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Apr 17, 2020

Robot Deliveries Might End Up Being Common, Post-Coronavirus Pandemic

Posted by in categories: biotech/medical, food, humor, robotics/AI

While the Wuhan district in China was under quarantine, news surfaced of robots delivering food and, later, medical supplies. Meanwhile, in the United States, the French company NAVYA configured its autonomous passenger shuttles in Florida to transport COVID-19 tests to the Mayo Clinic from off-site test locations. As the weeks of stay-at-home orders and recommendations slip into months, the delivery robots that were seen as a joke, fad, or nuisance have in some instances found a way into the public consciousness as important tools to combat the spread of coronavirus. The question is, will their usefulness extend post-lockdown?

Apr 17, 2020

More than 100,000 people have recovered from the coronavirus

Posted by in category: biotech/medical

Amid concerns over the coronavirus pandemic, it’s important to remember the vast majority of those infected experience mild symptoms and recover from the illness.

Apr 17, 2020

Chimera Experiments Create Monkey-human Hybrid

Posted by in category: futurism

Spanish scientists have created the first human–monkey chimera, and in the process sparked an ethical debate.

Apr 17, 2020

Researchers unlock secret of deadly brain cancer’s ‘immortality’

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

UC San Francisco researchers have discovered how a mutation in a gene regulator called the TERT promoter—the third most common mutation among all human cancers and the most common mutation in the deadly brain cancer glioblastoma—confers “immortality” on tumor cells, enabling the unchecked cell division that powers their aggressive growth.

The research, published September 10, 2018 in Cancer Cell, found that patient-derived glioblastoma cells with TERT promoter mutations depend on a particular form of a protein called GABP for their survival. GABP is critical to the workings of most cells, but the researchers discovered that the specific component of this protein that activates mutated TERT promoters, a subunit called GABP-ß1L, appears to be dispensable in : Eliminating this subunit using CRISPR-based gene editing dramatically slowed the growth of the human in lab dishes and when they were transplanted into mice, but removing GABP-ß1L from healthy cells had no discernable effect.

“These findings suggest that the ß1L subunit is a promising new drug target for aggressive glioblastoma and potentially the many other cancers with TERT promoter mutations,” said study senior author Joseph Costello, Ph.D., a leading UCSF neuro-oncology researcher.

Apr 17, 2020

Cat Cloning, Cloned Cat, Clone Your Pet, Clone Animals

Posted by in categories: biotech/medical, genetics

Looking to clone your cat? At Viagen Pets, we offer pet cloning and genetic preservation services to cat owners across the world. Learn about cloned cats today!

Apr 17, 2020

The Plague Has Been Quietly Killing Yellowstone Cougars for a Decade

Posted by in category: futurism

Researchers found that almost half of the mountain lions they tested showed signs of plague infection.

Apr 17, 2020

Strange blue lights appear in skies across the world as sightings flood internet

Posted by in category: internet

The mysterious sight has been caught on camera everywhere from Spain to the US and Australia over the past few weeks.

Apr 17, 2020

Olive oil leads to discovery of new universal law of phase transitions

Posted by in category: physics

A simple drop of olive oil in a system of photons bouncing between two mirrors has revealed universal aspects of phase transitions in physics. Researchers at AMOLF used an oil-filled optical cavity in which light undergoes phase transitions similar to those in boiling water. The system they studied has memory because the oil causes photons to interact with themselves. By varying the distance between the two mirrors and measuring the transmission of light through the cavity, they discovered a universal law describing phase transitions in systems with memory. These results are published on April 15th in Physical Review Letters.

The Interacting Photons research group at AMOLF studies nonlinearity and noise in photonic systems. One of such systems is a , formed by two mirrors facing each other at a close distance. Within the cavity, light bounces back and forth as it is reflected by the mirrors. Putting something inside such an , changes the properties of the system. “We created a system with by placing a drop of inside the cavity,” says group leader Said Rodriguez. “The oil mediates effective photon-photon interactions, which we can see by measuring the transmission of laser light through this cavity.”

Apr 17, 2020

👽An extensive report of the ongoing Locust plague and where these little aliens are heading

Posted by in category: food

Fyodor R., Refund Institute

👽Locust Swarm

👽Part I: New Terrain, destination Iran

Continue reading “👽An extensive report of the ongoing Locust plague and where these little aliens are heading” »

Apr 17, 2020

Molecular networks serve as cellular blueprints

Posted by in categories: bioengineering, biotech/medical, genetics, health

Networks are at the heart of everything from communications systems to pandemics. Now researchers have found that a unique type of network also underlies the structures of critical cellular compartments known as membraneless organelles. These findings may provide key insights into the role of these structures in both disease and cellular operations.

“Prior to this study, we knew the basic physical principle by which these protein-rich compartments form — they condense from the cytoplasm into liquid droplets like dew on a blade of grass,” said David Sanders, a post-doctoral researcher in Chemical and Biological Engineering at Princeton University. “But unlike dew drops, which are composed of a single component (water), cellular droplets are intimidatingly complex. Our work uncovers surprisingly simple principles that we think are universal to the assembly of liquid organelles, and opens new frontiers into studying their role in health and disease.”

Sanders is the lead author in an article in the journal Cell describing a blueprint for the assembly of these liquid structures, also called condensates. The researchers looked closely at two types of condensates, stress granules and processing bodies (“P-bodies”). In the Cell paper, researchers directed by Clifford Brangwynne, a professor of Chemical and Biological Engineering at Princeton and the Howard Hughes Medical Institute, combined genetic engineering and live cell microscopy approaches to reveal the rules underlying the assembly and structure of stress granules, and why they remain distinct from their close relatives, P-bodies.