Scientists produce complex map of mouse's brain that could unravel mystery of how ours work
ADVERTISEMENT
Thanks to a mouse watching clips from
'The Matrix,'
scientists have created the largest functional map of a brain to date – a diagram of the wiring connecting 84,000 neurons as they fire off messages.
Using a piece of that mouse's brain about the size of a poppy seed, the researchers identified those neurons and traced how they communicated via branch-like fibres through a surprising 500 million junctions called synapses.
The massive dataset, published on Wednesday by the journal Nature, marks a step toward unraveling the mystery of how
our brains
work.
Related
Scientists shed light on the many ways women's brains change during pregnancy
The data, assembled in a 3D reconstruction colored to delineate different brain circuitry, is open to scientists worldwide for additional research – and for the simply curious to take a peek.
"It definitely inspires a sense of awe, just like looking at pictures of the galaxies," said Forrest Collman of the Allen Institute for Brain Science in the United States, one of the project's leading researchers.
"You get a sense of how complicated you are. We're looking at one tiny part... of a mouse's brain and the beauty and complexity that you can see in these actual neurons and the hundreds of millions of connections between them".
Scientists review neuron reconstructions for the Machine Intelligence from Cortical Networks project in December 2024, in Seattle, Washington.
Jenny Burns/AP
How we think, feel, see, talk, and move are due to neurons, or nerve cells, in the brain – how they're activated and send messages to each other.
Scientists have long known those signals move from one neuron along fibres called axons and dendrites, using synapses to jump to the next neuron.
But there's less known about the networks of neurons that perform certain tasks and how disruptions of that wiring could play a role in
Alzheimer's
, autism, or other disorders.
With the new project, a global team of more than 150 researchers mapped neural connections that Collman compares to tangled pieces of spaghetti winding through part of the mouse brain responsible for vision.
Related
Scientists produce first and largest brain map of a dead fruit fly
How scientists mapped the brain
The first step: show a mouse video snippets of sci-fi movies, sports, animation, and nature.
A team at Baylor College of Medicine in the US did just that, using a mouse engineered with a gene that makes its neurons glow when they're active.
The researchers used a laser-powered microscope to record how individual cells in the animal's visual cortex lit up as they processed the images flashing by.
Next, scientists at the Allen Institute analysed that small piece of brain tissue, using a special tool to shave it into more than 25,000 layers and take nearly 100 million high-resolution images using electron microscopes. They then painstakingly reassembled the data in 3D.
Finally, scientists from Princeton University in the US used artificial intelligence (AI) to trace all that wiring and "paint each of the individual wires a different colour so that we can identify them individually," Collman said.
ADVERTISEMENT
They estimated that microscopic wiring, if laid out, would measure more than 5 km.
Related
An experimental brain-computer implant is helping a stroke survivor speak again
Implications for human health
Could this
kind of mapping
help scientists eventually find treatments for brain diseases?
The researchers call it a foundational step, like how the Human Genome Project that provided the first gene mapping eventually led to gene-based treatments.
Mapping a full mouse brain is one next goal.
ADVERTISEMENT
"The technologies developed by this project will give us our first chance to really identify some kind of abnormal pattern of connectivity that gives rise to a disorder," said Sebastian Seung, Princeton neuroscientist and computer scientist and another of the project's leading researchers.
The work "marks a major leap forwards and offers an invaluable community resource for future discoveries," wrote Harvard neuroscientists Mariela Petkova and Gregor Schuhknecht, who weren't involved in the project.
The huge and publicly shared data "will help to unravel the complex neural networks underlying cognition and behaviour," they added.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Sustainability Times
2 days ago
- Sustainability Times
'NASA Freezes Human Aging': This Stunning Discovery Could Delay Death and Revolutionize Deep Space Survival Forever
IN A NUTSHELL 🚀 Researchers discover that necrosis —a chaotic form of cell death—holds the key to enhancing human aging and space travel. —a chaotic form of cell death—holds the key to enhancing human aging and space travel. 🧬 Unlike programmed cell death, necrosis is messy and contagious , contributing to chronic diseases like Alzheimer's and cardiovascular decline. , contributing to chronic diseases like Alzheimer's and cardiovascular decline. 🔬 Targeting necrosis could unlock new treatments for age-related diseases by breaking destructive cycles and allowing for healthy cell function. 🌌 Addressing necrosis in space could mitigate accelerated aging effects on astronauts, paving the way for longer missions and deeper exploration. In a groundbreaking study, scientists have uncovered the potential role of necrosis in not only understanding human aging but also in enhancing the possibilities of deep space travel. Often dismissed as mere biological debris, necrosis—a chaotic form of unprogrammed cell death—has been revealed as a critical factor in tissue damage and systemic decline. Researchers from University College London, the biotech firm LinkGevity, and the European Space Agency argue that this understanding could pave the way for new treatments for chronic illnesses and provide a crucial tool for humans to survive in space. This discovery opens doors to revolutionary advances in medicine and space exploration. Understanding Necrosis: The Chaotic Cell Death Necrosis is a form of cell death that occurs when cells are overwhelmed by injury, infection, or stress. This process floods cells with calcium, disrupting vital functions and causing the cell to rupture. The collapse spills toxic molecules into the surrounding tissue, triggering inflammation and accelerating damage. Unlike the well-ordered process of programmed cell death, necrosis is messy—and contagious. A single dying cell can spark a chain reaction in its neighbors, compounding degeneration over time. Researchers believe this chaotic process may explain how chronic diseases such as Alzheimer's, kidney failure, and cardiovascular decline intensify with age. According to Dr. Keith Siew, necrosis has been largely overlooked as it was considered an endpoint. However, mounting evidence suggests it is a central mechanism through which systemic degeneration arises and spreads. By targeting necrosis, scientists hope to unlock new ways to treat conditions ranging from kidney failure to cardiac disease, neurodegeneration, and even aging itself. 'Einstein Was Right All Along': This Atomic Clock on the ISS Is Putting General Relativity to Its Ultimate Test Necrosis and Its Impact on Chronic Diseases Dr. Carina Kern emphasizes that necrosis is not just the last stage of cell death but a critical point of convergence across many diseases. In many age-related illnesses—affecting organs such as the lungs, kidneys, liver, brain, and cardiovascular system—relentless cascades of necrosis fuel disease progression. This often occurs alongside impaired healing, leading to fibrosis, inflammation, and damaged cells. Each cascade triggers and amplifies the next, creating a vicious cycle of degeneration. If scientists can target and manage necrosis, they could potentially transform the treatment of various chronic diseases. The key lies in breaking the destructive cycles that necrosis initiates, allowing for healthier cell function and possibly even regeneration. This approach could revolutionize the way we understand and treat degenerative conditions, offering hope for improved health outcomes in aging populations. 'Alien-Like Sea Creature Emerges': Extremely Rare Marine Species Seen for First Time Following 62-Mile Iceberg Detachment Challenges and Opportunities in Space Exploration Necrosis presents a significant obstacle to human space exploration, as astronauts endure accelerated aging caused by microgravity and cosmic radiation. A 2024 study involving Dr. Siew highlighted the rapid deterioration of kidney function in low-gravity environments, raising concerns for long-duration space missions. Professor Damian Bailey suggests that addressing necrosis could transform longevity on Earth and push the frontiers of space exploration. In space, factors that contribute to aging on Earth are exacerbated by cosmic radiation and microgravity, speeding up degeneration dramatically. If necrosis could be prevented, even temporarily, it would shut down destructive cycles at their source, enabling normal physiological processes and cell division to resume. This potential for regeneration could be a game-changer for long-term human survival in space, opening new horizons for exploration and discovery. 'Global Population Far Higher Than Expected': New Revelation Exposes Massive Undercount That Changes Everything About Our Future Future Implications and the Path Forward The study of necrosis and its implications for aging and space travel has been published in Nature Oncogene, signaling a significant step forward in understanding this complex process. The collaborative efforts of scientists from various fields underscore the importance of interdisciplinary research in tackling global challenges. As science continues to unravel the mysteries of necrosis, the potential applications in medicine and space exploration are vast and promising. With the possibility of targeting necrosis to treat chronic diseases and support human survival in space, the future of this research is both exciting and challenging. As we venture further into the unknown, what new discoveries about cell death and regeneration will shape the future of humanity, both on Earth and beyond? Our author used artificial intelligence to enhance this article. Did you like it? 4.6/5 (26)
Euronews
5 days ago
- Euronews
Israel denies firing on civilians near Gaza aid distribution site
Israel has denied claims that its forces opened fire on people near an aid distribution site on Tuesday, killing at least 27, in a third such incident in three days. The Israeli army said it fired "near a few individual suspects" who left the designated route, approached its forces and ignored warning shots. Hisham Mhanna, a spokesperson for the International Committee of the Red Cross, said its field hospital in Rafah received 184 wounded people, 19 of whom were declared dead on arrival and eight more who later died of their wounds. The bodies of the 27 dead have been transferred to Nasser Hospital in the city of Khan Younis, according to AP. The Israeli military said it was looking into reports of casualties on Tuesday. It previously said it fired warning shots at suspects who approached its forces early Sunday and Monday, when health officials and witnesses said 34 people were killed. The military denies opening fire on civilians or blocking them from reaching the aid sites. The Gaza Humanitarian Foundation, which operates the sites, says there has been no violence in or around them. On Tuesday, it acknowledged that the Israeli military was investigating whether civilians were wounded "after moving beyond the designated safe corridor and into a closed military zone," in an area that was "well beyond our secure distribution site." The shootings all occurred at the Flag Roundabout, around a kilometre from one of the GHF's distribution sites in the now mostly uninhabited southern city of Rafah. The latest incident has come after an Israeli and US-backed foundation established aid distribution points inside Israeli military zones, a system Israel says is designed to circumvent Hamas and prevent its militants from war profiteering and strengthening the group that way. The United Nations has rejected the new system, saying it doesn't address Gaza's mounting hunger crisis and allows Israel to use aid as a weapon. Meanwhile the Israeli military said Tuesday that three of its soldiers were killed in the Gaza Strip, in what appeared to be the deadliest attack on Israel's forces since it ended a ceasefire with Hamas in March. The military said the three soldiers, all in their early 20s, fell during combat in northern Gaza on Monday, without providing details. Israeli media reported that they were killed in an explosion in the Jabaliya area. Israel ended the ceasefire in March after Hamas refused to change the agreement to release more hostages sooner. Hamas-led militants killed some 1,200 people, mostly civilians, and took 251 people hostage in the 7 October 2023 attack into southern Israel that ignited the Israel-Hamas war. They are still holding 58 hostages, a third of them believed to be alive, after most of the rest were released in ceasefire agreements or other deals. Some 54,000 Palestinians have been killed during the 20-month war, mostly women and children, according to the Hamas-run Gaza health ministry, which does not say how many of the dead were civilians or combatants. Israel has challenged its numbers. Israel says it has killed around 20,000 militants since the beginning of the Israel-Hamas war. Around 860 Israeli soldiers have been killed since the 7 October attack, including more than 400 during the fighting inside Gaza. Residents in western Turkey and the Greek islands were shaken awake on Monday evening when a strong 5.8-magnitude earthquake jolted the Turkish coastal town of Marmaris. A 14-year-old girl died in the town of Fethiye after the quake, Turkish Interior Minister Ali Yerlikaya said, despite being taken to the hospital. She had suffered a panic attack. The quake, which had a depth of 68 km according to the European Seismological Centre, was felt across the Dodecanese islands. At least 69 people were injured after attempting to jump from heights due to panic caused by the tremors, which were strongly felt on the Greek island of Rhodes — the largest of the Dodecanese islands near the Turkish border. No injuries were reported in Rhodes; however, tourists visiting the island said they woke up to violent shaking. Travel agency TUI cautioned tourists in the region to 'remain calm and follow any safety instructions provided by your accommodation or local officials.' Greek seismologist Efthimios Lekkas told ERT News that the earthquake's depth caused it to be felt across a wider area. "It will not have a significant impact on the surface, there will be no tsunami, and above all, there will not be a rich aftershock sequence," he noted. Due to its significant depth, the quake "was very intense for the residents of Rhodes and its surrounding areas. From here on, there will not be any major damage."
France 24
01-06-2025
- France 24
'The Matrix is everywhere': cinema bets on immersion
This new immersive experience is designed to be a red pill moment that will get film fans off their couches at a time when the movie industry is desperate to bring back audiences. Cosm, which has venues in Los Angeles and Dallas, is launching its dome-style screen and 3D sets in June with a "shared reality" version of "The Matrix," the cult 1999 film starring Keanu Reeves as a man who suddenly learns his world is a fiction. "We believe the future will be more immersive and more experiential," said Cosm president Jeb Terry at a recent preview screening. "It's trying to create an additive, a new experience, ideally non-cannibalistic, so that the industry can continue to thrive across all formats." Cinema audiences were already dwindling when the Covid-19 pandemic broke out, shuttering theaters at a time when streaming was exploding. With ever bigger and better TVs available for the home, the challenge for theater owners is to offer something that movie buffs cannot get in their living room. Prestige projects like Tom Cruise's "Mission: Impossible -- The Final Reckoning" or Christopher Nolan's Oscar-winning "Oppenheimer" increasingly opt for the huge screens and superior film quality of IMAX. But Cosm and other projects like it want to go one step further, collaborating with designers who have worked with Cirque du Soleil to create an environment in which the viewer feels like they are inside the film. For filmmakers, it's all about how you place the cameras and where you capture the sound, said Jay Rinsky, founder of Little Cinema, a creative studio specializing in immersive experiences. "We create sets like the Parisian opera, let the movie be the singer, follow the tone, highlight the emotions... through light, through production design, through 3D environments," he said. The approach, he said, felt particularly well suited to "The Matrix," which he called "a masterpiece of cinema, but done as a rectangle." For the uninitiated: Reeves's Neo is a computer hacker who starts poking around in a life that doesn't quite seem to fit. A mysterious Laurence Fishburne offers him a blue pill that will leave him where he is, or a red pill that will show him he is a slave whose body is being farmed by AI machines while his conscious lives in a computer simulation. There follows much gunfire, lots of martial arts and some mysticism, along with a romance between Neo and Trinity, played by the leather-clad Carrie-Anne Moss. "The Matrix" in shared reality kicks off with a choice of cocktails -- blue or red, of course -- which are consumed as the audience sits surrounded by high-definition screens. Shifting perspectives place the viewer inside Neo's office cubicle, or seemingly in peril. "They're sometimes inside the character's head," said Rinsky. "The world changes as you look up and down for trucks coming at you." The result impressed those who were at the preview screening.
