Studying broken chromosomes can illuminate neuroscience
Losing genes and getting extra ones have opposite effects
It is sad, but true, that much of what is known about how human brains work has been learned by studying brains that are broken. Injuries caused by disease or accident show, from the list of functions thus disabled, the jobs of the part of the brain that has been damaged. Similarly, “injuries” to the genome, resulting in the deletion or duplication of stretches of DNA, sometimes have clear effects which can illuminate the functioning of healthy brains. At the AAAS meeting Karen Berman of America’s National Institute of Mental Health and Carrie Bearden of the University of California, Los Angeles, told participants of the latest finding concerning two of these genetic injuries.
This article appeared in the Science & technology section of the print edition under the headline “Double or quits?”
From the March 11th 2023 edition
Discover stories from this section and more in the list of contents
Explore the edition
Satellites are polluting the stratosphere
And forthcoming mega-constellations will exacerbate the problem
AI models are dreaming up the materials of the future
Better batteries, cleaner bioplastics and more powerful semiconductors await
Mice have been genetically engineered to look like mammoths
They are small and tuskless, but extremely fluffy
Is posh moisturiser worth the money?
Don’t break the bank
How artificial intelligence can make board games better
It can iron out glitches in the rules before they go on the market
The skyrocketing demand for minerals will require new technologies
Flexible drills, distributed power systems and, of course, artificial intelligence