Protein-retention expansion microscopy of cells and tissues labeled using standard fluorescent proteins and antibodies.
Paul W TillbergFei ChenKiryl D PiatkevichYongxin ZhaoChih-Chieh Jay YuBrian P EnglishLinyi Alex GaoAnthony MartorellHo-Jun SukFumiaki YoshidaEllen M DeGennaroDouglas H RoossienGuanyu GongUthpala SeneviratneSteven R TannenbaumRobert DesimoneDawen CaiEdward S BoydenPublished in: Nature biotechnology (2016)
Expansion microscopy (ExM) enables imaging of preserved specimens with nanoscale precision on diffraction-limited instead of specialized super-resolution microscopes. ExM works by physically separating fluorescent probes after anchoring them to a swellable gel. The first ExM method did not result in the retention of native proteins in the gel and relied on custom-made reagents that are not widely available. Here we describe protein retention ExM (proExM), a variant of ExM in which proteins are anchored to the swellable gel, allowing the use of conventional fluorescently labeled antibodies and streptavidin, and fluorescent proteins. We validated and demonstrated the utility of proExM for multicolor super-resolution (∼70 nm) imaging of cells and mammalian tissues on conventional microscopes.
Keyphrases
- high resolution
- induced apoptosis
- living cells
- label free
- single molecule
- quantum dots
- cell cycle arrest
- gene expression
- palliative care
- high throughput
- optical coherence tomography
- protein protein
- high speed
- cell death
- small molecule
- fluorescence imaging
- pet imaging
- signaling pathway
- hyaluronic acid
- endoplasmic reticulum stress
- pi k akt
- positron emission tomography
- ultrasound guided