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Jun 13, 2021

Synthesizing a deadly mushroom toxin

Posted by in categories: biotech/medical, chemistry

Circa 2018


The death-cap mushroom has a long history as a tool of murder and suicide, going back to ancient Roman times. The fungus, Amanita phalloides, produces one of the world’s deadliest toxins: α-amanitin. While it may seem ill-advised, researchers are eager to synthesize the toxin because studies have shown that it could help fight cancer. Scientists now report in the Journal of the American Chemical Society how they overcame obstacles to synthesize the death-cap killer compound.

α-Amanitin achieves its impressive deadliness by acting as a potent inhibitor of RNA polymerase II, the enzyme primarily responsible for transcribing genes into the messenger molecule RNA. Using α-amanitin bound to antibodies against tumor molecules, cancer researchers have reportedly cured mice of pancreatic cancer. These conjugates are currently in human trials; however, the only way to obtain α-amanitin so far has been to harvest mushrooms, which is time-consuming and results in relatively small amounts of the compound. Synthetic production approaches have been hampered by α-amanitin’s unusual bicyclic structure, among other tricky features. David M. Perrin and colleagues decided to take on the challenge to produce the toxin in the laboratory, once and for all.

The researchers had to work through three key obstacles to produce α-amanitin in the laboratory: production of the “oxidatively delicate” 6-hydroxy-tryptathionine, the an enantio-selective synthesis of (2 S, 3 R, 4 R)-4, 5-dihydroxy-isoleucine and a diastereoselective sulfoxidation to favor the (R)-sulfoxide. Due to its toxic nature, the researchers limited production to less than a milligram, but based on their results, they are confident that good yields are can be readily obtained by scaling up the process. The researchers also say that the development of this synthetic route will enable chemists to attenuate the toxicity and potentially improve α-amanitin’s activity against cancer, something that is only made possible by the use of synthetic derivatives.

Jun 13, 2021

Google researchers show artificial intelligence can design microchips better and faster than humans

Posted by in categories: robotics/AI, singularity

THIS is that upward exponential point that heralds the arrival of the Technological Singularity.


This is an Inside Science story.

Artificial intelligence can design computer microchips that perform at least as well as those designed by human experts, devising such blueprints thousands of times faster. This new research from Google is already helping with the design of microchips for the company’s next generation of AI computer systems.

Continue reading “Google researchers show artificial intelligence can design microchips better and faster than humans” »

Jun 13, 2021

Physicists prove the existence of two-dimensional particles called anyons

Posted by in category: particle physics

This year, physicists gave us an early view of a third kingdom of quasiparticles that only arise in two dimensions.


The rest of the particles in the universe are bosons, a group that includes particles like photons (the messengers of light and radiation) and gluons (which “glue” quarks together). Unlike fermions, two or more bosons can exist in the same state at the same time.

This article appeared in Discover’s annual state of science issue as Anyons Join the Particle Party.

Continue reading “Physicists prove the existence of two-dimensional particles called anyons” »

Jun 13, 2021

Machine learning aids in materials design

Posted by in categories: chemistry, food, robotics/AI

A long-held goal by chemists across many industries, including energy, pharmaceuticals, energetics, food additives and organic semiconductors, is to imagine the chemical structure of a new molecule and be able to predict how it will function for a desired application. In practice, this vision is difficult, often requiring extensive laboratory work to synthesize, isolate, purify and characterize newly designed molecules to obtain the desired information.

Recently, a team of Lawrence Livermore National Laboratory (LLNL) materials and computer scientists have brought this vision to fruition for energetic molecules by creating machine learning (ML) models that can predict molecules’ crystalline properties from their alone, such as molecular density. Predicting crystal structure descriptors (rather than the entire crystal structure) offers an efficient method to infer a material’s properties, thus expediting materials design and discovery. The research appears in the Journal of Chemical Information and Modeling.

“One of the team’s most prominent ML models is capable of predicting the crystalline density of energetic and energetic-like molecules with a high degree of accuracy compared to previous ML-based methods,” said Phan Nguyen, LLNL applied mathematician and co-first author of the paper.

Jun 13, 2021

Egyptian stone predates the Sun

Posted by in categories: particle physics, space

This Stone Predates the Sun.


Recent analysis of a stone found in the Libyan Desert Glass area of southwest Egypt, has sparked debate and a rethink of the current consensus on the formation of the solar system.

In a study, due to be published next month, a team of international researchers announced the resulting analysis of a stone that was subsequently named Hypatia after the ancient female astronomer of Alexandria.

Continue reading “Egyptian stone predates the Sun” »

Jun 13, 2021

Nano Robots Walk Inside Blood When Hit With Lasers

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

Circa 2020 o,.o!


Every robot is, at its heart, a computer that can move. That is true from the largest plane-sized flying machines down to the smallest of controllable nanomachines, small enough to someday even navigate through blood vessels.

New research, published August 26 in Nature, shows that it is possible to build legs into robots mere microns in length. When powered by lasers, these tiny machines can move, and some day, they may save lives in operating rooms or even, possibly, on the battlefield.

Continue reading “Nano Robots Walk Inside Blood When Hit With Lasers” »

Jun 13, 2021

Does Space Mining Solve Our Resource Problem?

Posted by in categories: energy, space, sustainability

Space mining. 😃


Is Space Mining Our Future Gold Mine? Get Surfshark VPN at https://surfshark.deals/undecided and enter promo code UNDECIDED for 83% off and 3 extra months for free! Rare-earth metals and other minerals are essential for green tech like EVs and renewable energy. Trouble is, we need a lot of them and their availability on Earth is limited. But what if we could tap into all the materials flying around in space? Some scientists claim we could mine asteroids in the future. Yes, asteroids. Is it just an Armageddon remake or will we eventually…dig into them…?

Continue reading “Does Space Mining Solve Our Resource Problem?” »

Jun 13, 2021

Scientists just took a big step toward mapping out the structure of the universe

Posted by in categories: mapping, space

Researchers observed more than 500 of these mysterious cosmic explosions, unraveling the hidden nature of their sources.


The most popular theory suggests that FRBs come from neutron stars, the collapsed cores of massive stars. Scientists believe that the explosions could be a result of a specific type of neutron star known as a magnetar, named so for their powerful magnetic fields, thousands of trillions of times more powerful than Earth’s fields.

Continue reading “Scientists just took a big step toward mapping out the structure of the universe” »

Jun 13, 2021

Microsoft Confirms Serious Windows 10 Update Warning

Posted by in category: cybercrime/malcode

“This can be hugely damaging in the event of ransomware attacks, where high privileges can enable the attackers to stop or destroy backups and other security tools,” Breen explained. “The ‘exploit detected’ tag means attackers are actively using them, so for me, it’s the most important piece of information we need to prioritize the patches.”

If you need any further incentive to update, these seven zero day exploits are part of 50 security vulnerabilities (including another five labelled ‘Critical’) which June’s Patch Tuesday will address. Google has also issued a similar warning for Chrome users.

If you are blocking Windows 10 system updates (a popular pastime for many users), now would be a very good time to stop doing so. Go to Start Settings Update & Security and in the Windows Update Window look to see if the update has already been downloaded. If not, click Check for Updates.

Jun 13, 2021

Exotic quantum state could make smallest-ever laser

Posted by in categories: particle physics, quantum physics

When particles are cooled down to temperatures just above absolute zero, they form a BEC – a state of matter in which all the particles occupy the same quantum state and thus act in unison, like a superfluid. A BEC made up of tens of thousands of particles therefore behaves as if it were just one single giant quantum particle.

An international team of researchers led by Carlos Anton-Solanas and Christian Schneider from the University of Oldenburg, Germany; Sven Höfling of the University of Würzburg, Germany; Sefaattin Tongay at Arizona State University, US; and Alexey Kavokin of Westlake University in China, has now generated a BEC from quasiparticles known as exciton-polaritons in atomically thin crystals. These quasiparticles form when excited electrons in solids couple strongly with photons.

“Devices that can control these novel light-matter states hold the promise of a technological leap in comparison with current electronic circuits,” explains Anton-Solanas, who is in the quantum materials group at Oldenburg’s Institute of Physics. “Such optoelectronic circuits, which operate using light instead of electric current, could be better and faster at processing information than today’s processors.”