[HTML][HTML] Formalin-induced fluorescence reveals cell shape and morphology in biological tissue samples
U Leischner, A Schierloh, W Zieglgänsberger… - PloS one, 2010 - journals.plos.org
U Leischner, A Schierloh, W Zieglgänsberger, HU Dodt
PloS one, 2010•journals.plos.orgUltramicroscopy is a powerful tool to reveal detailed three-dimensional structures of large
microscopical objects. Using high magnification, we observed that formalin induces
fluorescence more in extra-cellular space and stains cellular structures negatively, rendering
cells as dark objects in front of a bright background. Here, we show this effect on a three-
dimensional image stack of a hippocampus sample, focusing on the CA1 region. This
method, called FIF-Ultramicroscopy, allows for the three-dimensional observation of cellular …
microscopical objects. Using high magnification, we observed that formalin induces
fluorescence more in extra-cellular space and stains cellular structures negatively, rendering
cells as dark objects in front of a bright background. Here, we show this effect on a three-
dimensional image stack of a hippocampus sample, focusing on the CA1 region. This
method, called FIF-Ultramicroscopy, allows for the three-dimensional observation of cellular …
Ultramicroscopy is a powerful tool to reveal detailed three-dimensional structures of large microscopical objects. Using high magnification, we observed that formalin induces fluorescence more in extra-cellular space and stains cellular structures negatively, rendering cells as dark objects in front of a bright background. Here, we show this effect on a three-dimensional image stack of a hippocampus sample, focusing on the CA1 region. This method, called FIF-Ultramicroscopy, allows for the three-dimensional observation of cellular structures in various tissue types without complicated staining techniques.
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