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BioAxial manufactures high resolution imaging instruments for the life science and healthcare R&D communities. The company’s breakthrough technology and solutions enable imaging capabilities required for advanced research. BioAxial's CODIM is a add-on module which brings super resolution at a level of 100nm to confocal and widefield fluorescence microscope platforms. Based on a unique combination of fluorescence microscopy, crystal optics and proprietary algorithms, BioAxial’s instruments can measure 2D and 3D samples marked with a wide variety of standard fluorophores.
- - Value Proposition -
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Adoption of super-resolution imaging in cell biology labs is currently limited by 3 critical challenges: maintaining the integrity of biological samples, technical complexity, cost of ownership. BioAxial’s answer to these challenges is CODIM, a new and universal SR imaging modality.
- High performance super resolution multicolor imaging
- Seamless integration with all fluorescence microscopes
- Standard fluorescence microscopy sample preparation workflow
- Low photo-toxicity and photobleaching
- - Image Gallery -
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Mitotic Spindles and Cytoskeleton from HeLa Cells, PRC1-GFP, mRFP-CENP-B
Juraj Simunic, Laboratory for Cell Biophysics, Lab, Zagerb, Croatia
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Rat hippocampal neurons A488-beta-spectrin
Diana Zala, Brain Plasticity, Zsolt LeinKei Lab, ESPCI, Paris.
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FluoCells prepared slides
Thermo Fisher Scientific, F24631
CODIM (top), Confocal(bottom), 488 nm and 561nm excitation lasers, overlay, 60x1.49 objective on A1 Nikon. Alexa 488-Phallooidin for F-Action labelling; green fluorescent BODIPY for microtubules labelling. -
FluoCells prepared slides
Thermo Fisher Scientific, F24631
CODIM (top), Confocal(bottom), 488 nm and 561nm excitation lasers, overlay, 60x1.49 objective on A1 Nikon. Alexa 488-Phallooidin for F-Action labelling; green fluorescent BODIPY for microtubules labelling. -
Neural stem cells intermediate filaments and transcription factors, Nestin-A488 A647-Sox2
Courtesy of Paulina Ejsmont, Equipe 《Développement du Cerveau》, Hassam Bassem Lab, ICM, Hôpital Pitié -Salapêtrière, Paris.
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Neurons Golgi apparatus early endosomes and B-amyloid precursor protein, Rab5-A488 A55-APP
Courtesy of Paulina Ejsmont, Equipe 《Développement du Cerveau》, Hassam Bassem Lab, ICM, Hôpital Pitié -Salapêtrière, Paris.
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Multicilia cells, AlexaFluor 488, Phalloidin, F-Actin
L.-M. Zaragosi, IMPC, CNRS, Sophia Antipolis, France
Tile reconstruction. Confocal (on the left), CODIM (on the right), secalebar 1㎛. 488nm excitation laser, 60x 1.49NA oil immersion objective on a C2 Nikon -
Macrophage from drosophilia larvae, Alexa568 tubulin
Nicola Lawrence, Gurdon institute, Cambridge, UK
Tile reconstruction. Confocal (on the left), CODIM (on the right), secalebar 2㎛. 561nm excitation laser, 60x 1.2NA water immersion objective on a C2 Nikon