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Konfokale Fluoreszenzmikroskopie in der Zellbiologie (1991)

Stelzer, Ernst H. K. ; Merdes, Andreas ; De Mey, Jan

Weinheim : Wiley-Blackwell

Biologie in unserer Zeit 21 (1991), S. 19-25

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ISSN: 0045-205X

Keywords: Life and Medical Sciences

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology

Notes: Der Zellbiologe ist daran interessiert, spezifische Strukturen in Zellen sichtbar zu machen, urn mit dem Mikroskop die Morphologie zu untersuchen. Dabei macht er sich die Eigenschaften von Antikörpern zunutze, die bestimmte Moleküle innerhalb der Zelle erkennen und gezielt an ihnen binden. Um den Bindungsort der spezifischen Antikörper sichtbar zu machen, wird ein zweiter Antikörper zugefügt, der an die Oberfläche des ersten Antikörpers bindet. Dieser zweite Antikörper ist mit einem fluoreszierenden Molekül gekoppelt, das mit Licht einer kürzeren Wellenlänge angeregt wird und Licht einer längeren Wellenlänge wieder ausstrahlt (Abbildung 1). Mit Filtern lassen sich Anregung und Abstrahlung trennen, und die markierten Strukturen der Zelle leuchten in einem Fluoreszenzmikroskop hell auf. Die hier beschriebene Technik wird als indirekte Immunfluoreszenz bezeichnet, da erst der zweite Antikörper fluorochromiert ist.

Additional Material: 8 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/biuz.19910210109

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The three-dimensional architecture of the mitotic spindle, analyzed by confocal fluorescence and electron microscopy (1991)

Merdes, Andreas ; Stelzer, Ernst H. K. ; De Mey, Jan

New York, NY : Wiley-Blackwell

Journal of Electron Microscopy Technique 18 (1991), S. 61-73

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ISSN: 0741-0581

Keywords: Fluorescence microscopy techniques ; Poleward chromosome movement ; Microtubule dynamics ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Natural Sciences in General

Notes: Fluorescence microscopy techniques have become important tools in mitosis research. The well-known disadvantages of fluorescence microscopy, rapid bleaching, phototoxicity and out-of-focus contributions blurring the in-focus image are obstacles which still need to be overcome. Confocal fluorescence microscopy has the potential to improve our capabilities of analyzing cells, because of its excellent depth-discrimination and image processing power. We have been using a confocal fluorescence microscope for the study of the mechanism of poleward chromosome movement, and report here (1) a cell preparation technique, which allows labeling of fixation sensitive spindle antigens with acceptable microtubule preservation; (2) the use of image processing methods to represent the spatial distribution of various labeled elements in pseudocolour; (3) a novel immunoelectron microscopic labeling method for microtubules, which allows the visualization of their distribution in semithin sections at low magnification; and (4) a first attempt to study microtubule dynamics with a confocal fluorescence microscope in living cells, microinjected with rhodamine labeled tubulin.Our experience indicates that confocal fluorescence microscopy provides real advantages for the study of spatial colocalization of antigens in the mitotic spindle. It does not, however, overcome the basic limits of resolution of the light microscope. Therefore, it has been necessary to use an electron microscopic method. Our preliminary results with living cells show that it is possible to visualize the entire microtubule network in stereo, but that the sensitivity of the instrument is still too low to perform dynamic time studies. It will be worthwhile to further develop this new type of optical instrumentation and explore its usefulness on both fixed and living cells.

Additional Material: 7 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jemt.1060180110

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