![(a) Three-dimensional Ex-dSTORM of 3.2 times expanded centrioles. Measuring bar one micrometer. (b) The enlarged section of (a) shows the nine-fold symmetry of the percentile. Measuring bar 500 nanometers. (c) Three-dimensional Ex-dSTORM of 3.1-fold expanded tubulin filaments. Measuring bar two microns. (d) The magnification in (c) shows a tubulin filament; measuring bar 500 nanometers. (e) The cross-section of a tubulin filament shows its hollow structure. Measuring bar 200 nanometres.](/fileadmin/_processed_/5/e/csm_27Ex-dStorm_9ed022f503.jpg)
The smallest cell structures can now be imaged even better: The combination of two microscopy methods makes fluorescence imaging with molecular resolution possible for the first time.
moreThe smallest cell structures can now be imaged even better: The combination of two microscopy methods makes fluorescence imaging with molecular resolution possible for the first time.
moreNew details are known about an important cell structure: For the first time, two Würzburg research groups have been able to map the synaptonemal complex three-dimensionally with a resolution of 20 to 30 nanometres.
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