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Nov 10, 2024

“Astonishing” — Scientists Unveil First Blueprint of the Most Complex Molecular Machine in Human Biology

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

Scientists at the Centre for Genomic Regulation (CRG) in Barcelona have developed the first comprehensive blueprint of the human spliceosome, the most complex and intricate molecular machine found in every cell. This groundbreaking achievement, over a decade in the making, was published in the journal Science.

The spliceosome edits genetic messages transcribed from DNA, allowing cells to create different versions of a protein from a single gene. The vast majority of human genes – more than nine in ten – are edited by the spliceosome. Errors in the process are linked to a wide spectrum of diseases including most types of cancer, neurodegenerative conditions, and genetic disorders.

The sheer number of components involved and the intricacy of its function has meant the spliceosome has remained elusive and uncharted territory in human biology – until now.

Nov 10, 2024

Computers Find Impossible Solution, Beating Quantum Tech at Own Game

Posted by in categories: computing, particle physics, quantum physics

Earlier this year, experiments shattered expectations by pushing the limits of what classical computing was believed to be capable of. Not only did the old fashioned binary technology crack a problem considered to be unique to quantum processing, it outperformed it.

Now physicists from the Flatiron Institute’s Center for Computational Quantum Physics in the US have an explanation for the feat which could help better define the boundaries between the two radically different methods of number-crunching.

The problem involves simulating the dynamics of what’s known as a transverse field Ising (TFI) model, which describes the alignment of quantum spin states between particles spread across a space.

Nov 10, 2024

The Secrets of Mesons: Supercomputers Unlock New Insights Into Visible Matter

Posted by in categories: particle physics, supercomputing

Scientists at Brookhaven National Laboratory have used supercomputer simulations to predict electric charge distributions in mesons, essential for understanding the subatomic structure of matter.

Upcoming experiments at the Electron-Ion Collider (EIC) will further validate these predictions, offering new insights into how quarks and gluons interact to form visible matter.

Exploring Meson Charge Distribution

Nov 10, 2024

Artificial Intelligence (AI) Thought Leaders Stream — Progress, Potential & Possibilities

Posted by in categories: media & arts, robotics/AI

Nov 10, 2024

Can Lymphocytes And RDW Be Optimized Towards Youth? (51-Test Analysis)

Posted by in category: biotech/medical

Join us on Patreon! https://www.patreon.com/MichaelLustgartenPhDDiscount Links/Affiliates: Blood testing (where I get my labs): https://www.ultalabtests.com/

Nov 10, 2024

SpaceX Dragon Rockets ISS to New Heights With Historic Reboost

Posted by in category: space travel

SpaceX and NASA have successfully tested the Dragon spacecraft’s reboost capabilities, enhancing the International Space Stations altitude.

This test adds to existing capabilities provided by Roscosmoss Progress and Northrop Grumman’s Cygnus spacecrafts. Alongside its reboost demonstration, the Dragon spacecraft also completed a substantial resupply mission, carrying over 6,000 pounds of supplies.

SpaceX’s Reboost Demonstration

Nov 10, 2024

Can the mealworm be the answer to Africa’s plastic waste problem?

Posted by in categories: chemistry, food, sustainability

In a paper published in Scientific Reports journal, the researchers report the potential of the lesser mealworm (the larvae of a darkling beetle species, known scientifically as Alphitobius), to consume plastic.


The icipe researchers tested the ability of the lesser mealworm to consume polystyrene, one of the major microplastics that is fast accumulating both in land and water bodies. Polystyrene waste comes from the commercial application of its most common form, styrofoam. This material is used in food storage containers, packaging of equipment, disposable plates and cups, and insulation in construction. Various methods, including chemical, thermal and mechanical, are used to recycle polystyrene. However, these approaches are expensive and they also produce toxic compounds that are harmful to human, environment and biodiversity.

“Our study showed that the mealworms can ingest close to 50% of the styrofoam. We aim to conduct further studies to understand the process through which mealworms consume polystyrene, and whether they gain any nutritional benefits from the material,” says Evalyne Ndotono, an icipe PhD scholar.

Continue reading “Can the mealworm be the answer to Africa’s plastic waste problem?” »

Nov 10, 2024

This robot mimics humans, cleans washbasins, completes multiple tasks

Posted by in categories: cybercrime/malcode, robotics/AI

By using sensor-embedded sponges and data, Vienna researchers quickly trained robots to clean washbasins.


Thanks to researchers at TU Wein in Vienna, the promise of housecleaning robots is one step closer. The team has developed a self-learning robot to mimic humans to complete simple tasks like cleaning washbasins.

Continue reading “This robot mimics humans, cleans washbasins, completes multiple tasks” »

Nov 10, 2024

EvoBOT completes first tests at Munich Airport

Posted by in categories: robotics/AI, transportation

With its unique design consisting of two wheels and gripper arms, evoBOT keeps itself balanced while performing a range of tasks.


EvoBOT, a uniquely shaped autonomous mobile robot, recently completed its first test runs at the Munich Airport.

Nov 10, 2024

An easier-to-use technique for storing data in DNA is inspired by our cells

Posted by in categories: biotech/medical, chemistry, genetics

The new method, published in Nature last week, is more efficient, storing 350 bits at a time by encoding strands in parallel. Rather than hand-threading each DNA strand, the team assembles strands from pre-built DNA bricks about 20 nucleotides long, encoding information by altering some and not others along the way. Peking University’s Long Qian and team got the idea for such templates from the way cells share the same basic set of genes but behave differently in response to chemical changes in DNA strands. “Every cell in our bodies has the same genome sequence, but genetic programming comes from modifications to DNA. If life can do this, we can do this,” she says.

Qian and her colleagues encoded data through methylation, a chemical reaction that switches genes on and off by attaching a methyl compound—a small methane-related molecule. Once the bricks are locked into their assigned spots on the strand, researchers select which bricks to methylate, with the presence or absence of the modification standing in for binary values of 0 or 1. The information can then be deciphered using nanopore sequencers to detect whether a brick has been methylated. In theory, the new method is simple enough to be carried out without detailed knowledge of how to manipulate DNA.

The storage capacity of each DNA strand caps off at roughly 70 bits. For larger files, researchers splintered data into multiple strands identified by unique barcodes encoded in the bricks. The strands were then read simultaneously and sequenced according to their barcodes. With this technique, researchers encoded the image of a tiger rubbing from the Han dynasty, troubleshooting the encoding process until the image came back with no errors. The same process worked for more complex images, like a photorealistic print of a panda.

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