Matches in Nanopublications for { ?s ?p "DNA point accumulation for imaging in nanoscale topography (DNA-PAINT) facilitates multiplexing in superresolution microscopy but is practically limited by slow imaging speed. We have developed DNA-PAINT-ERS, where E=ethylene carbonate, R=repeating sequence, and S=spacer, for fast and multiplexed superresolution imaging with DNA-PAINT. Here we describe detailed procedures for DNA-PAINT-ERS including reagent preparation, sample labeling, as well as image acqusition and analysis." ?g. }
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- RAFt6stRZSIiuA-w5go4rzFRQJci2Ez9yYnRw60sQMcYQ.step description "DNA point accumulation for imaging in nanoscale topography (DNA-PAINT) facilitates multiplexing in superresolution microscopy but is practically limited by slow imaging speed. We have developed DNA-PAINT-ERS, where E=ethylene carbonate, R=repeating sequence, and S=spacer, for fast and multiplexed superresolution imaging with DNA-PAINT. Here we describe detailed procedures for DNA-PAINT-ERS including reagent preparation, sample labeling, as well as image acqusition and analysis." RAFt6stRZSIiuA-w5go4rzFRQJci2Ez9yYnRw60sQMcYQ.assertion.
- step description "DNA point accumulation for imaging in nanoscale topography (DNA-PAINT) facilitates multiplexing in superresolution microscopy but is practically limited by slow imaging speed. We have developed DNA-PAINT-ERS, where E=ethylene carbonate, R=repeating sequence, and S=spacer, for fast and multiplexed superresolution imaging with DNA-PAINT. Here we describe detailed procedures for DNA-PAINT-ERS including reagent preparation, sample labeling, as well as image acqusition and analysis." assertion.