Explore Confocal Microscopy, Fresh Water and more!

Explore related topics

Image of the Week - December 23, 2013  CIL:41647 - http://www.cellimagelibrary.org/images/41647  Confocal micrograph of a Halammohydra schulzei, which is a hydra-type fresh-water cnidarian less than 1 millimeter long. 2011 Olympus BioScapes Digital Imaging Competition®.  Andreas Schmidt-Rhaesa and the 2011 Olympus BioScapes Digital Imaging Competition®  Attribution Non-Commercial No Derivatives: This image is licensed under a Creative Commons Attribution, Non-Commercial, No Derivatives…

Image of the Week - December 23, 2013 CIL:41647 - http://www.cellimagelibrary.org/images/41647 Confocal micrograph of a Halammohydra schulzei, which is a hydra-type fresh-water cnidarian less than 1 millimeter long. 2011 Olympus BioScapes Digital Imaging Competition®. Andreas Schmidt-Rhaesa and the 2011 Olympus BioScapes Digital Imaging Competition® Attribution Non-Commercial No Derivatives: This image is licensed under a Creative Commons Attribution, Non-Commercial, No Derivatives…

Shiga Toxin! Image of the Week - April 10, 2017    http://www.cellimagelibrary.org/images/38952    A confocal micrograph of an intestinal biopsy from a child infected with shiga toxin-producing E. coli. Shiga toxin is an extremely potent toxin that is produced when the bacterium contains a bacteriophage carrying the toxin gene. In this image, the toxin (green) has crossed into the intestine and is binding to the endothelial cells of the lamina propria (red).  S. Schuller  CC BY-NC-ND 2.0 UK

Shiga Toxin! Image of the Week - April 10, 2017 http://www.cellimagelibrary.org/images/38952 A confocal micrograph of an intestinal biopsy from a child infected with shiga toxin-producing E. coli. Shiga toxin is an extremely potent toxin that is produced when the bacterium contains a bacteriophage carrying the toxin gene. In this image, the toxin (green) has crossed into the intestine and is binding to the endothelial cells of the lamina propria (red). S. Schuller CC BY-NC-ND 2.0 UK

Cardiomyocytes! - Image of the Week - August 31, 2015  CIL:48106 - http://www.cellimagelibrary.org/images/48106  Description: Rat cardiomyocytes were plated and stained for actin (in red), desmin (in green) to reveal the intermediate filament essential for the structural integrity and function of muscle, and DAPI (in blue) to label nuclei.  Author: Natalie Prigozhina  Licensing: Attribution Only: This image is licensed under a Creative Commons Attribution License

Cardiomyocytes! - Image of the Week - August 31, 2015 CIL:48106 - http://www.cellimagelibrary.org/images/48106 Description: Rat cardiomyocytes were plated and stained for actin (in red), desmin (in green) to reveal the intermediate filament essential for the structural integrity and function of muscle, and DAPI (in blue) to label nuclei. Author: Natalie Prigozhina Licensing: Attribution Only: This image is licensed under a Creative Commons Attribution License

Confocal micrograph of the brain of a transgenic zebrafish embryo http://www.cellimagelibrary.org/images/39025

Confocal micrograph of the brain of a transgenic zebrafish embryo http://www.cellimagelibrary.org/images/39025

Invasion! - Image of the Week - January 9, 2017  CIL:38936 - http://www.cellimagelibrary.org/images/38936  Confocal micrograph showing Shigella bacteria (pink) invading the intestinal lining. The bacteria infects the cells by high-jacking the cell's internal actin skeleton (green) to facilitate its entry into the cell and spread into adjoining cells, using polymerizing actin comet tails as several can be seen doing here.   S. Schuller  CC BY-NC-ND 2.0 UK

Invasion! - Image of the Week - January 9, 2017 CIL:38936 - http://www.cellimagelibrary.org/images/38936 Confocal micrograph showing Shigella bacteria (pink) invading the intestinal lining. The bacteria infects the cells by high-jacking the cell's internal actin skeleton (green) to facilitate its entry into the cell and spread into adjoining cells, using polymerizing actin comet tails as several can be seen doing here. S. Schuller CC BY-NC-ND 2.0 UK

Image of the Week - November 17, 2014  CIL: 38979 - http://www.cellimagelibrary.org/images/38979  Description: A confocal image of breast cancer cells in culture. The cell to the lower left is dying.  Author: David Becker  Licensing: Attribution-NonCommercial-NoDerivs 2.0 UK: England & Wales (CC BY-NC-ND 2.0 UK)

Image of the Week - November 17, 2014 CIL: 38979 - http://www.cellimagelibrary.org/images/38979 Description: A confocal image of breast cancer cells in culture. The cell to the lower left is dying. Author: David Becker Licensing: Attribution-NonCommercial-NoDerivs 2.0 UK: England & Wales (CC BY-NC-ND 2.0 UK)

The Cell: An Image Library - Image CIL:35416  See this Video at The Cell  Video this week!  Image of the Week - August 19, 2013  http://www.cellimagelibrary.org/images/35416  Zebrafish midbrain hindbrain morphogenesis as seen with bodipy-ceramide and fluorescent dextran labeling. Video made available by Mark Cooper through Zebrafish - The Living Laboratory. Tobias Langenberg and Michael Brand  Creative Commons Attribution, Non-Commercial Share Alike License.

The Cell: An Image Library - Image CIL:35416 See this Video at The Cell Video this week! Image of the Week - August 19, 2013 http://www.cellimagelibrary.org/images/35416 Zebrafish midbrain hindbrain morphogenesis as seen with bodipy-ceramide and fluorescent dextran labeling. Video made available by Mark Cooper through Zebrafish - The Living Laboratory. Tobias Langenberg and Michael Brand Creative Commons Attribution, Non-Commercial Share Alike License.

Maximum intensity projection of Golgi impregnated pyramidal neurons in the neocortex of an adult mouse, imaged via serial block-face scanning electron microscopy

Maximum intensity projection of Golgi impregnated pyramidal neurons in the neocortex of an adult mouse, imaged via serial block-face scanning electron microscopy

Pinterest
Search