View allAll Photos Tagged cell
Once more, that time is officially upon us --
Autumn.
And the best thing about autumn?
Dead leaves with sexy, sexy waterdrops all over them.
That's what I'm talking about, Flickr. Ooooh yeah.
Oh, and if you care:
More writing tips from me over at Terribleminds --
terribleminds.com/ramble/2009/11/04/kiyaa-i-punch-your-fa...
These fake Palm Trees are not only all over the city, they are all over the country. They are equipped with speakers so that all persons can hear the morning and evening call to prayer...They also act as cell towers +++
We put a tiny clump of moss under the stereo microscope and detached a single leaf from the plant. We then transferred the leaf to the high powered microscope, got it into focus, and took a photo down the eye piece. This is the result. You can clearly see the cell structure and shape and also the green chloroplasts within the cells.
Lee Mee Beauty
Makeup | Eyelash extension service |Tattoo- Permanent Makeup
Bridal l Wedding l Fashion l Free Style l Party Makeup
Fanpage: Makeup Lee Mee
Flick: www.flickr.com/photos/makeupleemee
Cell: (530) 400 0634 ( call) - 530 760 6414
IMMURED in Heaven! What a Cell!
Let every bondage be,
Thou Sweetest of the Universe,
Like that which ravished thee!
Emily Dickinson
On February 7th I had a surgical procedure that put me on crutches for three weeks. During that time I experimented in different ways I could practice photography while basically at home seated. By using half & half, food coloring, and vegetable oil I was able to create some very interesting images, including this one.
Cell Phones bring you closer to the person far from you
But take you away from the ones sitting next to you!
Taken at the Eastern State Penitentiary
This is Cell Block Seven
Specs
Minolta Maxxum 70
28-100lens with hood
No Flash
Kodak PX 400
negative scan
1.5 degree rotation with crop
Hasselblad 501CM with Zeiss Distagon f3.5 60mm CF, Kodak Portra 400, developed in Tetenal Rapid C41
Developing time 8 mins at 30C. I kept getting uneven results with the standard 3.15 mins at 38C, so I tried the alternative process once more, this is a lot better.
Scanning electron microscope image of T regulatory cells (red) interacting with antigen-presenting cells (blue). T regulatory cells can suppress responses by T cells to maintain homeostasis in the immune system.
Credit: National Institute of Allergy and Infectious Diseases/NIH
This tug boat has been tied up in this spot for the last twenty years. It has been a family live aboard in Sausalito. The picture was taken on the Sun Set cruise with a Samsung Galaxy S-5.
iPS cells reprogrammed from a woman's skin. Blue shows nuclei. Green and red indicate proteins found in reprogrammed cells but not in skin cells (TRA1-62 and NANOG). These cells can be matured into cells of the body, and used for studying models of disease.
The image was taken in the laboratory of Kathrin Plath at the University of California, Los Angeles.
Learn more about CIRM-funded stem cell research: www.cirm.ca.gov.
A breast cancer cell, photographed by a scanning electron microscope, which produces a 3-dimensional images. The overall shape of the cell's surface at a very high magnification. Cancer cells are best identified by internal details, but research with a scanning electron microscope can show how cells respond in changing environments and can show mapping distribution of binding sites of hormones and other biological molecules.
Credit: Bruce Wetzel and Harry Schaefer, National Cancer Institute, National Institutes of Health
The staircases in each building group are enclosed by a giant object that represents the decade. In the 90s buildings, it's a giant cell phone.
This normal human skin cell was treated with a growth factor that triggered the formation of specialized protein structures that enable the cell to move. We depend on cell movement for such basic functions as wound healing and launching an immune response.
Credit: Torsten Wittmann, University of California, San Francisco
Life Magnified: www.nigms.nih.gov/education/life-magnified/Pages/3_bottom...
NIH funding from: National Institute of General Medical Sciences
Without an extreme wide angle lens, the only way to fit this vast array of pipework, hydraulics and gantries into one picture was to stitch shot together. This is a 2 shot panorama of cell 4 in all its glory. It is fairly impossible to convey the size of this place through photographs alone; suffice to say, everything about the site is BIG. By far the best explore I've done yet, and certainly the most tense for parts of it!
This image shows a longitudinal section of a root tip of Maize (Zea mays). To the left of the image, the large, loosely packed cells of the root cap can be seen. These cells protect the actively dividing meristematic tissue as the root grows down through the soil. This meristematic tissue is located just to the right of the root cap, where the cells are small and undifferentiated. If you follow the lines of cells towards the right, you can see that they increase in length in the zone of elongation. To the right of this zone, the cells become further differentiated, eventually assuming the mature structure related to their function.
This image is taken from a slide in the Botanical slide collection, Department of Plant Sciences, Cambridge. The specimen had been stained with Safranin O and Fast Green and was captured using a confocal microscope. These stains are often used together as general stains on plant material prepared for light microscopy and between them they stain many subcellular structures. The resulting colours are due to a combination of the stains and fluorescent colours in the cells.
The length of the section is approximately 300 µm.
Image by J. Haseloff