Chromosoma

Fuchs, Jörg; Houben, Andreas; Brandes, Andrea; Schubert, Ingo

doi: 10.1007/BF00337219pmid: 8575242

It is shown that chromosome painting is as yet not possible for plants with very complex genomes, neither intra- nor interspecific. The reasons are inefficient blocking of dispersed repetitive sequences and insufficient signal intensity of short unique sequences. Future perspective are indicated.

Vega-Salas, Dora; Salas, Pedro

doi: 10.1007/BF00337220pmid: 8575243

Because the mechanisms that govern mitosis are a key to the understanding of cell growth, the proteins associated with chromosomes specifically during this phase have received thorough attention. In the present work we report an Mr 58000 protein in MDCK epithelial cells, recognized by a monoclonal antibody (LFM-1) that decorates chromosomes during M-phase. Cell fractionation methods followed by immunoblotting and immunofluorescence showed that this protein is associated with the nuclear fraction. Biochemical extraction procedures on isolated metaphase chromosomes from nocodazole-synchronized cells indicated that the Mr 58000 protein behaves as a chromosomal scaffold protein, that is, it remains in the pellets after high salt (2 M NaCl) or 3′–5′ diiodosalicylic acid treatments, even in DNAse pre-digested samples. In addition, confocal microscopy of those chromosomes revealed the LFM-1 epitopes distributed on the external surface and the axis of chromatids. Parallel analysis of interphase nuclei revealed LFM-1 epitopes inside G1-, but excluded from G2-phase nuclei. These results were independently confirmed on nuclei sorted by flow cytometry and in cell populations synchronized by release of G1-/S-phase hydroxyurea arrest. The Mr 58000 and a minor Mr 38000 protein (which was enriched only in mitotic chromosomes of synchronized cells) were analyzed by Edman degradation. They shared the sequence at the amino-terminal end but failed to show total homology with known proteins. These results suggest that LFM-1 antigens fit some of the predictions of the licensing factor model, and may have a role in cell cycle dependent events.

Wines, Debora; Talbert, Paul; Clark, Denise; Henikoff, Steven

doi: 10.1007/BF00337221pmid: 8575244

The dam DNA methyltransferase gene from Escherichia coli was introduced into Drosophila in order to probe chromatin structure in vivo. Expression of the gene caused no visible defects or developmental delay even at high levels of active methylase. About half of each target site was found to be methylated in vivo, apparently reflecting a general property of chromatin packaged in nucleosomes. Although site-specific differences were detected, most euchromatic and heterochromatic sites showed comparable degrees of methylation, at least at high methylase levels. Methylase accessibility of a lacZ reporter gene subject to position-effect variegation throughout development was only slightly reduced, consistent with studies of chromatin accessibility in vitro. Silencing of lacZ during development differed from silencing of an adjacent white eye pigment reporter gene in the adult, as though chromatin structure can undergo dynamic alterations during development.

Altenschildesche, Gerti; Heller, Hilde; Wilgenbus, Petra; Tjia, Sian; Doerfler, Walter

doi: 10.1007/BF00337222pmid: 8575245

The retrotransposon-like elements of the intracisternal A-particle (IAP) sequences occur in about 900 copies per haploid hamster cell genome. By applying the fluorescent in situ hybridization (FISH) technique and four different, cloned segments of the IAP element as hybridization probes, these elements were found to be distributed in specific patterns over many of the 44 hamster chromosomes. The hybridization patterns were very similar regardless of whether all four probes or only the IAPI probe carrying the long terminal repeat (LTR) region were used. The IAP elements were found most abundantly, though not exclusively, on the short arms of at least 12 of the autosomes. Of the sex chromosomes, the shorter Y chromosome was stained on both arms, and the X chromosome on one arm by the IAP probes. Primary Syrian hamster cells, the established Syrian hamster cell line BHK21, and the adenovirus type 12 (Ad12)-transformed BHK21 cell line T637 yielded very similar results. In Chinese hamster ovary (CHO) or 3T3 mouse cells, signals could not be elicited by FISH using the Syrian hamster IAP probes. On Southern blots, the DNAs from these cell lines hybridized very weakly, if at all, to the IAP sequences. Thus, IAP sequences were retroposed after Syrian hamster and mouse or Syrian and Chinese hamsters had diverged in evolution.

Goodwin, Edwin; Meyne, Julianne; Bailey, Susan; Quigley, Denise

doi: 10.1007/BF00337223pmid: 8575246

Lateral asymmetry refers to unequal fluorescent intensity between adjacent regions of sister chromatids. It has been observed in the centromeric regions of mitotic chromosomes of mouse or human origin when cells are grown in 5-bromo-2′-deoxyuridine (BrdU) for a single round of DNA synthesis. The chromosome-orientation fluorescence in situ hybridization (CO-FISH) technique was used with pseudodiploid mouse cells to show that the regions of asymmetrical brightness coincide with major satellite repetitive DNA, and that the more heavily BrdU-substituted chromatid is the one that fluoresces less brightly. These observations support a 20 year old hypothesis on the origin of lateral asymmetry. Other observations suggest that differential loss of DNA from the heavily substituted chromatid also contributes to lateral asymmetry.

Canavez, Flavio; Alves, Gilda; Fanning, Thomas; Seuánez, Héctor

doi: 10.1007/BF00337224pmid: 8575247

Chromosomal studies in three species of Amazonian Callithrix (2n=44) and data in the literature show that this group is karyomonotypic. Moreover, it is characterized by the presence of abundant heterochromatic regions, unlike the situation in congeneric forms of Callithrix of the Atlantic coast with 2n=46, and by the presence of a highly repetitive, exclusive DNA component, with a basic repeat motif of 1528 bp. Karyotypic comparisons with other Callitrichids and an outgroup species showed that Callitrichids are karyologically conserved and explained several rearrangements that had presumably occurred during their phyletic radiation. Analyses of karyologic data enabled the construction of two alternative phylogenetic topologies. The lack of derived homoeologies, common to all members of the genus Callithrix grouped at present, and the fact that Amazonian species were more similar to Cebuella pygmaea (2n=44) than to their congeneric forms with 2n=46 suggested that species at present included in the Amazonian Callithrix should be grouped with C. pygmaea.

Hock, Robert; Carl, Marina; Lieb, Bernhard; Gebauer, Dagmar; Scheer, Ulrich

doi: 10.1007/BF00337225pmid: 8575248

By immunizing Balb/c mice with oocyte nuclei of Pleurodeles waltl we obtained a monoclonal antibody, mAb 4A6, that labels distinct globular domains of the lampbrush chromosomal axes of Pleurodeles. These domains are found at corresponding sites of homologous chromosomes, often at telomeric and putative centromeric regions, and appear to be devoid of DNA. Because of these characteristic features it is most likely that the mAb 4A6-positive domains correspond to the central part of the “axial granules” of urodelan lampbrush chromosomes. In immunoblotting analyses mAb 4A6 reacts with a nuclear antigen of ∼M r 180000 and a structurally nonrelated cytoplasmic protein of M r 98000, which was not characterized any further. Comparative immunofluorescence and immunoblotting studies with mAb 4A6 and an antiserum against DNA topoisomerase II (topo II) as well as immunodepletion experiments demonstrated that the nuclear 4A6 antigen is topo II. Our results indicate that topo II is not a constitutent of a continuous, loop-anchoring scaffold in lampbrush chromosomes of Pleurodeles but, rather, is restricted to the axial granules.

Paulin-Levasseur, Micheline; Blake, Deborah; Julien, Martha; Rouleau, Louise

doi: 10.1007/BF00337226pmid: 8575249

The characterization of the human antiserum designated MAN has led to the identification of a subset of non-lamin proteins that are exclusively located at the nuclear periphery in all vertebrate cell types examined, from human to fish. Immunoreactive protein species were whown to comprise three major polypeptides of M r 78000, 58000 and 40000. These antigens co-partitioned with the nuclear lamina during in situ isolation of nuclear matrices from lamin A/C-positive and-negative mammlian cells. Using double immunofluorescence, the spatial relationship of MAN antigens to type-A and type-B lamins was further examined throughout the cell cycle of lamin A/C-positive mammalian cells. In interphase HeLa and 3t3 cells, MAN antigens colocalized with both types of lamins at the periphery of the nucleus, but were absent from intranuclear foci of lamin B. As HeLa cells proceeded into mitosis, MAN antigens were seen to segregate from lamins A/C and coredistribute with lamin B. Lamins A/C disassembled during late prophase/early prometaphase and reassociated with chromatin in telophase/cytokinesis. In contrast, MAN antigens and lamin B dispersed late during prometaphase and reassembled on chromosomes in anaphase. Altogether, our data suggest that MAN antigens may play key functions in the maintenance of the structural integrity of the nuclear compartment in vertebrate cells.

Ueda, K.; Hayashi-Ishimaru, Y.

doi: 10.1007/BF00337227pmid: 8575250

The localization of DNA in the condensed interphase chromosomes of Euglena was determined by immunoelectron microscopy. Deposits of gold particles that coincided with the localization of DNA followed threads that corresponded to the chromatin fibers. The threads were 55–80 nm in diameter and were assumed to be supersolenoids. The localization of gold deposits on chromosomes that had been sectioned in various directions suggested that the chromatin fibers coiled around the surface of chromosomes, with a wide central axial region of the chromosomes remaining free of DNA. These findings are discussed in relation to current models of chromosomal structure.

Khosla, Sanjeev; Kantheti, Prameelarani; Brahmachari, Vani; Chandra, H.

doi: 10.1007/BF00337228pmid: 8575251

In mealybugs, chromatin condensation is related to both genomic imprinting and sex determination. The paternal chromosomal complement is condensed and genetically inactive in sons but not in daughters. During a study of chromatin organization in Planococcus lilacinus, digestion with micrococcal nuclease showed that 3% to 5% of the male genome is resistant to the enzyme. This Nuclease Resistant Chromatin (NRC) apparently has a nucleosomal organization. Southern hybridization of genomic DNA suggests that NRC sequences are present in both sexes and occur throughout the genome. Cloned NRC DNA is A+T-rich with stretches of adenines similar to those present in mouse α-satellite sequences. NRC DNA also contains sequence motifs that are typically associated with the nuclear matrix. Salt-fractionation experiments showed that NRC sequences are matrix associated. These observations are discussed in relation to the unusual cytological features of mealybug chromosomes, including the possible existence of multiple centres of inactivation.