What is brainbow?
Brainbow is a color image that leads when a combination of fluorescent proteins modifies neurons in the brain. Different protein colors are combined in random ways, creating approximately 90 individual shades and giving a clear appearance for separate neural pathways. Some of the stunning images that have the result have received the Scientific Photography Awards award. This technique was first developed by scientists using the brain of mice and shows it promising for researching many neurological disorders. The numerous colors of the Brainbow technique should allow scientists to monitor and map many brain neural tracks or circuits, and should also help them determine the differences between neural pathways of healthy brains compared to those affected by disorders.
The brain image is created using a combination of fluorescent proteins to indicate neurons in the brain, so they look at the imaging device. Usually three to four colors of fluorescence protein is activated in neurons and they are joined and creating severalThe different shades of a total of 90. Each unique shade comes from a combination of different percent of the color of fluorescent proteins, similar to television creates a number of colors. The colors of fluorescent proteins are usually green, yellow, red and orange or azure. The shades of neurons expressed are decided by random selection.
neuroscientists at the University of Harvard have developed the technique of Brainbow, which represents significant progress in neuron marking. First they used the method on the brains of mice with articles and photographs published in several scientific periodicals. The pictures that result in the technique of the brain foot are very colorful and lively. They were described as stunning and comparable to modern art or abstract painting. Photos of pictures also received IVED photographs.
study of the brain mouse marked by the Brainbow method, scientists have found that color labels will last for a longthe time. They were able to map neural tracks and monitor changes and reorganization between the "circuits" in the brain. Different colors indicating individual neural pathways are extremely valuable to help scientists begin to understand what had the appearance of a tangled mess.
Scientists are very promising about the potential of brain labeling to learn more about different neurological disorders, including Alzheimer and Parkinson's diseases. They hope they can use it to create a map or a wiring scheme. Once this is achieved, they should be able to find out where and how the brain cables will change these diseases. This knowledge may lead to greater understanding and progress in the treatment of these neurological disorders.