fluorescence microscopy
Snapshots of Life: Seeing, from Eye to Brain
Posted on by Dr. Francis Collins
| Credit: Xueting Luo and Kevin Park, University of Miami |
Fasten your seat belts! We’re going to fly through the brain of a mouse. Our tour guide is Kevin Park, an NIH-funded neuroscientist at the University of Miami, who has developed a unique method to visualize neurons in an intact brain. He’s going to give us a rare close-up of the retinal ganglion cells that carry information from the eye to the brain, where the light signals are decoded and translated.
To make this movie, Park has injected a fluorescent dye into the mouse eye; it is taken up by the retinal cells and traces out the nerve pathways from the optic nerve into the brain.
Nanoparticles Create Spirals in the Lungs
Posted on by Dr. Francis Collins
Source: Prajnaparamita Dhar, Department of Chemical Engineering, University of Kansas, Lawrence
These eye-catching spirals may resemble a trendy print from Diane von Furstenberg’s Spring Collection, but they’re actually a close-up of lung surfactant—a lipid-protein film that coats the inside of the air sacs in the lungs, making it easier to breathe. Made using fluorescence microscopy techniques, this image shows what happens to the surfactant (black) when it interacts with carbon nanoparticles.
Scientists found that carbon nanoparticles rearrange the surfactant molecules from kidney bean shaped clusters into solid spirals. Since carbon nanoparticles may be effective drug delivery vehicles, it’s important to know how these molecules alter the surfactant—and whether these changes are harmful.
The verdict is still out on whether disrupting the surfactant triggers breathing problems, but we can still be mesmerized by the image.
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