The Vutara VXL comprehensive biological workstation for nanoscale biological imaging enables super-resolution single-molecule localization microscopy (SMLM) technology in a streamlined system with compact footprint. The system enables research on DNA, RNA and proteins, from macromolecular complexes and super-structures, to chromatin structure and chromosomal substructures, to studying functional relationships in genomes and in various subcellular organelles. It supports advanced spatial biology research in extracellular matrix structures, extracellular vesicles (EV), virology, neuroscience, and live-cell imaging. It is combined with Bruker’s microscope fluidics unit, Vutara VXL enables multiplexed imaging for targeted, sub-micrometer multiomics in genomics, transcriptomics, and proteomics research.
- Achieves depths of >30 μm imaging with proprietary biplane technology.
- Provides easy yet unlimited multiplexed imaging for spatial genomics, transcriptomics, and proteomics.
- Proprietary biplane technology, combined with a spatial filter in the emission light path, allows you to acquire 3D data with every acquisition. For thicker specimens, the Vutara allows you to easily perform a Z series and automatically localizes and reconstructs the entire volume.
- Making cultured cells, cell colonies, tissue sections, and entire model organisms accessible for single-molecule localization experiments.
- The platform with SRX software is also capable of performing ORCA (Optical Reconstruction of Chromatin Architecture)
Please follow this link for further information https://www.bruker.com/en/products-and-solutions/fluorescence-microscopy/super-resolution-microscopes/vutara-vxl.html
Currently our services on the Vutara VXL include:
- Support for the design and application of a custom experiment, from live cell and tissue imaging to spatial and ORCA.
- Imaging and analysis of already prepared samples (without any processing or oligoPaint, etc).