Vutara will be attending European Light Microscopy Initiative meeting (ELMI) [...]
The Vutara® SR-200 microscope was created to take cellular research to the next dimension. The scope employs advanced single-molecule and particle localization techniques to generate revolutionary images in both 2 colors and 3 dimensions, with the most powerful and intuitive software available!
The Vutara® SR-200 is the only purpose-built super-resolution microscope available – designed from the ground up for this advanced imaging modality. The entire system has been optimized for acquiring and analyzing super-resolution images with speed, simplicity and stability.
Utilizing a patented Biplane Imaging™ technique, the SR-200 brings unrivaled imaging capabilities, including:
- Lateral resolution of 20 nanometers*
- Axial resolution of 50 nanometers*
- Up to 5-micron imaging depth (with z-stack acquisition)*
- Simultaneous 2-color imaging in super-resolution mode (up to 4 colors in wide-field mode)*
- 3D particle tracking with ~10nm precision*
- Powerful and intuitive software for acquisition, analysis and visualization
*Performance of the instrument is dependent on the appropriate labeling of the sample
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- Microtubules in BSC1 cell
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- Microtubules color coded for depth in a BSC1 cell
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- Alpha-tubulin in BSC1 cells
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- Tubulin color coded for depth in BSC1 cell
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- Tubulin imaged in COS7 cell. Color represents z-depth. (Image courtesy of Nicolas Olivier, Suliana Manley lab, EPFL, Switzerland)
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- Vimentin (type III Intermediate Filament) with color representing z-depth in COS7 cells example #2
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- LaminB (nuclear membrane) in Ptk2 cells with color representing z-depth
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- LaminB (nuclear membrane) in Ptk2 cells with color representing z-depth
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- SR-200 super-resolution image of E. Coli with color representing z-depth “standing up” on coverslip (red)
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- Two color super-res image of midbody protein (red) and microtubules (green) in a HeLa cell
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- Vimentin (type III Intermediate Filament) with color representing z-depth in Ptk2 cells
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- Vimentin (type III Intermediate Filament) with color representing z-depth in COS7 cells example #1
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- Drosophila larva: green- frizzled receptor; red-lamin C receptor imaged in whole mount drosophila larva (Image courtesy of Sean Speese, OHSU)
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- Drosophila larva yz view
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- Drosophila larva zoom in view
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- 3D view of a surface-labelled microsphere with 3.27 um diameter
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- Two color 3D Drosophila movie
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- 3D Movie of lamin B (Green) and vimentin (Red)
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- Movie of 3.2 um surface-labelled microsphere z-slices
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- 3D movie of 3.2 um microsphere
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- Lamin B movie
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- Tubulin with parallel strands in Ptk2 cells
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- Tubulin parallel strands visualized in xz-projection (z-dimension is vertical) in Ptk2 cells
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- Tubulin with color representing z-depth in COS7 cells example #1
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- Tubulin with color representing z-depth in COS7 cells example #2
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- SR-200 volume rendering of C. Elegans nerve ring
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- SR-200 super-resolution image of C. Elegans nerve ring displaying single fluorescent molecules
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- Confocal image of a nerve ring in C. Elegans tagged with snt-1:tdEOS
