number of metacentrics and the structure of terminal chromosome regions. The large telomeres containing on the average 218 kbp of telomere repeats characterize the short arms in all of 32 S. granarius acrocentrics. Telomere repeats in them alternate with nbosomal repeats. These regions also contain active NORs. In contrast, active NORs in S. araneus are localized at the terminal regions of 8 chromosomal arms (Zhdanova et al., 2005, 2007b). We have shown that telomere associations of chromosomes and contacts of a part of telomere clusters with inner nuclear membrane and nucleolus characterize interphase nuclei of both S. granarius and S. araneus. Moreover, the partial colocalization of telomere and ribosomal clusters, and spatial nearness of centomeric and telomeric regions were revealed in the interphase nuclei of S. granarius. Evidently, only those ribosomal clusters that contain a number of active ribosomal genes display connection with nucleolus. The stripping of nucleolus materials during transition of fibroblasts to mitosis and the role of B23 protein in this process has been studied.     

Replication of autosomal heterochromatin in man

Summary In interphase nuclei of leukocytes and oral mucosa cells of normal human males and f males, two types of heterochromatin can he distinguished according to their location in the nucleus. Firstly, nucleolus-associated heterochromatin which consists of one large mass of autosomal segments surrounding the nucleolus, or several large masses if there appears to be more than one nucleolus in the same nucleus. Secondly, scattered heterochromatin composed of a large number of positively heteropycnotic bodies scattered throughout the nucleus and not directly associated with the nucleolus. The correspondence of this type of heterochromatin with chromosome segments is obtained at late prophase where several positively heteropycnotic regions belonging to the autosomes are found scattered throughout the nucleus.In human females sex-chromatin is present in addition to these two types. In leukocytes the sex-chromatin cannot be easily identified due to the large size and number of the scattered heterochromatic bodies, but in oral mucosa cells such a distinction is more easily achieved due to the smaller amount of autosomal heterochromatin.Nucleolus-associated and scattered heterochromatin from leukocytes of both sexes synthesized their DNA at a different period of time from the euchromatin. The asynchrony of replication observed in the heterochromatin at interphase is in agreement with the asynchrony between autosomes and within autosomes described by many authors at metaphase. This does not mean, however, that every segment or chromosome found replicating asynchronously at metaphase contains necessarily heterochromatin.Dedicated to Professor H. Bauer on the occasion of his 60th birthday. — This investigation was supported by a research grant to A. Lima-de-Faria from the Swedish Natural Science Research Council.     

Mitosis in the Hemoflagellate Trypanosoma cyclops*

SYNOPSIS. The ultrastructure of interphase and mitotic nuclei of the epimastigote form of Trypanosoma cyclops Weinman is described. In the interphase nucleus the nucleolus is located centrally while at the periphery of the nucleus condensed chromatin is in contact with the nuclear envelope. The nucleolus fragments at the onset of mitosis, but granular material of presumptive nucleolar origin is often recognizable in the mitotic nucleus. Peripheral chromatin is in contact with the nuclear envelope throughout mitosis, and it seems reasonable to assume that the nuclear envelope is involved in its segregation to the daughter nuclei. Spindle microtubules extend between the poles of the dividing nucleus and terminate close to the nuclear envelope. The basal body and kinetoplast divide before the onset of mitosis and do not appear to have any morphologic involvement in that process. Spindle pole bodies, kinetochores, and chromosomal microtubules have not been observed.     

Chromosome evolution in pseudoxyrhophiine snakes from Madagascar: a wide range of karyotypic variability

In this first cytogenetic survey on the lamprophiid snake subfamily Pseudoxyrhophiinae, we studied the karyology of ten snake species belonging to seven genera from Madagascar (Compsophis, Leioheterodon, Liophidium, Lycodryas, Madagascarophis, Phisalixella and Thamnosophis) using standard and banding methods. Our results show a wide range of different karyotypes ranging from 2n = 34 to 2n = 46 elements (FN from 40 to 48), with nucleolus organizer regions (NORs) on one (plesiomorphic) or two (derived/apomorphic) microchromosome pairs, and W chromosome at early or advanced states of diversification from the Z chromosome. The observed W chromosome variations further support the most accepted hypothesis that W differentiation from the Z chromosome occurred by progressive steps. We also propose an evolutionary scenario for the observed high karyotype diversity in this group of snakes, suggesting that it is derived from a putative primitive pseudoxyrhophiine karyotype with 2n = 46, similar to that of Leioheterodon geayi, via a series of centric fusions and inversions among macrochromosomes and translocations of micro‐ either to micro‐ or to macrochromosomes. This primitive Pseudoxyrhophiinae karyotype might have derived from a putative Lamprophiidae ancestor with 2n = 48, by means of a translocation of a micro‐ to a macrochromosome. In turn, the karyotype of this lamprophiid common ancestor may have derived from the assumed primitive snake karyotype (2n = 36 chromosomes, with 16 biarmed macro‐ and 20 microchromosomes) by a series of centric fissions and one inversion. © 2014 The Linnean Society of London, Biological Journal of the Linnean Society, 2014, 112 , 450–460.     

Identification of coiled bodies inBrassica napus nuclei during embryogenesis and early germination

Summary Nucleolus-associated bodies characterize interphase nuclei of many plant species. The recent demonstration that such bodies contain small nuclear ribonucleoproteins as well as coilin clearly indicates that they belong to a larger family of nuclear structures, known as coiled bodies, that have been intensively studied in a variety of animal cell types. In a previous work, we have shown that coiled bodies were present in close association with the nucleolus inZea mays dry seeds as well as during subsequent stages of germination. This study reveals that similar nuclear structures were also present duringBrassica napus embryogenesis starting at the torpedo stage and that they were, likewise, generally located on the nucleolar surface. As in the case ofZ. mays, coiled bodies were observed in cells of dry seeds as well as in those of early germinating tissues. These bodies were labelled with monoclonal antibody K121, an antibody reacting with the unique 5-terminal cap structure containing 2,2,7-trimethylguanosine that characterizes small nuclear RNAs. Owing to their intimate association with the nucleolus in all stages studied, the possibility is considered that, in these plant cells, coiled bodies are assembled on an organizer element located within this organelle.Abbreviations BSA bovine serum albumin - IgM immunoglobulin M - NAB nucleolus-associated body - NAC nucleolus-associated chromatin - PBS phosphate-buffered saline - snRNA small nuclear ribonucleic acid - snRNP small nuclear ribonucleoprotein     

Interphase chromosome arrangement in Arabidopsis thaliana is similar in differentiated and meristematic tissues and shows a transient mirror symmetry after nuclear division

Whole-mount fluorescence in situ hybridization (FISH) was applied to Arabidopsis thaliana seedlings to determine the three-dimensional (3D) interphase chromosome territory (CT) arrangement and heterochromatin location within the positional context of entire tissues or in particular cell types of morphologically well-preserved seedlings. The interphase chromosome arrangement was found to be similar between all inspected meristematic and differentiated root and shoot cells, indicating a lack of a gross reorganization during differentiation. The predominantly random CT arrangement (except for a more frequent association of the homologous chromosomes bearing a nucleolus organizer) and the peripheric location of centromeric heterochromatin were as previously observed for flow-sorted nuclei, but centromeres tend to fuse more often in nonendoreduplicating cells and NORs in differentiated cells. After mitosis, sister nuclei revealed a symmetric arrangement of homologous CTs waning with the progress of the cell cycle or in the course of differentiation. Thus, the interphase chromosome arrangement in A. thaliana nuclei seems to be constrained mainly by morphological features such as nuclear shape, presence or absence of a nucleolus organizer on chromosomes, nucleolar volume, and/or endopolyploidy level.     

Microtubules in Interphase Nuclei of Aesculus hippocastanum L.

Interphase nuclei of cambial cells and their derivatives indormant and active, juvenile and mature stems of Aesculus hippocastanumL. contain bundles of microtubules. Each bundle comprises betweenten and 50 microtubules arranged parallel to one another andoften in a paracrystalline hexagonal array. One end of the bundleis associated with the nucleolus and merges into it. No distinctterminal structures have been found, although in some casesthe end distal from the nucleolus lies close to the nuclearmembrane. No definite role can be suggested for these structuresas yet, but their presence in interphase nuclei, coupled withtheir association with the nucleolus, is indicative of involvementin the normal activity of the nucleolus. Aesculus hippocastanum L, microtubules, nucleolus, nucleus     

Mitosis in the coenocytic green algaBoergesenia forbesii (Harvey) Feldmann (Siphonocladales,Ulvophyceae)

Mitosis in vegetative cells of the siphonocladalean algaBoergesenia forbesii (Harvey) Feldmann was investigated mainly by electron microscopy. The mitotic spindle was centric and closed. The interphase nucleus contained a spherical nucleolus. The nucleolus was slightly dispersed at prophase, but nucleolar materials remained during nearly all stages of mitosis. Kinetochores were evident on chromosomes. The polar regions of nuclear envelope had no fenestrae during mitosis. Anaphase separation of the chromosomes was asynchronous. Elongation of interzonal spindle at telophase separated the two daughter nuclei widely. The ultrastructural features of mitosis inB. forbesii revealed by the present investigation are compared with those of other siphonous and siphonocladous algae in the Ulvophyceae.