Sequence of centromere separation: characterization of multicentric chromosomes in a rat cell line

The B₁ cell line of rat cerebral endothelium origin exhibits several dicentric and multicentric chromosomes. These chromosomes, unlike multicentrics in mouse (Vig and Zinkowski 1986) do not show premature centromere separation. All centromeres deposit kinetochore proteins and appear to be functional. Even the centromeres which fail to migrate to the poles during anaphase and make side arm bridges bind to spindle microtubules. Some multicentric chromosomes show kinetochores spaced apart with intervening stretches of euchromatin while others are located adjacent to each other thus exhibiting tandem repeats and forming a compound kinetochore (Brinkeley et al. 1984). Also, unlike mouse multicentric chromosomes in which different pericentric regions and the centromeres replicate at different times, the rat chromosomes appear to replicate all pericentric and centric regions in a given multicentric simultaneously. The present studies indicate that centromeres in rat and mouse replicate during the last part of the S-phase and in continuation with the pericentric heterochromatin.     

Sequence of centromere separation: differential replication of pericentric heterochromatin in multicentric chromosomes

The dicentric and multicentric chromosomes in L cells and a brain tumor cell line of mouse display only one site of kinetochore formation associated with the active centromere. The accessory or inactive centromeres show premature separation. These cell lines were treated with 10^–6 M 5-bromodeoxyuridine (BrdUrd) followed by anti-BrdUrd antibody to study the pattern of replication of pericentric heterochromatin flanking the active vs inactive centromeres. Regardless of its quantity, heterochromatin around the inactive centromere replicates earlier than that associated with the active centromere. There appears to be a relationship between the timing of separation of a centromere and the timing of replication of pericentric heterochromatin. The premature replication of heterochromatin associated with an inactive centromere may be responsible for its premature separation and, hence, inactivity.     

Sequence of centromere separation: generation of unstable multicentric chromosmes in a rat cell line

A transformed cell line, B₁, of cerebral endothelial origin from the Wistar-Kyoto male rat has chromatid and chromosome type bridges in virtually every cell. It exhibits various dicentric and polycentric chromosomes. Most dicentrics are symmetric isochromosomes. Certain isodicentrics are present in a fair segment of the cell population; however, almost all cells have some newly arising isodicentrics. The live cells show a lengthened prometaphase. Anaphase is also retarded possibly due to the occurrence of bridges. At anaphase some multicentrics split at only one centromere. When pulled to the two poles the unsplit centromeres and the distal chromosome segment form a side arm bridge. Another mechanism appears to be a total lack of separation of daughter centromeres at meta-anaphase (meiotic-like behavior of mitotic chromosomes). This is realized by the pulling of each of the two unsplit centromeres to opposite poles and results in bridges with both sister chromatids running parallel to each other. A break at corresponding weak points in the two sister chromatids followed by rejoining can form a dicentric isochromosome. A third mechanism, the breakage-fusion-bridge cycle, is also operative but would not produce isodicentrics. In the case of the first two mechanisms some or all centromeres apparently split between telophase and onset of the following DNA synthesis rather than at the usual time at late metaphase. These observations may suggest some previously unknown behavior of multicentric chromosomes during mitosis.     

Formation of spindle fibers,kinetochore orientation,and behavior of the nuclear envelope during mitosis in endosperm

The formation of kinetochore (chromosomal) and continuous fibers, and the behavior of the nuclear envelope (NE) was described in studies combining light and electron microscopy. Microtubules (MTs) push and pull the NE which becomes progressively weaker before breaking. It breaks to a certain extent due to mechanical pressure. Clear zone MTs penetrate into the nuclear area as dense bundles and form continuous fibers. These MTs also attach to some kinetochores during this process. Some kinetochore fibers seem to be formed by the kinetochores themselves which are also responsible for further development and changes of kinetochore fibers. Formation of kinetochore fibers is asynchronous for different chromosomes and even for two sister kinetochores. Often temporary faulty connections between different kinetochores or the polar regions are formed which usually break in later stages. This results in movements of chromosomes toward the poles and across the spindle during prometaphase. The NE, whose fine structure has been described, breaks into small pieces which often persist to the next mitosis. Old pieces of NE are utilized in the formation of new NE at telophase. Several problems concerning the mechanism of chromosome movements, visibility of the NE, etc., have also been discussed.     

Holokinetic composite chromosomes with “diffuse” kinetochores in the micronuclear mitosis of a heterotrichous ciliate

During micronuclear mitosis of the heterotrichous ciliate Nyctotherus ovalis Leidy rod-shaped composite chromosomes are formed by lateral association of telokinetic chromosomes. The formation of these composite chromosomes seems to be a highly ordered process since only nuclei with either 18 or 24 such chromosomes can be observed, and nuclei with the same chromosome number show a similar length distribution of their chromosomes. Further, these data indicate that we examined two otherwise indistinguishable races. During metaphase the composite chromosomes become arranged in the spindle equator in a holokinetic fashion, their entire poleward surfaces being covered by kinetochore material. These diffuse kinetochores have a trilaminar appearance comparable to those of monokinetic chromosomes. Their electron density after employing Bernhard's procedure revealed the same ribonucleoprotein distribution as reported for the localized kinetochores formed during the extranuclear mitosis in other cells. During early anaphase the outer kinetochore layer remains continuous while the individual chromosomes in the composite group show a tendency to separate leaving chromatin-free spaces of about 40 nm diameter. Kinetochore microtubules which are still anchored in the outer kinetochore layer seem to elongate and to extend into the interpolar spindle region predominantly through these holes in the chromatin. These observations suggest a like polarity of kinetochore and interpolar microtubules in the polar spindle region while microtubules in the interpolar space seem to interdigitate in an antiparallel fashion. The activity of the kinetochore to act as a microtubule-organizing center (MTOC) seems to be modulated by the chromatin underlying the outer kinetochore layer which may prevent further outgrowth of kinetochore microtubules.     

Backbone dynamics of the cytotoxic ribonuclease alpha-sarcin by 15N NMR relaxation methods

The cytotoxic ribonuclease -sarcin is a 150-residue protein that inactivates ribosomes by selectively cleaving a single phosphodiester bond in a strictly conserved rRNA loop. In order to gain insights on the molecular basis of its highly specific activity, we have previously determined its solution structure and studied its electrostatics properties. Here, we complement those studies by analysing the backbone dynamics of -sarcin through measurement of longitudinal relaxation rates R₁, off resonance rotating frame relaxation rates R₁, and the ¹⁵N¹HNOE of the backbone amide ¹⁵N nuclei at two different magnetic field strengths (11.7 and 17.6 T). The two sets of relaxation parameters have been analysed in terms of the reduced spectral density mapping formalism, as well as by the model-free approach. -Sarcin behaves as an axial symmetric rotor of the prolate type (D/D=1.16 ± 0.02) which tumbles with a correlation time _m of 7.54 ± 0.02 ns. The rotational diffusion properties have been also independently evaluated by hydrodynamic calculations and are in good agreement with the experimental results. The analysis of the internal dynamics reveals that -sarcin is composed of a rigid hydrophobic core and some exposed segments which undergo fast (ps to ns) internal motions. Slower motions in the s to ms time scale are less abundant and in some cases can be assigned to specific motional processes. All dynamic data are discussed in relation to the role of some particular residues of -sarcin in the process of recognition of its ribosomal target.     

Inactivation of voltage-dependent calcium current in an insulinoma cell line

We have studied the mechanism of Ca current inactivation in the -cell line HIT-T15 by conventional and perforated patch recording techniques, using two pulse voltage protocols and a combination of current and tail current measurements. In 5 mM Ca, from a holding potential of - 80 mV, the maximum current showed a complex time course of inactivation: a relatively fast, double exponential inactivation (_h1 12 ms and _h2 60 ms) and a very slowly inactivating component ( > 1 s). The faster component (_h1) was due to the voltage-dependent inactivation of a low-threshold-activated (LVA), T-type current, which deactivates more slowly ( 3–5 ms) than the other components ( 0.2–0.3 ms). The intermediate component (_h2) was due to the Ca-dependent inactivation of a portion of the high-threshold-activated (HVA) current. A saturating dose of the dihydropyridine (DHP) nifedipine (10 M) did not affect the LVA current, but inhibited by 68 ± 5% the transient, Ca-sensitive portion of the HVA current and by 33 ± 12% the long lasting component. We suggest that three components of the calcium current can be resolved in HIT cells and the main target of DHPs is a HVA current, which inactivates faster than the DHP-resistant HVA component and does so primarily through calcium influx. Correspondence to: C. Marchetti     

Subnuclear redistribution of DNA species in confluent and growing mammalian cells

About 20 to 25 percent of the nuclear DNA from cultured cells of the African green monkey, Cercopithecus aethiops, consists of a homogeneous, highly repetitive fraction designated C. aethiops component DNA. Use of in situ hybridization techniques reveals component at the centromeres of chromosomes from both diploid and heteroploid African green monkey kidney (AGMK) tissue culture cells. — Component DNA comprises 47 percent of the nucleolar DNA in actively growing primary AGMK cells, but only 31 percent of the nucleolar DNA in confluent cells which show density-dependent growth inhibition. Further, there is a pronounced shift of both main band and component DNA from euchromatin to heterochromatin when growing cells attain confluency. Thus, the relative subnuclear distributions of component and main band DNA's are different in growing and confluent cells. — In situ hybridization techniques indicate that component sequences aggregate in clumps in nuclei of growing cells and show a diffuse distribution in nuclei of confluent cells. This suggests that centromeric regions of the various chromosomes or groups of chromosomes aggregate and disaggregate reversibly as the culture changes from density-dependent growth inhibition to active cell division. — Hypotonic citrate treatment of primary AGMK cells causes nucleoli of confluent cells to disperse: this dispersion following citrate treatment was not seen in growing AGMK cells or in confluent or growing heteroploid cells. Similarly, this nucleolar dispersion was seen in confluent diploid mouse and human cells but not in growing diploid cells or in confluent or growing heteroploid cells.     

Meiotic segregation of five different reciprocal translocations in the onion fly,Hylemya antiqua (Meigen)

For one translocation (T14) with short interstitial segments in Hylemya antiqua significant differences in segregation behaviour between males and females were observed. In males the ratio of alternate:adjacent 1:adjacent 2 was approximately 730 and in females about 813. This difference is attributed to the difference in type of chromosome association. Female meiosis is chiasmate and male meiosis is achiasmate. It is suggested that meiotic pairing in males results in relative short Coorientation Determing Distances (CDDs) between homologous centromeres which favours alternate and adjacent 1 segregation. In females because of non-localized chiasmata on the average no differences in CDD between homologous and nonhomologous centromeres are expected. This might explain the occurrence of coorientation between non-homologous centromeres resulting in adjacent 2 segregations. Four other translocations with longer interstitial segments than T14 showed in males as well as females predominantly an alternate and adjacent 1 segregation, adjacent 2 was hardly found (0–3.6%). The longer distance between non-homologous centromeres is probably the reason.     

Production of 2-O-α-d-glucopyranosyl l-ascorbic acid using cyclodextrin glucanotransferase from Paenibacillus sp.

Transglycosylation to produce a 2-O--d-glucopyranosyl l-ascorbic acid (AA-2G) was studied using cyclodextrin glucanotransferase (CGTase) from Paenibacillus sp. A series of maltooligosaccharides substituted 2-O-derivatives of l-ascorbic acid (AA) were analyzed by HPLC. The maltooligosaccharides were hydrolyzed by glucoamylase to give AA-2G. CGTase also produced AA-2G using dextrin as a glycosyl donor and AA as an acceptor. CGTase utilized -, -, and -CDs, amylose, soluble starch and corn starch as glycosyl donors but not glucose.     

The mitotic apparatus in the dinoflagellateAmphidinium carterae

Summary Aspects of mitosis in the dinoflagellateAmphidinium carterae have been examined using TEM, SEM and fluorescence immunochemistry. The extranuclear spindle is composed of 2–4 bundles of microtubules arranged into two interdigitated half-spindles. Unlike previous reports of dinomitosis, the spindle bundles converge at the poles. These bundles of microtubules are inserted into a multilobed, vesiculate body containing electron opaque, amorphous material. This spindle pole body has ribosomes associated with it and is continuous with the endoplasmic reticulum. Chromosomes are attached to the nuclear envelope, which is persistent throughout mitosis. Kinetochore microtubules attach to the nuclear envelope via elongate electron dense kinetochores (one microtubule per daughter kinetochore). Several microtubules pass alongside the kinetochore, forming a halo of 3–4 spindle microtubules. Electron dense connections can be seen between some of these microtubules and the kinetochore. Chromosome segregation appears to be a function of spindle elongation (anaphase B), since chromosome-to-pole distance (anaphase A) remains relatively unchanged throughout mitosis.Abbreviations DABCO 1,4 diazabicyclo(2,2,2)octane - EGTA ethyleneglycol-bis-(-aminoethyl ether)-N,N,NN-tetraacetic acid - PIPES piperazine-N,N-bis(2-thanesulfonic acid) Supported by a Charles and Johanna Bush Predoctoral Fellowship to S. B. B.     

Localization of kinetochore fragments isolated from single chromatids in mitotic CHO cells

Summary Chinese hamster ovary (CHO) cells are treated with hydroxurea followed by a caffeine treatment to form detached kinetochore fragments in the absence of sister chromatids. Detached kinetochores in mitotic CHO cells display a functional association with MTs initiated from one or both centrosomes such that these association(s) have a significant influence on the location and orientation of detached kinetochores and/or their fragments. Kinetochore fragments which are amphitelically oriented are positioned approximately midway between the two centrosomes. Thus, a kinetochore isolated from a single chromatid can capture MTs from both poles. Monotelic orientation of these fragments is more frequently observed with kinetochore fragments located an average distance of 2.5 m from the nearest centrosome, compared to an average distance of 4.4 m in amphitelically oriented fragments. In cells treated with the potent MT poison, nocodazole, kinetochore isolation also occurs and therefore is not dependent on the presence of MTs. CHO cells treated to produce isolated kinetochores or kinetochore fragments then subsequently hyperosmotically shocked show no MTs directly inserted into kinetochore lamina, similar to the response of sucrose-treated metapbase PtK₁ cells. This treatment shows circular kinetochores tangentially associated with bundles of MTs that are located an average of 1.5 m from the centrosome. Our results suggest that a single kinetochore fragment can attach to MTs initiated from one or both centrosomes and that their specific association to MT fibers defines orientation of detached kinetochores within the spindle domain.     

Nuclear division in the cyst,and white spot nuclei preceding cyst formation,inAcetabularia wettsteinii

Summary Electron microscopy of nuclear division in young cysts ofAcetabularia wettsteinii shows that the dividing nucleus hat two additional cisternae of endoplasmic reticulum immediately outside the nuclear envelope. These additional cisternae are attached to, and apparently formed from a membrane body which develops outside the nucleus in early prophase. The interphase nucleus does not have the additional cisternae. The nucleoli are extruded from the nucleus at anaphase, the nucleolar bodies remaining in the peri-nuclear cytoplasm. The chromosomes have localized centromeres; the stratified ultrastructure characteristic of some chlorophycean and animal kinetochores has not been found inAcetabularia, although the kinetochore appears distinct, projecting from the chromatid, and has attached microtubules. The condensed bodies of the white spot nucleus are discussed.     

Recovery kinetics of radiation-induced chromosome aberrations in human G0 lymphocytes

Summary Declining yields of radiation-induced dicentric chromosomes in human G⁰ lymphocytes were observed in split-dose experiments with time intervals varied up to 8 h. In agreement with microdosimetric intratrack-intertrack interaction models, only the dose-squared yield component was reduced and approached an asymptotic value equal to one half of the corresponding single exposure yield. For 150 kV X-rays and 13 MeV electrons, at total doses up to 6 Gy, the time constant of the approximately exponential decline was practically dose- and quality-independent within a range of 100–180 min. For 10 kV X-rays, in the presence of a dominant linear yield component, only a small split-dose effect, but with a consistent-value, was observed for a total dose of 5 Gy. Since can be interpreted as the mean life time of primary lesions in chromatin fibres, its independence from absorbed dose and radiation quality means that radiation damage of the split-dose recovery mechanism can be excluded for doses up to 6 Gy. By correlating the observed split-dose reduction of the acentric fragment yield to the reduction of the dicentric yield, (1.64 ± 0.03) acentrics/dicentric for 150 kV X-rays and (1.51 ± 0.11) acentrics/dicentric for 13 MeV electrons were obtained. Acentrics formed in the course of dicentric formation as well as in other binary interactions of primary lesions are represented in these ratios. Post-irradiation recovery during time intervals between irradiation and cell stimulation up to 24 h did not occur. The relations to comparable results in cell lethality experiments are discussed, and a hypothesis of fast and slow binary interactions of primary lesions is put forward.Dedicated to Prof. Dr. H. Muth on the occasion of his 65th birthdayThis work was supported by the Bundesministerium des Innern, Bonn, FRG     

An alphoid DNA sequence conserved in all human and great ape chromosomes: evidence for ancient centromeric sequences at human chromosomal regions 2q21 and 9q13

Using vector-CENP-B box polymerase chain reaction (PCR) we isolated and cloned from a human chromosome 21-specific plasmid library, a 1 kb DNA sequence, named pH21. In in situ hybridization experiments, pH21 hybridized, under high stringency conditions, to the centromeric region of all the human, chimpanzee, gorilla and orangutan chromosomes. On human chromosomes pH21 also identified non-centromeric sequences at 2q21 (locus D2F33S1) and 9q13 (locus D9F33S2). The possible derivation of these sequences from ancestral centromeres is discussed. Sequence analysis confirmed the alphoid nature of the whole pH21 insert.GenBank accession number, M64321     

Probing microtubule organizing centres with MPM-2 in dividing cells of higher plants using immunofluorescence and immunogold techniques

Summary The localization in higher plant cells of phosphorylated proteins recognized by the monoclonal antibody MPM-2 was investigated, with particular attention to putative microtubule organizing centres (MTOCs). Immunofluorescence and immunogold electron microscopy showed that MPM-2 did not localize with most putative MTOCs in cells and protoplasts of the gymnospermPicea glauca and in cells of the angiospermVicia faba. The distribution of phosphoproteins detected by MPM-2 was similar during mitosis in both species. At late interphase and early prophase MPM-2 preferentially labelled nucleoli and the region around the condensing chromosomes but not the cytoplasm. General labelling of the cytoplasm followed dissolution of the nuclear envelope and by prometaphase centromeres stained strongly. At metaphase and very early anaphase kinetochores stained strongly by immunofluorescence but only weakly using immunogold; spindle microtubules (MTs) showed little staining. Kinetochore staining disappeared during anaphase and by telophase centromeres and loose regions of chromatin in reforming nuclei were labelled. Treatment with the anti-microtubular drug amiprophosmethyl (APM) showed that the phosphorylation/dephosphorylation cycle detected by MPM-2 proceeded independently of the mitotic spindle. Staining of centromeres/kinetochores with MPM-2 suggests that phosphorylation and dephosphorylation of this region of mitotic chromosomes may be involved in chromosome organization, chromatid separation and MT nucleation and/or attachment.Abbreviations APM amiprophos-methyl - DAPI 4,6-diamidino-2-phenylindole - EGTA ethylene glycol-bis(-aminoethyl ether) - FITC fluorescein isothiocyanate - MT microtubule - MTOC microtubule organizing centre - MtSB microtubule stabilizing buffer - PBS phosphate buffered saline - PBSB phosphate buffered saline with bovine serum albumin - PIPES piperazine-N,N-bis (2-ethanesulfonic acid) - PPB preprophase band - SPB spindle pole body - TRITC tetramethylrhodamine isothiocyanate     

Elektronenmikroskopische Untersuchungen über Bildung und Struktur der Zygotenwand beiMicrasterias papillifera (Desmidiaceae)

Zusammenfassung Die Feinstruktur von Mesospor und Endospor reifer Zygoten vonMicrasterias papillifera wurde untersucht. Das für die Resistenz der Zygoten gegenüber ungünstigen Umweltbedingungen wichtige Mesospor besteht aus vier Schichten von unterschiedlicher Elektronendichte. Es ist insgesamt 460–500 nm dick. Die Schichten Mes a und Mes c bestehen aus akkrustierten, dicht gepackten globulären Elementen eines Stoffes, der dem Sporopollenin ähnlich ist. Die Schicht Mes b zeigt ein fibrilläres Grundgerüst, wahrscheinlich aus Zellulose, in das Stoffe inkrustiert sind, die nicht mit denen der Schichten Mes a und Mes c identisch, aber gegen Abbauversuche ähnlich résistent sind.Die Schicht Mes d ist eine Übergangsschicht zum Endospor. Zwischen die Zellulose-Mikrofibrillen in Streutextur sind isolierte Partikel des Materials der Schicht Mes c eingestreut. Das etwa 650 nm dicke Endospor ist eine Zelluloseschicht mit Streutextur. Es wird als Wand der sogenannten Keimblase bei der Zygotenkeimung nach Sprengung von Exospor und Mesospor stark gedehnt.

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Electron microscopical investigations on the structure and formation of the zygote wall inMicrasterias papillifera (Desmidiaceae) II. The structure of the mesospore and the endospore

Summary The mesospore (460–500 nm thick) which is responsible for the resistance of the zygote against desiccation during its resting period, consists of four layers of different electron density. The layers Mes a and Mes c are composed of densely packed amorphous globular elements of a substance resembling sporopollenine. The layer Mes b has a fibrillar, probably cellulosic frame. It is incrusted by a substance which is not identical with that of Mes a or Mes c but which shows a comparable resistance against degradation.The layer Mes d contains isolated particles such as in Mes c and cellulose microfibrils of the endospore. The endospore (650 nm thick) has foliate texture. This layer surrounds the protoplast after it has escaped from the ruptured exospore and mesospore during zygospore germination.

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Der Deutschen Forchungsgemeinschaft dank ich f:ur Sachbeihilfe.     

Linear differentation of cereal chromosomes

Summary The BSG test was used in an investigation of the linear differentiation in rye variety Zhitkinskaya, common wheat variety Aurora and two secondary Triticale namely AD-196 and F-1239.Chromosomes of Aurora variety and wheat chromosomes within Triticale may be easily divided into constant and variable chromosomes as described previously (lordansky et al. 1977; Zurabishvili et al 1977).It is necessary to emphasize that the diversity of variable chromosomes underlies karyotypical polymorphism within wheat and Triticale species. The polymorphism observed exists in parallel with strict homomorphism of homologous chromosomes.In IB chromosomes of Aurora variety, the short arm is substituted by the rye chromosome arm. The karyotype of Triticale AD-196 consists of six pairs of rye chromosomes and fifteen pairs of wheat chromosomes.     

Esterase isozymes in rye — characterization,genetic control and chromosomal location

Summary The zymogram phenotypes that Chinese Spring-Imperial, Holdfast-King II and Kharkov-Dakold wheat-rye addition lines presented for esterase isozymes were determined using polyacrylamide gel ectrophoresis. The analyses were carried out with different parts of the dry kernel, namely embryo plus scutellum and endosperm, leaves and roots. In all cases, embryo plus scutellum, endosperm and leaf presented different patterns of esterases. The patterns of leaves and roots were the same. Results indicate that rye esterases exist as monomers and dimers. Dimeric esterases are controlled by one locus located on the 3R chromosomes of Imperial, King II and Dakold rye cultivars. Five loci involved in the production of monomeric esterases have been located on the 6R chromosomes of these cultivars, specifically on the long arm of the King II 6R chromosome. On the basis of these results, considerations concerning chromosome homoeology and homology are made.     

Synthesis and secretion of caseins by the mouse mammary gland: Production and characterization of new polyclonal antibodies

Polyclonal antibodies to mouse - and /-caseins were raised in rabbits. These antibodies display tissue- and species specificity as shown by immunoblotting. Immunohistochemical analyses demonstrate that both - and /-caseins were synthesized and secreted from virtually all lactating mammary epithelial cells, in a pattern very similar to that of the mouse -lactalbumin. Residual amounts of caseins were located also in the apical surface of epithelial cells surrounding the ducal lumen of virgin mammary gland sections. In contrast to the significant level of -casein in the milk, the amount of this protein compared to - or -caseins was extremely low in medium conditioned for 24 h by mammary explants of mid-pregnant mice immediately after explantation or after 4 days.