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HIGH VOLTAGE ELECTRON MICROSCOPY OF FIBRIN FILM (1983)

Müller, Michael F. ; Ris, Hans ; Ferry, John D.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 408 (1983), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1983.tb23290.x

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Electron microscopy of the spindle in locally heated cells (1979)

Nicklas, R. Bruce ; Kubai, Donna F. ; Ris, Hans

Springer

Chromosoma 74 (1979), S. 39-50

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Individual living cells in metaphase were exposed to a steep temperature gradient by placing a microheater near one spindle pole. The cells were then fixed and the spindle was examined by electron microscopy. The structure of the warmer half-spindle differed from the cooler half-spindle in several ways. Kinetochore microtubules were nearly parallel in the warmer half-spindle but were divergent in the cooler. The total length of microtubules in the warmer half-spindle was 52 per cent greater and the number of kinetochore microtubules per kinetochore averaged 16 per cent higher than in the cooler half-spindle. The warmer half-spindle was longer than the cooler. These observations clearly demonstrate a locally enhanced assembly of microtubules in the warmer half-spindle. The electron microscope study makes still clearer the unusual character of chromosome movement in the differentially heated cells: the structure of the warmer half-spindle is hard to distinguish from that in normal cells, yet chromosome movement there is far slower than normal (Nicklas, 1979).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00344481

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Structure of kinetochore fibers: Microtubule continuity and inter-microtubule bridges (1981)

Witt, Patricia L. ; Ris, Hans ; Borisy, Gary G.

Springer

Chromosoma 83 (1981), S. 523-540

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract To understand how microtubules interact in forming the mitotic apparatus and orienting and moving chromosomes, the precise arrangement of microtubules in kinetochore fibers in Chinese hamster ovary cells was examined. Individual microtubules were traced, using high voltage electron microscopy of serial 0.25 μm sections, from the kinetochore toward the pole. Microtubule arrangement in kinetochore fibers in untreated mitotic cells and in cells recovering from Colcemid arrest were similar in two respects: the number of microtubules per kinetochore (mean 14 and 12, respectively) and the nearest neighbor intermicrotubule distance (mean∼90 nm). In Colcemid recovered cells, over 90% of the microtubules in kinetochore fibers were attached to the kinetochore (i.e. kinetochore microtubules) and extended most or all of the distance to the pole. Few free microtubules were present in the kinetochore fibers; most non-kinetochore microtubles terminated in the pole. Since kinetochores in this Colcemid-recovered system have been demonstrated to nucleate microtubules (Witt et al., 1980), it seems likely that most if not all of these kinetochore microtubules originated at the kinetochore. Some of the reconstructed kinetochore fibers were attached to chromosomes with bipolar orientation, suggesting that kinetochore microtubules need not interact with many polar microtubules for orientation to occur. In Colcemid recovered cells lysed to reduce cytoplasmic background, microtubules in kinetochore fibers were preferentially preserved. The parallel and near-hexagonal order typical of microtubules in kinetochore fibers was maintained, as was the number of kinetochore microtubules (mean, 13). The intermicrotubule distance was slightly reduced in lysed cells (mean, 60 nm). Crossbridges about 5 nm wide and 30–40 nm long were visible in kinetochore fibers of lysed cells. Such crossbridges probably contribute to the stabilization and parallel order of microtubules in kinetochore fibers, and may have a functional role as well.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00328277

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Structure of the mammalian kinetochore (1981)

Ris, Hans ; Witt, Patricia L.

Springer

Chromosoma 82 (1981), S. 153-170

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The structure of the mammalian trilaminar kinetocnore was investigated using stereo electron microscopy of chromosomes in hypotonie solutions which unraveled the chromosome but maintained microtubules. Mouse and Chinese hamster ovary cells were arrested in Colcemid and allowed to reform microtubules after Colcemid was removed. Recovered cells were then swelled, lysed or spread in hypotonic solutions which contained D2O to preserve microtubules. The chromosomes were observed in thin and thick sections and as whole mounts using high voltage electron microscopy. Bundles of microtubules were seen directly attached to chromatin, indicating that the kinetochore outer layer represents a differential arrangement of chromatin, continuous with the body of the chromosome. In cells fixed without pretreatment, the outer layer could be seen to be composed of hairpin loops of chromatin stacked together to form a solid layer. The hypotonically-induced unraveling of the outer layer was found to be reversible, and the typical 300 nm thick disk reformed when cells were returned to isotonic solutions. Short microtubules, newly nucleated after Colcemid removal, were found not to be attached to the kinetochore outer layer, but were situated in the fibrous corona on the external surface of the outer layer. This was verified by observations of thick sections in stereo which made it possible to identify microtubule ends within the section. Thus, kinetochore microtubules are nucleated within the fibrous corona, and subsequently become attached to the outer layer.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00286101

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Origin of kinetochore microtubules in Chinese hamster ovary cells (1980)

Witt, Patricia L. ; Ris, Hans ; Borisy, Gary G.

Springer

Chromosoma 81 (1980), S. 483-505

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ISSN: 1432-0886

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract We have attempted to determine whether chromosomal microtubules arise by kinetochore nucleation or by attachment of pre-existing microtubules. The appearance of new microtubules was investigated in vivo on kinetochores to which microtubules had not previously been attached. The mitotic apparatus of Chinese hamster ovary cells was reconstructed in three dimensions from 0.25 μm thick serial sections, and the location of chromosomes, kinetochore outer disks, centrioles, virus-like particles and microtubules determined. Central to the interpretation of these data is a synchronization scheme in which cells entered Colcemid arrest without forming mitotic microtubules. Cells were synchronized by the excess thymidine method and exposed to 0.3 μg/ml Colcemid for 8 h. Electron microscopic examination showed that this Colcemid concentration eliminated all microtubules. Mitotic cells were collected by shaking off, and cell counts showed that over 95% of the cells were in interphase when treatment began and thus were arrested without the kinetochores having been previously attached to microtubules. Cells were then incubated in fresh medium and fixed for high voltage electron microscopy at intervals during recovery. — In early stages of recovery, short microtubules were observed near and in contact with kinetochores and surrounding centrioles. Microtubules were associated with kinetochores facing away from centrosomes and far from any centrosomal microtubules, and thus were not of centrosomal origin. At a later stage of recovery, long parallel bundles of microtubules, terminating in the kinetochore outer disk, extended from kinetochores both toward and away from centrosomes. Because microtubules had never been attached to kinetochores, the possibility that kinetochore microtubles were initiated by microtubule stubs resistant to Colcemid was eliminated. Therefore we conclude that mammalian kinetochores can initiate microtubules in vivo, thus serving as microtubule organizing centers for the mitotic spindle, and that formation of kinetochore-microtubule bundles is not dependent on centrosomal activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00368158

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