Menu

Blog

Page 2826

Jun 10, 2023

Lost world of complex life and the late rise of the eukaryotic crown

Posted by in category: futurism

Analysis of sedimentary rocks from the mid-Proterozoic interval reveals traces of protosteroids, suggesting the widespread presence of stem-group eukaryotes that predated and co-existed with the crown-group ancestors of modern eukaryotes.

Jun 10, 2023

Voice Versatility: The Genetic Symphony Behind Vocal Pitch

Posted by in categories: genetics, health

Summary: Researchers discovered sequence variants in the gene ABCC9 that influence voice pitch.

Utilizing speech recordings from nearly 13,000 Icelanders and corresponding genomic data, the scientists identified common ABCC9 variants associated with higher voice pitch in both men and women. Additionally, these variants were linked to higher pulse pressure, revealing intriguing connections between voice pitch and health.

The study also uncovered a heritable component in vowel acoustics, enhancing our understanding of the human vocal system.

Jun 10, 2023

Dark matter atoms may form shadowy galaxies with rapid star formation

Posted by in categories: cosmology, evolution, particle physics

Dark matter, the invisible material that makes up the vast majority of the universe’s mass, may collect itself to form atoms, a new simulation shows.

Those “dark atoms” might radically alter the evolution of galaxies and the formation of stars, giving astronomers a new opportunity to understand this mysterious substance.

Jun 10, 2023

Liquid Metal Breakthrough Can Transform Everyday Materials Into Electronic “Smart Devices”

Posted by in categories: biological, materials

Chinese scientists have devised a technique to coat everyday materials like paper and plastic with liquid metal, potentially creating “smart devices.” The method, which involves adjusting pressure rather than using a binding material, successfully enables the liquid metal to adhere to surfaces, a previously challenging task due to high surface tension.

Everyday materials such as paper and plastic could be transformed into electronic “smart devices” by using a simple new method to apply liquid metal to surfaces, according to scientists in Beijing, China. The study, published June 9 in the journal Cell Reports.

<em>Cell Reports</em> is a peer-reviewed scientific journal that published research papers that report new biological insight across a broad range of disciplines within the life sciences. Established in 2012, it is the first open access journal published by Cell Press, an imprint of Elsevier.

Jun 10, 2023

SpaceX Set To Hire 14 Year Old Genius Smarter Than Billions Of People

Posted by in category: internet

SpaceX set to bring child prodigy on board as a software engineer for its Starlink division in July. Take a look!

Jun 10, 2023

Synthetic Life

Posted by in categories: bioengineering, genetics, robotics/AI

Sign up for a Curiosity Stream subscription and also get a free Nebula subscription (the streaming platform built by creators) here: https://curiositystream.com/isaacarthur.
We often discuss cybernetic, genetic engineering, artificial intelligence, and hybrids of them, but what truly is synthetic life? And what is it like?

Visit our Website: http://www.isaacarthur.net.
Support us on Patreon: https://www.patreon.com/IsaacArthur.
Facebook Group: https://www.facebook.com/groups/1583992725237264/
Reddit: https://www.reddit.com/r/IsaacArthur/
Twitter: https://twitter.com/Isaac_A_Arthur on Twitter and RT our future content.
SFIA Discord Server: https://discord.gg/53GAShE

Continue reading “Synthetic Life” »

Jun 10, 2023

Team develops magnetic microrobots with folate to promote targeted drug delivery to cancer cells

Posted by in categories: bioengineering, biotech/medical, cyborgs, transhumanism

The limited ability of microrobots to assist drugs in entering cells hinders their therapeutic efficacy. To address this, a research team, reporting in Cyborg and Bionic Systems, has introduced the cancer-targeting molecule folic acid (FA) to microrobots to promote drug uptake by cancer cells via receptor-ligand-mediated endocytosis. This results in a drug delivery system that can locate lesion areas with magnetic fields and deliver loaded drugs into the cytoplasm through endocytosis.

Untethered microrobots have shown remarkable achievements in various fields such as minimally invasive surgery, , environmental remediation, and tissue engineering. Magnetic field actuation is a widely used method due to its good biosafety, deeper tissue penetration, and high temporal and spatial control.

However, practical problems arise when microrobots delivering drugs may only be able to deliver the drugs to the area around the cells but cannot assist the drugs to enter the cells. This limitation could potentially reduce the effectiveness of the treatment since the drugs may not reach the intended targets within the cells.

Jun 10, 2023

Developing new nanoparticle treatments for brain tumors

Posted by in categories: biotech/medical, nanotechnology, neuroscience

Northwestern Medicine investigators have developed a novel nanoparticle treatment for glioblastoma, according to a study published in Nature Communications.

Glioblastoma, the most common type of primary brain cancer, is one of the most complex, deadly and treatment-resistant cancers, according to the National Brain Tumor Society. The five-year survival rate for patients hovers near 7% and has remained unchanged for decades.

Previous Northwestern Medicine research has shown that glioblastoma tumors accumulate large numbers of immunosuppressive tumor-associated (TAMCs), which impairs the immune system’s ability to fight the tumor and reduces the effectiveness of radiation and chemotherapy.

Jun 10, 2023

Confinement effects of carbon nanotubes on polyoxometalate clusters enhance electrochemical energy storage

Posted by in categories: chemistry, energy, nanotechnology

Carbon nanotubes (CNTs) are considered ideal electrochemical energy storage materials due to their high electrical conductivity, large theoretical surface area, and good chemical stability.

However, CNTs tend to aggregate due to strong van der Waals forces, which reduces their electrochemically active area. This problem is even worse for (SWNTs) due to their high length-to-diameter ratio.

Recently, a joint research team led by Dr. Wang Xiao from the Shenzhen Institute of Advanced Technology (SIAT) of the Chinese Academy of Sciences, Dr. Zhu Sheng from Shanxi University, and Prof. Li Yan from Peking University has encapsulated polyoxometalate guest molecules within SWNTs (with a diameter of approximately 1.4 nm) to enhance the electrochemical energy storage of CNTs.

Jun 10, 2023

Nanomedicine: Using a patient’s immune cells to prevent the spread of cancer

Posted by in categories: biotech/medical, nanotechnology

The fact that our immune systems capture and destroy nanoparticles and the drugs they carry has been a problem in the field of nanomedicine for some time. But, in the fight against cancer, researchers are now attempting to exploit this problem to their advantage.

Researchers around the world are seeking to identify techniques that use nanoparticles in the treatment of disease. Such particles are about 100 nanometers—one thousandth of a millimeter—in diameter, and within them researchers are inserting large numbers of even smaller drug molecules.

Optimism for this approach in the treatment of various forms of cancer has been particularly great.