Nuevo método de microscopía en 3D revela nuevas perspectivas en la dinámica del esqueleto celularContributed by: Anonymous · Views: 1,134
Contributed by: Anonymous · September 11, 2007 @ 06:22 PM MDT · Views: 1,134
New 3D light microscopy method reveals new perspectives on the dynamics of the cell's skeleton
Left: Maximum-intensity projection of a 3D SPIM data set of a microtubule aster in high-speed interphasic Xenopus laevis egg extract. The 3D image stack contains 68 planes at 300 nm spacing. Tubulin labelled with TAMRA. Detection via Carl Zeiss W 100x/1.0 lens.
Right: 3D reconstruction of the microtubule aster with custom automated image processing routines. Green traces indicate microtubules that were partly located outside the recording volume. For those traces the last cross does not correspond to the plus-end, but rather to the position at which the tracing algorithm recognized an intersection of the microtubule's contour with the recording volume's boundaries. Red traces indicate MTs that were located fully inside the recording volume.
Microtubules form a network of protein filaments, which constantly grow and shrink. This network's behaviour is controlled by the intrinsic properties of many different proteins. Conventional microscopy studies microtubules and other filaments in artificial set-ups, which biases certain behaviour and introduces artefacts via the hard and flat surfaces of the surrounding glass chamber. Ernst Stelzer and his colleagues Philipp Keller and Francesco Pampaloni at EMBL have managed to overcome the limitations of traditional microscopy and discovered different microtubule behaviour in an unrestricted environment, resulting in a highly accurate characterisation of intrinsic microtubule dynamics in a close to life context.
The new method is currently being adopted to study other dynamic cellular processes. The authors expect their results to have a major impact on the understanding of the mechanical properties of tissue cells. This will also influence current nanobiotechnology and have a significant effect on cancer research.
P. Keller, F. Pampaloni, E. Stelzer. Three-dimensional preparation and imaging reveal intrinsic microtubule properties, Nature Methods, 9 September 2007
Credits: European Molecular Biology Laboratory (EMBL)