Imagine waking up in a bathtub full of ice with a fresh surgical scar where your kidney used to be. This scenario could be avoided if we had artificially created organs in a lab. Learn about the progress in artificial organ transplantation since the 1990s, including the challenges and breakthroughs in this fascinating video.
A nuclear power plant along the Mississippi River in Monticello, Minnesota, has leaked more than 400,000 gallons of radioactive water due to a broken pipe. NBC’s Maggie Vespa has the details.
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Scientists have created eggs using the cells of male mice for the first time, leading to the birth of seven mice with two fathers, according to research Wednesday hailed as “revolutionary”.
The technique pioneered in the proof-of-concept experiment is a long way from potentially being used in humans, with obstacles including a low success rate, adaptation concerns and wide-ranging ethical considerations.
But the breakthrough raises the prospect of a raft of new reproductive possibilities, including that gay male couples —or even a single man—could have a biological child without needing a female egg.
Author Nick Humphrey shares 5 key insights from his new book, Sentience: The Invention of Consciousness.
Picture this: You might think that ChatGPT is a trendy new invention but what if we told you that it actually first made an appearance in a sci-fi novel?
The Algebraist by Scottish writer Iain M. Banks, published in 2004, featured the idea way before it became a reality. Who knew that a book could predict the future with such accuracy? It’s almost feels like a conversation that the former Google engineer Blake Lemoine might have had with LaMDA: (Excerpts from page 381 – The Algebraist)
Australian researchers have uncovered an enzyme capable of transforming air into energy. The study, which was recently published in the prestigious journal Nature, shows that the enzyme utilizes small amounts of hydrogen in the air to generate an electrical current. This breakthrough paves the way for the development of devices that can literally generate energy from thin air.
The discovery was made by a team of scientists led by Dr. Rhys Grinter, Ashleigh Kropp, a Ph.D. student, and Professor Chris Greening from the Monash University Biomedicine Discovery Institute in Melbourne, Australia. The team produced and studied a hydrogen-consuming enzyme sourced from a bacterium commonly found in soil.
Recent work by the team has shown that many bacteria use hydrogen from the atmosphere as an energy source in nutrient-poor environments. “We’ve known for some time that bacteria can use the trace hydrogen in the air as a source of energy to help them grow and survive, including in Antarctic soils, volcanic craters, and the deep ocean,” Professor Greening said. “But we didn’t know how they did this, until now.”
We showcase the Proto infinity wall, the Proto Epic, and the Proto M. Watch and enjoy, or else.
None of this happens without the entire team at Proto. The Protopians are made up of world class engineers, salespeople, resellers, investors, producers, developers, and partners. Without them, Proto is just a good idea. They’re the people who actually make these innovations happen.
Continue reading “Beam me up, Proto! NBC’s ‘California Live’ uses patented Proto hologram tech” »
Researchers at the University of East Anglia have developed a new drug that works against all of the main types of primary bone cancer.
Cancer that starts in the bones, rather than cancer that has spread to the bones, predominantly affects children.
Current treatment is grueling, with outdated chemotherapy cocktails and limb amputation.
Summary: A newly constructed brain map shows every single neuron and how they are wired together in the brains of fruit fly larvae.
Source: UK Research and Innovation.
Researchers have built the first ever map showing every single neuron and how they’re wired together in the brain of the fruit fly larva.
Scientists working in the School of Biochemistry and Immunology in the Trinity Biomedical Sciences Institute at Trinity College Dublin have made an important breakthrough in understanding what goes wrong in our bodies during the progression of inflammatory diseases and—in doing so—unearthed a potential new therapeutic target.
The scientists have found that an enzyme called fumarate hydratase is repressed in macrophages, a frontline inflammatory cell type implicated in a range of diseases including lupus, arthritis, sepsis and COVID-19.
Professor Luke O’Neill, Professor of Biochemistry at Trinity, is the lead author of the research article that has just been published in the journal, Nature. He said, “No one has made a link from fumarate hydratase to inflammatory macrophages before and we feel that this process might be targetable to treat debilitating diseases like lupus, which is a nasty autoimmune disease that damages several parts of the body including the skin, kidneys and joints.”
