Chris Donaldson was told he had just a few years to live after cancer in his eyes spread to his liver. But he received a new treatment that kills cancer cells with soundwaves. It’s been two months since his treatment, and Donaldson’s liver remains cancer free.
When Lawrence Livermore National Laboratory (LLNL) achieved fusion ignition at the National Ignition Facility (NIF) in December 2022, the world’s attention turned to the prospect of how that breakthrough experiment — designed to secure the nation’s nuclear weapons stockpile — might also pave the way for virtually limitless, safe and carbon-free fusion energy.
Advanced 3D printing offers one potential solution to bridging the science and technology gaps presented by current efforts to make inertial fusion energy (IFE) power plants a reality.
“Now that we have achieved and repeated fusion ignition,” said Tammy Ma, lead for LLNL’s inertial fusion energy institutional initiative, “the Lab is rapidly applying our decades of know-how into solving the core physics and engineering challenges that come with the monumental task of building the fusion ecosystem necessary for a laser fusion power plant. The mass production of ignition-grade targets is one of these, and cutting-edge 3D printing could help get us there.”
The James Webb telescope has focused its attention on an oddball space rock lurking between Jupiter and Neptune. The unusual “centaur,” named 2060 Chiron, has features of both comets and asteroids.
The Hubble Space Telescope has captured imagery of the R Aquarii binary star system from 2014–2023. The images have been time-lapsed here to show the evolution of the region.
Credit: NASA, ESA, M. Stute, M. Karovska, D. de Martin \& M. Zamani (ESA/Hubble) | edited by Space.com.
Continue reading “Watch the R Aquarii binary star system evolve in Hubble imagery time-lapse” »
Bursts of light hint that a star in a nearby galaxy was partially shredded in 2022 and 2024 and might be in for another round.
AI can spot patterns in the data from blood tests that can give an early warning of disease.
Cellular integrated stress response (ISR), the mitochondrial unfolded protein response (UPRmt), and IFN signaling are associated with viral infections. Activating transcription factor 4 (ATF4) plays a pivotal role in these pathways and controls the expression of many genes involved in redox processes, amino acid metabolism, protein misfolding, autophagy, and apoptosis. The precise role of ATF4 during viral infection is unclear and depends on cell hosts, viral agents, and models. Furthermore, ATF4 signaling can be hijacked by pathogens to favor viral infection and replication. In this review, we summarize the ATF4-mediated signaling pathways in response to viral infections, focusing on human immunodeficiency virus 1 (HIV-1). We examine the consequences of ATF4 activation for HIV-1 replication and reactivation.
Understanding the behavior of the molecules and cells that make up our bodies is critical for the advancement of medicine. This has led to a continual push for clear images of what is happening beyond what the eye can see. In a study recently published in Science Advances, researchers from Osaka University have reported a method that gives high-resolution Raman microscopy images.
Raman microscopy is a useful technique for imaging biological samples because it can provide chemical information about specific molecules—such as proteins—that take part in the body’s processes. However, the Raman light that comes from biological samples is very weak, so the signal can often get swamped by the background noise, leading to poor images.
Continue reading “Unlocking Microscopic Mysteries of Nucleotides” »
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Imagine a life where your body’s internal “battery” runs low every single day, demanding constant recharging just to keep going. For millions of people living with Type 1 diabetes, this is the exhausting reality—one where insulin injections act as the lifeline, replacing what the body can no longer produce on its own. But what if the body could be taught to recharge itself again?
Continue reading “In A World First, A Woman’s Stem Cells Were Used To Reverse Her Type 1 Diabetes” »
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A year and a half after the end of its mission, NASA’s InSight Mars lander may have just helped scientists find enough water to fill an ocean.
Deep beneath NASA’s InSight lander (RIP InSight), an ocean’s worth of liquid water may be trapped in rocky fissures, suggests a recent study of data recorded during more than 1,300 Marsquakes. If University of California, San Diego, geologist Vashan Wright and his colleagues are right, then Mars may be hiding underground reservoirs of water larger than the planet’s ancient, now-vanished, oceans. That could change how we search for traces of life on Mars, as well as how future Mars missions could supply themselves with water, rocket fuel, and oxygen to breathe.
