The thumbnail images on this page may take some time to load. We have made a collection of very high resolution images which can be used for display purposes, teaching, murals, wall paper, wrapping paper or tabletops. The typical digital cameras used for fluorescence imaging are of relatively low resolution, typically in the range of 2 or so megapixels, which means they do not look sharp when printed even at relatively small sizes. Our images were generated by fusing multiple lower resolution confocal images to generate a final file in the range of 15-40 megapixels. This means that they still look sharp and clear when printed at very large sizes. We routinely print at 24″X36″ or about 60cmsX90cms and also 20″X29″ which can be ordered on-line. Or you can simply fill out our order form here, and email to admin@encorbio.com, or fax the form to us at 352 372 7066. We can also perform custom printing if required, contact us by email if you are interested.
Mixed embryo day 20 rat cortical cultures stained with CPCA-2A52 mouse monoclonal antibody to vimentin in green and rabbit antibody RPCA-GFAP to glial fibrillary acidic protein (GFAP) in red. Antibodies generated by EnCor Bitechnology Inc. Different kinds of glial cell contain differing amounts of these two proteins so cells appear as red, green or yellowish. Nuclei of neurons and glia are seen in blue with the DNA stain DAPI.
Mixed embryo day 20 rat cortical cultures stained with CPCA-MAP2 chicken polyclonal antibody to microtubule associated protein 2 (MAP2) in green and rabbit antibody RPCA-GFAP to glial fibrillary acidic protein (GFAP) in red. The MAP2 antibody binds to perikarya and dendrites of neurons, while the GFAP antibody binds processes of astrocytes. Antibodies generated by EnCor Biotechnology Inc. Nuclei of neurons and glia are seen in blue with the DNA stain DAPI.
Mixed embryo day 20 rat cortical cultures stained with CPCA-UCHL1 chicken polyclonal antibody to ubiquitin C-terminal hydrolase 1 (UCHL1) in green and rabbit antibody RPCA-GFAP to glial fibrillary acidic protein in green. UCHL1 antibody binds neuronal cells, while GFAP binds astrocytes. Antibodies generated by EnCor Biotechnology Inc. Nuclei of neurons and glia are seen in blue with the DNA stain DAPI.
Mixed embryo day 20 rat cortical cultures stained with MCA-5C10 mouse monoclonal antibody to glial fibrillary acid protein (GFAP) in green and chicken polyclonal antibody CPCA-Vim in red. Nuclei of neurons and glia are seen in blue with the DNA stain DAPI. Different glial cells have differing levels of the two proteins and so appear green if they mostly contain GFAP, red if they contain mostly vimentin or yellowish if they contain both proteins. Images genereated using antibodies manufactured by EnCor Biotechnology Inc. using an Olympus FV1000 confocal microscope.
Mixed embryo day 20 rat cortical cultures stained with monoclonal antibodyto vimentin MCA-2A52 and chicken polyclonal antibody CPCA-GFAP to glial fibrillary acidic protein (GFAP). Nuclei of neurons and glia are seen in blue with the DNA stain DAPI Different cells have different levels of the two proteins, so cells appear as primarily redish, greenish or, if they contain both proteins, yellowish. Images generated with antbodies manufactured by EnCor Biotechnology Inc. and captured on an Olympus FV1000 confocal microscope.
Mixed embryo day 20 rat cortical cultures stained with CPCA-MAP2 chicken polyclonal antibody to microtubule associated protein 2 (MAP2) in red and MCA-5E10 mouse monoclonal to glial fibrillary acidic protein (GFAP) in green. Nuclei of neurons and glia are seen in blue with the DNA stain DAPI. Neuronal perikarya and dendrites appear in red while astrocytic glia appear in green. Images generated with antbodies manufactured by EnCor Biotechnology Inc. and captured on an Olympus FV1000 confocal microscope.
