%0 Journal Article %1 whelan2014focus %A Whelan, Donna R. %A Holm, Thorge %A Sauer, Markus %A Bell, Toby D. M. %B 2 %D 2014 %J Australian Journal of Chemistry %K sauer %P 179-183 %T Focus on Super-Resolution Imaging with Direct Stochastic Optical Reconstruction Microscopy (dSTORM) %U http://www.publish.csiro.au/paper/CH13499 %V 67 %X The last decade has seen the development of several microscopic techniques capable of achieving spatial resolutions that are well below the diffraction limit of light. These techniques, collectively referred to as ‘super-resolution’ microscopy, are now finding wide use, particularly in cell biology, routinely generating fluorescence images with resolutions in the order of tens of nanometres. In this highlight, we focus on direct Stochastic Optical Reconstruction Microscopy or dSTORM, one of the localisation super-resolution fluorescence microscopy techniques that are founded on the detection of fluorescence emissions from single molecules. We detail how, with minimal assemblage, a highly functional and versatile dSTORM set-up can be built from ‘off-the-shelf’ components at quite a modest budget, especially when compared with the current cost of commercial systems. We also present some typical super-resolution images of microtubules and actin filaments within cells and discuss sample preparation and labelling methods.

@article{whelan2014focus, abstract = {The last decade has seen the development of several microscopic techniques capable of achieving spatial resolutions that are well below the diffraction limit of light. These techniques, collectively referred to as ‘super-resolution’ microscopy, are now finding wide use, particularly in cell biology, routinely generating fluorescence images with resolutions in the order of tens of nanometres. In this highlight, we focus on direct Stochastic Optical Reconstruction Microscopy or dSTORM, one of the localisation super-resolution fluorescence microscopy techniques that are founded on the detection of fluorescence emissions from single molecules. We detail how, with minimal assemblage, a highly functional and versatile dSTORM set-up can be built from ‘off-the-shelf’ components at quite a modest budget, especially when compared with the current cost of commercial systems. We also present some typical super-resolution images of microtubules and actin filaments within cells and discuss sample preparation and labelling methods. }, added-at = {2014-02-13T09:53:15.000+0100}, author = {Whelan, Donna R. and Holm, Thorge and Sauer, Markus and Bell, Toby D. M.}, biburl = {https://www.bibsonomy.org/bibtex/232cb8d626bbe65825477464bc1e51819/reichert}, interhash = {b5e64afe1c3cc501b6c0e47eb2fc8921}, intrahash = {32cb8d626bbe65825477464bc1e51819}, journal = {Australian Journal of Chemistry}, keywords = {sauer}, pages = {179-183}, series = 2, timestamp = {2014-02-13T09:53:15.000+0100}, title = {Focus on Super-Resolution Imaging with Direct Stochastic Optical Reconstruction Microscopy (dSTORM)}, url = {http://www.publish.csiro.au/paper/CH13499}, volume = 67, year = 2014 }