Date: 04.12.2013

the see through brain

A mouse brain imaged using the CLARITY technique.

Brain research has been getting lots of press since President Barack Obama announced his BRAIN initiative to map the human brain. Earlier this week, Nature published a paper by a group of Stanford researchers or a new technique called CLARITY. This technique allows the researchers to make whole organs transparent. They can then use different chemical compounds to label and highlight specific cells or features of the organ. They were able to demonstrate on brain tissue. From Popular Science:

Making these images is an eight-day process. The Stanford researchers started by infusing a mouse brain with a hydrogel solution. They then put the gel and brain into an incubator to set. (Like making Jell-O! Except that the setting, in this case, required a higher temperature rather than a lower one.)

The set gel bound to and physically supported most of the things in the brain. The gel didn’t bind to lipids, or fats, in the brain, however. Such fat is opaque and surrounds each cell. When researchers extracted this unbound fat, they were left with a clear view of everything else, frozen in place. For example, proteins that were originally embedded in cell membranes and the little spines that come off of neurons both remained.

At this point, the researchers could add different molecules to color the parts of the brain they want to study and look at the whole thing under a light microscope.

hooked leaves kill bedbugs

The New York Times covers this paper on how bean leaves help fight bedbug infestations. The leaves in question have tiny hooks that trap the bedbugs’ legs as they crawl over them. Using these leaves are a common folk remedy for getting rid of bedbugs in Eastern Europe. From the New York Times :

The first task was to determine exactly how the hooks — the technical name is trichomes — worked. The process was viewed through an electron microscope, Dr. Loudon said. “The foot comes down onto the surface, but as it’s lifting up, it’s catching on these hooks,” she said. “The point is pointing down. So all of their legs get impaled.”

“And as soon as one leg gets caught,” she added, “they are rapidly moving legs around and try to get away on the surface. That’s when they get multiply impaled.”

On the natural leaves, bugs were snagged, on average, after six steps, or locomotory cycles. (In one cycle, each of the insect’s six legs moves once.) Once stuck, they tried to free themselves, but they usually ended up just flailing in place around the impaled limb.

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