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Feb 7, 2024

Nuclear-powered spacecraft: why dreams of atomic rockets are back on

Posted by in categories: military, nuclear energy, particle physics, space travel

Launching rockets into space with atomic bombs is a crazy idea that was thankfully discarded many decades ago. But as Richard Corfield discovers, the potential of using the energy from nuclear-powered engines to drive space travel is back on NASA’s agenda.

In 1914 H G Wells published The World Set Free, a novel based on the notion that radium might one day power spaceships. Wells, who was familiar with the work of physicists such as Ernest Rutherford, knew that radium could produce heat and envisaged it being used to turn a turbine. The book might have been a work of fiction, but The World Set Free correctly foresaw the potential of what one might call “atomic spaceships”

The idea of using nuclear energy for space travel took hold in the 1950s when the public – having witnessed the horrors of Hiroshima and Nagasaki – gradually became convinced of the utility of nuclear power for peaceful purposes. Thanks to programmes such as America’s Atoms for Peace, people began to see that nuclear power could be used for energy and transport. But perhaps the most radical application lay in spaceflight.

Feb 7, 2024

Team discovers mechanism that protects tissue after faulty gene expression

Posted by in categories: biotech/medical, genetics, life extension

A study at the University of Cologne’s CECAD Cluster of Excellence in Aging Research has identified a protein complex that is activated by defects in the spliceosome, the molecular scissors that process genetic information. Future research could lead to new therapeutic approaches to treat diseases caused by faulty splicing.

The genetic material, in the form of DNA, contains the information that is crucial for the correct functioning of every human and animal cell. From this information repository, RNA, an intermediate between DNA and protein, the functional unit of the cell, is generated. During this process, the must be tailored for specific cell functions. Information that is not needed (introns) is cut out of the RNA and the important components for proteins (exons) are preserved.

A team of researchers led by Professor Dr. Mirka Uhlirova at the University of Cologne’s CECAD Cluster of Excellence in Aging Research has now discovered that if the processing of this information no longer works properly, a (C/EBP heterodimer) is activated and directs the cell towards a dormant state, known as . The results appear under the title “Xrp1 governs the stress response program to spliceosome dysfunction” in Nucleic Acids Research.

Feb 7, 2024

Building a DNA nanoparticle to be both carrier and medicine

Posted by in categories: bioengineering, biotech/medical, genetics, nanotechnology, robotics/AI

Scientists have been making nanoparticles out of DNA strands for two decades, manipulating the bonds that maintain DNA’s double-helical shape to sculpt self-assembling structures that could someday have jaw-dropping medical applications.

The study of DNA , however, has focused mostly on their architecture, turning the genetic code of life into components for fabricating minuscule robots. A pair of Iowa State University researchers in the genetics, development, and cell biology department—professor Eric Henderson and recent doctoral graduate Chang-Yong Oh—hope to change that by showing nanoscale materials made of DNA can convey their built-in genetic instructions.

“So far, most people have been exploring DNA nanoparticles from an engineering perspective. Little attention has been paid to the information held in those DNA strands,” Oh said.

Feb 7, 2024

World’s First 3D-Printed Neural Tissue Grows And Functions Like a Human Brain

Posted by in categories: biotech/medical, neuroscience

Researchers have created the first functional 3D-printed brain tissue that can develop and form connections in the same way as real human brain tissue.

This remarkable accomplishment by a team at the University of Wisconsin–Madison provides neuroscientists with a new tool for studying communication between brain cells and other parts of the human brain, potentially leading to better ways of treating diseases like Alzheimer’s and Parkinson’s.

Continue reading “World’s First 3D-Printed Neural Tissue Grows And Functions Like a Human Brain” »

Feb 7, 2024

Innovation in stone tool technology involved multiple stages at the time of modern human dispersals, study finds

Posted by in categories: education, evolution

A study led by researchers at the Nagoya University Museum in Japan may change how we understand the cultural evolution of Homo sapiens at the time of their dispersal across Eurasia about 50,000 to 40,000 years ago. These findings challenge traditional beliefs about the timing and nature of cultural transitions during this critical period in human history.

Feb 7, 2024

The most important boring idea in the universe

Posted by in category: futurism

We live in a world dominated by science, but most people don’t understand its most essential characteristic: establishing standards of evidence to keep us from getting fooled by our own biases and opinions.

Feb 7, 2024

The Mysterious Prehistoric Underwater Structure Beneath Lake Michigan

Posted by in category: futurism

A prehistoric structure reminiscent of England’s iconic Stonehenge has been uncovered in Grand Traverse Bay, an arm of Lake Michigan on the western shore of Michigan’s Lower Peninsula.

The findings were found by Dr. Mark Holley, a distinguished professor of underwater archaeology at Northwestern Michigan University.

The picturesque waters of Grand Traverse Bay have long-held maritime history, with dozens of known shipwrecks attesting to the area’s bustling 19th and 20th-century maritime trade routes. Under its serene surface, secrets of a different kind have emerged, capturing the attention of archaeologists and historians.

Feb 7, 2024

Cardiac Arrests Linked to Drug ODs Are Killing the Healthy Young

Posted by in category: biotech/medical

THURSDAY, Feb. 1, 2024 (HealthDay News) — Drug overdoses resulting in cardiac arrest occur most often among young adults, a new study finds.

People tend to have OD-related cardiac arrests at an average age of 39, compared to an average age of 64 for those suffering cardiac arrests not related to opioids, results show.

“Many communities face ongoing challenges with increases in drug overdoses, which tend to affect a younger, healthier population,” said lead researcher Aditya Shekhar, a medical student at the Icahn School of Medicine at Mount Sinai in New York City.

Feb 7, 2024

Alterations in the blood immune system found to increase cancer risk

Posted by in categories: biotech/medical, genetics

An international team of researchers has identified the genetic basis and biological processes that influence cancer risk related to alterations in the number of immune cells present in the blood. This is a significant advance in understanding how the immune system can prevent the appearance of tumors.

The study, led by researchers from the Institut Català d’Oncologia (ICO), the Bellvitge Biomedical Research Institute (IDIBELL), the Germans Trias i Pujol Research Institute (IGTP), and the Translational Genomics Research Institute in the United States, has been published in the journal Genome Medicine and represents a significant step towards a better understanding of how alterations in the facilitate the onset of cancer.

The immune system is responsible for maintaining the integrity and function of the body by continuously protecting us from exogenous attacks, such as viruses and endogenous attacks, in this case, cancer. This gives it a central role in inhibiting carcinogenesis, and its disruption may increase the risk of cancer by allowing malignant cells to proliferate.

Feb 7, 2024

Korean researchers develop heat-resistant material that withstands 1000°C

Posted by in categories: energy, materials

A research team at the Korea Institute of Science and Technology (KIST) has developed a thermally refractory material that maintains its optical properties even at temperatures of 1,000 degrees Celsius and in strong ultraviolet illumination. The material can be used in various applications ranging from space and aerospace to thermal photovoltaic (TPV) systems.

Thermal radiation is the term used to define the electromagnetic radiation emitted from all matter whose temperature is above absolute zero. The radiation results from the heat generated when charges in the material move and are released in the form of electromagnetic radiation.

Scientists have been working on tapping this radiation as a form of energy source. The heat from facilities such as thermal power generation plants and industrial sites can be repurposed for heating, cooling, and even energy production when suitable thermal refractory materials are available.