Each year, Science’s editors choose a singular scientific achievement as Breakthrough of the Year. Past winners have included the discovery of the Higgs boson, cancer immunotherapy, and the first quantum machine. This year’s winner captured the world’s attention and reminded us of the immense scope of human scientific accomplishment—as well as how far we have yet to go. Below we briefly summarize the winner and runners-up and link to the expanded stories, with references, in the magazine, which are freely available.
BREAKTHROUGH OF THE YEAR
Europe’s most ambitious space mission captured the public’s imagination with a series of hard-won pictures, beamed to Earth from a place beyond Mars. Rosetta’s continuous orbit around comet 67P/Churyumov-Gerasimenko is helping scientists figure out how life began on Earth—and heralds a new age of comet science.
It took a lot to turn lumbering cousins of Tyrannosaurus rex into agile hummingbirds and graceful swans. This year, evolutionary biologists figured out the mode and tempo of this spectacular evolutionary transition.*
In work with profound implications for aging, researchers showed that blood from a young mouse can rejuvenate an old mouse’s muscles and brain. If the results hold up in people—an idea already in testing—factors in young blood could help fight the ravages of aging in people.
Robots are getting better all the time at working with humans, but this year several teams demonstrated that these machines can also work together without our supervision, an important first step in their path to eventual world domination.
Computer engineers rolled out the first large-scale “neuromorphic” chips, designed to process information similarly to living brains. Why? Unlike computers, human brains are good at tackling tasks that integrate massive amounts of data, like vision. These brainlike chips could transform the way computers handle complex jobs, revolutionizing machine vision and environmental monitoring.
Scientists discovered prehistoric graffiti on Sulawesi Island in Indonesia that’s at least 40,000 years old, potentially usurping Europe as the location of the world’s oldest cave art. The finding could rewrite the history of a key stage in the development of the human mind.
Researchers have reported a significant step toward finding a cure for diabetes. They’ve figured out how to turn human stem cells into functional pancreatic β cells—the same cells that are destroyed by the body’s own immune system in type 1 diabetes patients.
If you think you can rely on your memories, think again. Last year, scientists figured out how to manipulate specific memories in mice by zapping their brains with laser beams. This year, they managed to change the actual emotional content of memories, turning good memories bad, and vice versa.
A decade ago, CubeSats were just educational tools. Now, a record-breaking number of these 10-centimeter boxes, built with off-the-shelf technology and costing hundreds of thousands of dollars rather than hundreds of millions, have been launched into space—and they’re starting to do real science.
All life on Earth as we know it encodes genetic information using four DNA letters: A, T, G, and C. Not anymore! Researchers have created new DNA bases in the lab, expanding life’s genetic code and opening the door to creating new kinds of microbes.
From (lots of) official meetings to a suggestion jar in the office kitchen, Science spends a lot of time choosing each year’s Breakthrough. This year, we wanted to give you a say, too! After 35,676 total votes and two rounds of voting, “Giving life a bigger genetic alphabet” won the people’s choice for Breakthrough of the Year! Click through to see the rest of the results.
watch the video.URL: https://www.youtube.com/watch?feature=player_embedded&v=3o9rsq3TYQk