The two upper panels of this video show different views of a cell while the lower left shows the presence of bubbles, called vesicles, within it. On the lower right, the thin petals can be see in cross-section as they form, ripple over the cell, and subside. Built from 40,000 images, this video provides scientists with an unprecedented amount of visual information.
Cellular projections called filopodia grow and contract on the surface of this cell, waving like tiny limbs or porcupine quills.
Chromosomes in a cell line up next to each other and then slide apart as they are partitioned into two daughter cells.
Two neural mapping techniques illuminate the delicate architecture of flies’ brains.
NOCSAE, an independent and non-profit standard-setting body, has developed sophisticated performance and standard tests for football helmets and facemasks, as well as other sports, and is a leader in scientific research to understand concussions and head injury. This is a drop test to the side of the helmet.
NOCSAE, an independent and non-profit standard-setting body, has developed sophisticated performance and standard tests for football helmets and facemasks, as well as other sports, and is a leader in scientific research to understand concussions and head injury. This test is testing the linear impact.
The research could reveal how neural circuits work together in response to their environment.
In this video, researchers use a computer program control the position of magnetic pill inside a rat's intestine.
Researchers improved on a technique called stimulated Raman spectroscopy to capture real-time images in the skin of living mice. To observe the absorption of trans-retinol, a common skin-care product, into a mouse’s skin, the team tuned two lasers to the frequency of a lipid in the drug and trained the lasers on the application site, yielding images in real time of the drug traveling down a hair shaft into the sebaceous gland.
Using stimulated Raman spectroscopy, researchers tuned lasers to the frequency of proteins in red blood cells. They trained the lasers on blood vessels in the ear of a mouse. A detector captured the resulting protein signals, translating them into images, which researchers sequenced together to create a video of red blood cells flowing through the capillaries of a mouse. The movie shows a Y-shaped junction of blood capillaries with individual red blood cells.